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Explore CNC Meaning​ & CNC Technology

GreatLight’s blog aims to share our hard-earned knowledge on Explore CNC Meaning​ & CNC Technology. We hope these articles help you to optimize your product design and better understand the world of rapid prototyping. Enjoy!

Strategies and methods to improve production efficiency of Dean vertical machining center

Great Light CNC Machining Services 21/10/2024 17:28
As a high-precision and high-efficiency processing equipment, Dean vertical machining center plays an important role in the manufacturing industry. In order to further improve its production efficiency, the following strategies and methods are worth discussing and putting into practice.
1. Optimize tool selection and processing parameters
Choosing appropriate cutting tools and reasonable processing parameters forms the basis for improving production efficiency. According to the characteristics and processing requirements of the processed materials, high-quality and high-precision tools are selected to reduce vibration and cutting force during the cutting process. At the same time, efficient cutting is achieved and processing efficiency is improved by optimizing parameters such as cutting speed, feed rate and cutting depth.
2. Strengthen the maintenance and upkeep of equipment
Perform regular maintenance and servicing on the Dean vertical machining center to ensure the equipment is in optimal operating condition. This includes cleaning the interior and exterior of the equipment, checking and replacing worn parts, ensuring normal operation of lubricants, etc. Through preventive maintenance, equipment breakdown rates are reduced and equipment operation rates are increased, thereby improving production efficiency.
3. Improve operator skills
The skill level of the operator directly affects the production efficiency of the machining center. Through regular training and skill improvement, operators can master equipment operation methods and processing program parameters to improve operation accuracy and efficiency. Additionally, operators’ judgment and fault resolution capabilities are developed to ensure that production can be quickly restored in the event of equipment failure.
4. Overview of automation and smart technologies
Automation and smart technology are important ways to improve production efficiency. For example, technologies such as automatic tool changers, automatic measuring systems and robot-assisted operations are used to reduce manual interventions and improve processing accuracy and automation. At the same time, advanced toolpath optimization algorithms and adaptive control technology are used to optimize the processing process and improve processing efficiency.
5. Strengthen quality control and process monitoring
Establish a comprehensive quality control system and process monitoring system to quickly discover and correct processing problems and improve processing stability and consistency. By monitoring the processing process in real time, we ensure that product quality meets requirements and reduce the scrap rate, thereby improving production efficiency.
In summary, the strategies and methods to improve the production efficiency of Dean vertical machining center involve many aspects, including optimizing tool selection and processing parameters, strengthening maintenance and maintaining equipment, improving operator skills, introducing automation and smart technology, and strengthening quality control. and process monitoring, etc. By comprehensively applying these strategies and methods, the production efficiency of Dean vertical machining centers can be significantly improved and greater value can be created for the enterprise.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Here are the operational skills of the wirecode profile processing center

Great Light CNC Machining Services 21/10/2024 17:12
  Line Code Profile Processing CenterThis is an efficient CNC machine tool that can be used for precision processing of linear materials such as aluminum profiles and steel. It has the advantages of high degree of automation, high processing efficiency and high processing precision, so it is widely used in furniture manufacturing, architectural decoration, automobile and other manufacturing. other industries. Through CNC technology, various processing operations can be carried out, such as milling, drilling, tapping, etc. It is easy to use, has small errors, has good stability, and can realize automated production. In the field of furniture manufacturing, aluminum profiles are often used to process tables, chairs, cabinets and other products to improve production efficiency and product quality.
  Line Code Profile Processing CenterOperational advice:
1. Preparation
Check the equipment: Before starting the operation, a complete inspection of the metal code profile processing center should be carried out, including whether the power supply, air source, oil pump, etc. are functioning properly and there are oil or water leaks. in various parts.
Prepare the part: According to the processing requirements, prepare the metal code profile to be processed to ensure that its size and shape meet the requirements.
2. Program entry and debugging
Writing program: According to the processing requirements, use programming software to write the corresponding processing program.
Import Program: Import the program written into the wirecode profile processing center control system.
Debugging program: debug and optimize the program through simulation operation or cutting test to ensure processing accuracy and efficiency.
3. Processing operations
Clamping the workpiece: Use special clamp to fix the metal code profile to be processed on the workbench of the metal code profile processing center to ensure that the workpiece is stable and does not shake.
Select tool: Select the appropriate tool according to the processing requirements and install it on the spindle.
Set parameters: set the processing parameters in the control system, such as cutting speed, feeding quantity, etc.
Start processing: After confirmation, start the processing program and the metal code profile processing center will automatically complete the processing process.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

CNC slide

CNC sliding table is an important part of CNC machine tools

Great Light CNC Machining Services 21/10/2024 16:56
As an important part of CNC machine tools, the purchase and operation of CNC slides plays a vital role in the quality and efficiency of enterprises’ production and processing. When purchasing, you should consider maintaining accuracy, stability of work, hardness, sensitivity to movement and guidance accuracy. In terms of operation, users should fully understand its principles, operation specifications, maintenance, etc. to ensure the stable operation and safety of the equipment.
The performance of a CNC carriage mainly depends on its precision, speed, rigidity and stability. Precision refers to the precision of the movement of the sliding table, usually measured in microns (um) or nanometers (nm). The higher the precision, the better the quality of the processed part. Speed ​​refers to the speed at which the sliding table moves, usually measured in millimeters per minute (mm/min) or meters per second (m/s). The faster the speed, the higher the processing efficiency. Rigidity refers to the ability of the sliding table to resist deformation. The higher the rigidity, the better the stability and precision during processing. Stability refers to the ability of the sliding table to maintain unchanged performance during long-term operation. The better the stability, the more reliable the processing process.
CNC Sliding Table Operation Guide:
1. Basic principle: The CNC system is used to control the slide to achieve high precision machining, which is of great importance for subsequent operation and maintenance.
2. Operation specifications: Before use, you should familiarize yourself with the operating procedures and corresponding safety precautions, including inspection before start-up, monitoring during operation and emergency stop measures.
3. Maintenance: Regular care and maintenance, especially cleaning and lubricating key components such as guide rails and screws, can effectively extend the life of the equipment and maintain processing precision.
4. Troubleshooting: Master some common troubleshooting methods, such as handling problems such as improper sliding and inaccurate positioning, and be able to respond and resolve emergencies in a timely manner.
5. Software application: Familiarize yourself with the software system, including programming, simulation, monitoring and other functions, in order to fully utilize its processing potential.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Horizontal axis rectangular table surface grinder can be used for mechanical parts requiring high precision

Horizontal axis rectangular table surface grinder can be used for mechanical parts requiring high precision

Great Light CNC Machining Services 21/10/2024 16:40
Horizontal axis rectangular table surface grinder is an important equipment widely used in mechanical processing and precision manufacturing industries. Its main function is to grind the workpiece to achieve the required dimensional accuracy and surface finish.

  Horizontal Axis Rectangular Table Surface GrinderThe main parts consist of:
1. Lathe bed: As the basis of the entire grinder, the lathe bed must have good rigidity and stability to resist various forces during the grinding process.
2. Workbench: The workbench is usually a rectangular tabletop that can be moved laterally and longitudinally so that the workpiece can be adjusted to the appropriate position during the grinding process.
3. Spindle: The spindle is the central part of the grinder, responsible for installing the grinding tool and driving its rotation. The horizontal spindle design is better able to withstand the forces generated during grinding.
4. Abrasives: Abrasives are generally grinding wheels with different particle sizes and hardnesses to suit the processing needs of different materials.
5. Feeding device: used to control the moving speed and feeding quantity of the workbench to ensure the precision and uniformity of the grinding process.
6. Cooling system: During the grinding process, the use of coolant can effectively reduce friction and temperature and protect the workpiece and grinding tools.
Main features:
1. High precision: capable of processing micron-level parts, suitable for mechanical parts requiring high precision.
2. Versatility: It can process a variety of materials, including metals, plastics, ceramics, etc., and has strong adaptability.
3. High degree of automation: usually equipped with CNC system to achieve automated operations and improve production efficiency.
4. Strong stability: Thanks to its bed and structural design, the mill can remain stable under high loads, reduce vibration and improve processing precision.
Application fields of horizontal axis rectangular table surface grinder:
1. Machinery manufacturing: used for processing and manufacturing precision mechanical components.
2. Mold manufacturing: In mold production, grinders are used to process the surface of the mold to ensure its precision and smoothness.
3. Aerospace: In the manufacturing of aerospace parts, high precision grinding is necessary to ensure safety and performance.
4. Automotive industry: used for processing key components such as engine parts, transmissions and brake systems.
5. Electronics industry: processing grinding of precision components such as motors and sensors.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Introduction to high temperature resistant organ protective cover

Great Light CNC Machining Services 21/10/2024 16:24
High temperature resistant organ protection cover is a kind of protective equipment specially designed for high temperature environments. It is widely used to protect guide rails, screws and other components of machine tools, CNC machine tools, laser cutting machines, engraving machines and others. equipment.
1. Features and Benefits
1. High temperature resistance: The high temperature resistant organ protective cover is made of special high temperature resistant materials, which can maintain stable performance in high temperature environments and effectively prevent deformation, melting or burning material caused by high temperatures.
2. Fireproofing: In addition to being resistant to high temperatures, this type of protective cover is also fireproof, which can slow the spread of fire when contacting a fire source and provide safety protection additional to the equipment.
3. Dustproof, waterproof and oil-proof: It has excellent dustproof, waterproof and oil-proof properties, which can protect the interior of the equipment from external pollution and ensure operation normal for the equipment.
4. Expandability and flexibility: The organ protective cover adopts a flexible design and can be freely expanded and contracted according to the movement trajectory of the equipment, while maintaining good sealing and protection effects.
5. Wear resistance, acid and alkali resistance: Some protective covers are also wear resistance, acid and alkali resistance and can adapt to harsher working environments.
2. Application fields
1. Machine tool manufacturing: Protect key components such as guide rails and screws of machine tools from damage such as high temperature, iron filings, coolant, etc.
2. Laser cutting and engraving: In laser cutting machines and engraving machines, protect the interior of the equipment from high temperature lasers and dust.
3. Heat treatment and forging: In heat treatment furnaces and forging equipment, avoid damage to equipment caused by high temperature environments.
3. Purchase suggestions
1. Material selection: select appropriate high temperature resistant materials according to the specific working environment and needs. Common materials include high temperature resistant synthetic fibers, stainless steel, etc.
2. Size and specifications: Customize the appropriate size and specifications of the protective cover according to the size and shape of the guide rail or screw of the equipment.
3. Installation method: Choose the appropriate installation method according to the structure of the equipment and the installation space, such as fixed, detachable, etc.
4. Brand and quality: Choose high-quality brands and products to ensure that the quality and performance of the protective cover are stable and reliable.
4. Market prices and suppliers
Currently, the market price of high temperature resistant organ protectors varies depending on the materials, sizes, specifications, and suppliers. According to the latest information from platforms such as Alibaba 1688, the price ranges from a few yuan to hundreds of yuan. The main suppliers are concentrated in machine tool accessories manufacturing companies and machine tool accessories sellers in Hebei, Shandong, Jiangsu and other places.
5. Summary
The high temperature resistant organ protection cover is an important component in the field of industrial automation and has many excellent properties such as high temperature resistance, flame retardancy, dustproof, waterproof and oil. When purchasing, you should fully consider factors such as material, size, specifications, installation method, brand and quality to ensure you choose a protective cover product suitable for your needs.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

CNC system for grinding machine

Functional characteristics and application scenarios of grinding machine CNC system

Great Light CNC Machining Services 21/10/2024 15:48
  CNC system for grinding machineIt is an important part of modern manufacturing. It enables precise control and efficient management of the grinding process through advanced control technology. The following is a detailed introduction to the system:
  
1. Basic structure
  
1. Modular design: The system generally adopts modular design for easy installation and maintenance.
  
2. Hardware upgrade: With the development of technology, the system hardware performance continues to improve.
  
3. Improved display operation: In order to improve the user experience, the system is equipped with a high-brightness LCD screen and crystal buttons, providing a good visual experience.
  

2. Functional characteristics
  
1. Graphical programming: The CNC system of the grinder provides graphical programming functions, which simplifies the operator’s programming work, including non-shock plunge grinding, tool advance grinding, etc.
  
2. Secondary interface development: In order to meet the personalized needs of customers, some systems provide secondary development platforms.
  
3. Oblique axis function: programming is carried out according to the Cartesian coordinate system, and the Z axis follows the X linkage, which can grind the outer circle and effectively grind the end face.
  
4. Electronic gearbox: Through the electronic gearbox function, the movement of a following axis can be controlled. It is often used for the processing of straight teeth, helical teeth and arc teeth in milling processing.
  
5. Video-assisted tool setting: a high-definition camera is used to collect processing model information, which is processed by the CNC system and converted into a color image, which is displayed on the compensation interface of the tool, making tool adjustment safe and convenient. .
  
6. Tangential point tracking: Control the non-circular surfaces.
  
3. Application scenarios
  
1. Internal Cylindrical Grinding: Provides high frequency, efficient and precise internal cylindrical grinding solutions.
  
2. Cylindrical grinding: Through rich grinding methods, the grinding of various parts can be realized, the process is optimized, and the grinding time is reduced by 30%.
  
3. Centerless grinding: supports plunge grinding, depth grinding, plunge grinding and online measurement, with the characteristics of high response, high speed and high precision.
  
4. Cam grinding: using EtherCat protocol, fast response, horizontal line speed control, high precision, optimized cam algorithm, high precision.
  
5. Threaded screw grinding: provides online monitoring, online compensation, convenient tool adjustment, high precision and optimized grinding plane.
  
6. Crankshaft grinding: using EtherCat protocol, fast response, horizontal linear speed control, high precision, optimized tangent point tracking algorithm, high precision, error control and compensation.
  
7. Gear grinding: The electronic gearbox supports the processing of straight, helical and arc teeth and optimizes the control algorithm.
  
With their high degree of automation, precision and flexibility, grinding machine CNC systems play an increasingly important role in modern manufacturing and provide stronger technical support for manufacturing development.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

How to optimize the processing parameters of the drilling and tapping center using intelligent algorithms?

Great Light CNC Machining Services 21/10/2024 15:32
In modern manufacturing, drilling and tapping centers are high-precision processing equipment, and their processing efficiency and accuracy directly affect product quality and production costs. In order to further improve the performance of the drilling and tapping center, optimizing its processing parameters through intelligent algorithms has become an important way.
First, intelligent algorithms enable rapid processing and analysis of massive data. In the process of drilling and tapping, a large number of processing parameters are involved, such as cutting speed, feed amount, cutting depth, etc. The selection and optimization of these parameters directly affects the efficiency and accuracy of processing. Traditional parameter optimization methods often rely on manual experience and experiments, which are inefficient and difficult to perform. Intelligent algorithms, such as neural networks and genetic algorithms, can automatically find suitable treatment parameter combinations through learning and analyzing historical data.
Second, intelligent algorithms can take into account the combined impact of multiple factors. During the drilling and tapping process, the selection of processing parameters is not only affected by fixed factors such as material properties and machine tool performance, but also disturbed by dynamic factors such as ambient temperature and tool wear. Intelligent algorithms can take these factors into account comprehensively, establish complex mathematical models, and achieve precise optimization of processing parameters.
In addition, intelligent algorithms have self-learning and adaptation capabilities. During the drilling and tapping process, as the processing conditions change, the processing parameters will also change. Intelligent algorithms can automatically adjust treatment parameters to adapt to new treatment conditions by monitoring and analyzing data in real time to ensure the stability and efficiency of the treatment process.
In practical applications, significant results have been achieved by optimizing the processing parameters of drilling and tapping centers through intelligent algorithms. For example, a company used a genetic algorithm to optimize the cutting parameters of a drilling and tapping center, which increased the processing efficiency by 20%, and the processing accuracy was also significantly improved. In addition, intelligent algorithms can also realize real-time monitoring and early warning of the treatment process, quickly discover and deal with potential treatment problems, and further improve the reliability and safety of the treatment process.
In summary, optimizing the processing parameters of the drilling and tapping center through intelligent algorithms is an effective way to improve processing efficiency and precision. With the continuous development and improvement of intelligent algorithms, its application prospects in the field of drilling and tapping processing will be broader. In the future, we can expect intelligent algorithms to play a more important role in drilling and tapping processing, thereby injecting new vitality into the development of the manufacturing industry.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Troubleshooting and Maintenance Methods for Turret CNC Lathes

Great Light CNC Machining Services 21/10/2024 15:16
In modern manufacturing, turret CNC lathes now play an important role in the workshop due to their high efficiency and high precision. However, any high-precision equipment will inevitably face malfunctions during operation. How to accurately diagnose and repair efficiently has become the key to ensuring the production process runs smoothly.

We need to understand the basic structure and working principle of turret CNC lathe. This type of lathe usually consists of main components such as a bed, spindle box, turret, power system and control system. As one of its main components, the tool turret is responsible for automatically changing tools and performing complex machining tasks. Understanding the functions and interactions of each component is a prerequisite for fault diagnosis.
When a fault occurs, the first thing to do is to carefully observe the fault phenomenon, including abnormal sounds, error codes, abnormal operations, etc. This information often constitutes important clues for fault diagnosis. For example, if a lathe makes an abnormal noise when starting, it could be due to a poor lubrication system or a loose mechanical component; If there is a problem of substandard machining accuracy, it may be due to tool wear, programming errors, screw shank clearance, etc.
Then, use troubleshooting methods to gradually narrow the scope of the problem. By checking the electrical system, hydraulic system, mechanical structure, etc., possible fault points can be identified one by one. During this process, the use of professional testing tools such as multimeters and pressure gauges helps locate the problem more precisely. At the same time, referring to the equipment’s operation manual and maintenance records can help identify potential hazards.
Once the precise cause of the fault has been determined, appropriate repair measures can be taken. For example, wear or looseness of mechanical parts can be solved by replacing parts and adjusting gaps; In case of electrical system failure, you need to check circuit connections and replace damaged components and for control system problems, you may need to update software version or Reset settings. During the entire maintenance process, be sure to follow safe operating procedures to ensure the safety of personnel and equipment.
It is worth mentioning that prevention is always better than cure. During daily use, regular care and maintenance can significantly reduce the probability of failure. This includes simple but effective measures such as cleaning various parts, checking the quality of lubricating oil and tightening loose screws. In addition, professional training of operators cannot be ignored. Only by fully understanding the performance and operating specifications of the equipment can equipment efficiency be maximized and unnecessary breakdowns reduced.
In summary, fault diagnosis and maintenance of turret CNC lathes is a systematic project that requires technicians to have strong professional knowledge, in-depth observation and rigorous logical analysis skills. Through scientific and reasonable methods, not only can defects be resolved quickly, but the service life of equipment can also be extended and production efficiency improved. In this process, each error handling is a test of the technical team’s professional capabilities and an improvement of the company’s operational efficiency.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Horizontal Inner Broaching Machine

The horizontal internal broaching machine adopts integrated electricity and hydraulics design and is easy to operate.

Great Light CNC Machining Services 21/10/2024 15:00
The horizontal internal broaching machine is a machine tool that clamps the workpiece on the center line of the tailstock and tailstock using tie rods and processes the workpiece internally through the tool. It uses the rotation of the workpiece and the movement of the tool for processing; . During the machining process, the workpiece generally remains stationary while the spindle moves in a linear motion for cutting.
Types and characteristics of horizontal internal broaching machines:
Type: Generally divided into two types: manual and fully automatic. Manual control of the processing process is required, while fully automatic processing can be automated through computer programs to improve production efficiency.
High processing precision: the error of the processed workpiece is small, generally controlled between 0-0.34, and even the precision of the key width can be controlled between 0-0.03mm, and the depth of the key is 0 to 0.05 mm.
Easy to use: The horizontal internal broaching machine adopts integrated electricity and hydraulics design, simple to operate. Workers simply click the button to load and unload parts.
Low processing cost: It adopts hydraulic system with large traction force and low energy consumption. It can save more than 50% electricity compared with mechanical broaching machines, slotting machines and planers, thereby reducing product costs.
Wide processing range: suitable for cutting internal perforated products of copper, iron, aluminum and other materials, such as internal circular holes, flutes, polygonal internal holes, semi-circular holes, internal teeth, grooves of key, etc.
Protect the tool: It is not easy to break the tool, and the tension can be adjusted to maximally protect the spindle from damage and save tool costs.
High production efficiency: 6-100 pieces can be processed per hour, especially suitable for mass production.
Horizontal broaching machines generally consist of control systems, servo systems, mechanical transmission systems and other auxiliary systems. The functions of each part are as follows:
Head: clamping part of the horizontal broaching tool, used to transmit pulling force.
Collar: Connection part between the head and the transition cone, which facilitates the passage of the head through the wall of the broaching machine and also serves as a marking place.
Transition Cone: Allows the front part of the spindle to easily enter the hole of the workpiece and plays a role in center alignment.
Main part: It plays a guiding role to prevent the horizontal broaching machine from being tilted after the broach enters the hole of the workpiece, and can check whether the hole diameter meets the requirements before drawing.
Cutting Party: Responsible for the cutting work and removing any excess from the workpiece. It consists of three parts: coarse cutting teeth, transition teeth and fine cutting teeth.
Calibration part: there is very little cutting, only the elastic recovery amount of the workpiece is removed, which plays a role in improving the processing precision and surface quality of the workpiece, and also serves as a backup tooth for precision cutting.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Application of automatic lathe feeder in modern manufacturing industry

Great Light CNC Machining Services 21/10/2024 14:44
The emergence and application of automatic lathe feeders has brought revolutionary changes in this field. This not only improves production efficiency and product quality, but also promotes the continuous progress and optimization of manufacturing technology.

In the manufacturing industry, improving production efficiency is undoubtedly the goal pursued by every company. The automatic lathe feeder realizes precise and rapid material transportation through automation technology, greatly shortening the production cycle. Compared with traditional manual operation, it can operate 24 hours a day, reducing labor costs and increasing output per unit time. Taking a manufacturing company as an example, after introducing a feeder, its production efficiency increased by 30% and its product delivery time was reduced by almost half, greatly improving its market competitiveness.
Apart from improving efficiency, it also contributes immensely to product quality. The traditional manual feeding method often contains human errors, resulting in unstable product quality. With its precise control system, it can achieve high precision and consistency in material transportation, ensuring the stable quality of each product. This is particularly important for industries with high precision requirements, such as aerospace and medical equipment. A factory specializing in manufacturing spacecraft parts increased its product qualification rate from 85% to 99.8% after use, nearly eliminating quality problems caused by power errors.
The application of automatic lathe feeders also promotes the advancement of manufacturing technology. It is not a simple device, but an important element of the intelligence of the entire production system. By seamlessly connecting with other equipment, it can achieve complete automation and intelligence in the production process. Some advanced manufacturing companies have begun to apply Industry 4.0 technology, combining feeders with industrial Internet, big data analysis and artificial intelligence to realize real-time monitoring and optimization of the production process. This technological integration not only improves production efficiency and product quality, but also brings new business models and revenue sources to companies.
However, the development of any technology is not easy. Automatic lathe feeders also face certain challenges in practical applications. Firstly, the initial investment in equipment is relatively large for some small and medium-sized enterprises, financial pressure is an unavoidable problem. In addition, its maintenance and upgrade also requires professional technical support, which places higher demands on the company’s technical reserves and management capabilities.
To overcome these challenges, there are a number of steps governments and businesses can take. The government can reduce the initial investment costs of businesses through policy support and financial subsidies. At the same time, we will strengthen vocational education and training to cultivate more technical talents with professional knowledge and skills. Enterprises can continue to launch more efficient and smarter equipment to improve their market competitiveness by strengthening technological research, development and innovation. In addition, enterprises can also cooperate with scientific research institutes and universities to jointly solve technical problems and promote technological progress in the industry.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Complete CNC lathes provide important support for the development of modern manufacturing industry

Great Light CNC Machining Services 21/10/2024 14:26
The working principle of multi-function CNC lathe reflects the wisdom of modern technology. It compiles the workpiece processing route, process parameters, tool movement path, displacement, cutting parameters, auxiliary functions and other items into a processing program sheet according to the code instructions and program format prescribed. This program sheet is like a precise operating guide, recorded on the control medium, then entered into the CNC lathe. With computer numerical control (CNC) systems, lathes can operate precisely according to programmed instructions. This digital control method replaces the manual operation mode of traditional lathes and greatly improves the processing precision and efficiency.
Complete CNC lathes come with a range of impressive features. Its high performance is its main advantage. It can maintain a stable processing state under high-speed operation and realize the processing of various complex-shaped parts. Whether it is shaft parts, disc parts or other special-shaped parts, the complete CNC lathe can handle them easily. High precision is also an important feature, with processing at micron level or even smaller error ranges ensuring quality and part interchangeability. For example, in the aerospace field, for processing some precision parts, complete CNC lathes can meet strict size and precision requirements.
In terms of operation, complete CNC lathes offer some flexibility. Operators can quickly adjust parameters and processing programs according to different part processing needs. In addition, it also has an automatic tool change function, which can quickly change tools according to process requirements during processing, thereby reducing downtime during processing. This function is particularly important in mass production and can significantly improve production efficiency.
Complete CNC lathes have an extremely wide range of applications. In the automotive industry, it is used to process key components such as engine parts and transmission parts; in the field of machinery manufacturing, the production of various mechanical parts is inseparable from it in the manufacturing of electronic equipment, for the processing of some small parts; precision parts, complete CNC lathes also play an irreplaceable role.
However, complete CNC lathes also place higher demands on operators. Operators must have some knowledge of CNC programming, machining processes and equipment maintenance. Only in this way can the advantages of a fully functional CNC lathe be fully utilized and equipment failures and processing quality problems caused by improper operation can be avoided.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Common problems and solutions for double-headed profile processing centers include:

Great Light CNC Machining Services 21/10/2024 14:09
  Double head profile machining centerIt is an automated composite profile processing equipment that integrates milling, drilling, tapping and other processes. It adopts a double-head design, which can process two stations at the same time, greatly improving work efficiency. The equipment is generally equipped with two pin boxes, installed on the left and right sides of the front end of the saddle to realize the simultaneous processing of two heads. This design allows the equipment to perform more jobs at the same time, improving production efficiency.
Double-head profile processing centers are widely used in new energy profile processing, railway transportation, automobile parts, furniture customization, electronic appliances and other fields. Its efficient and high-precision processing capabilities enable these areas to complete production tasks faster and improve product quality and competitiveness.
The following isDouble head profile machining centerFrequently asked questions and their solutions:
1. Equipment startup abnormality
Fault phenomenon: The device cannot start normally or stops immediately after starting.
Possible reasons: power supply problem, control system failure, safety protection device not reset.
Solution: Check the power line and voltage to ensure that the power supply to the equipment is normal; restart the CNC control system. If the problem persists, consider replacing the controller or upgrading the system software. the equipment is in normal operating condition.
2. Processing accuracy gap
Defect phenomenon: the size deviation of the processed products is large and cannot meet the design requirements.
Possible reasons: The tool is worn or not installed correctly.
Solution: Check the tool for wear regularly and replace it in time; make sure the tool is installed correctly and adjust the processing parameters to accommodate the tool condition.
3. The equipment operates with loud noise
Fault phenomenon: The equipment produces abnormal noise during operation.
Possible reasons: bearing damage, imbalance between the worm bar set and the guide rail, severe wear of the wear-resistant plate, etc.
Solution: Check and replace damaged bearings; correct the screw busbar to ensure that it is balanced with the guide rail; re-attach the wear-resistant sheet. If the guide rail is seriously scratched, it must be reprocessed.
4. The program cannot be transferred
Fault phenomenon: The program cannot be transferred to the device and an alarm occurs.
Possible reasons: The transmission line is broken, soldered and the plug is not inserted correctly.
Solution: Check the transmission line for open circuits or weak soldering, and make sure the plug is connected correctly; check whether the parameters on the transmission software side of the computer are consistent with those on the machine tool side, replace the computer and try the transmission; .
5. Tool magazine problem
Fault phenomenon: The tool changing process stops suddenly and tool changing cannot continue.
Possible reasons: insufficient air pressure, incorrect setting of cutting amount, open circuit of tool magazine motor power cord, etc.
Solution: Check if the air pressure is sufficient (6 kg); adjust the cutting volume to ensure that there is no water in the cutting cylinder; Check the tool magazine power cord and motor relay for damage.
6. Failure to loosen the knife
Fault phenomenon: The tool loosening solenoid valve, spindle clamping cylinder, spindle spring blade and other components are damaged, causing tool loosening to fail.
Possible reasons: The knife solenoid valve is damaged, the spindle cutting cylinder is damaged, the spindle spring blade is damaged, etc.
Solution: Detect and replace damaged parts; check if the air source is sufficient; check if the button contact is good and if the line is broken.
7. The machine tool cannot return to zero point
Fault phenomenon: the machine tool cannot return to the set zero position.
Possible reasons: the original switch contact is stuck, the original stopper cannot push the original switch to the action position, etc.
Solution: Clean the stuck part to make it move smoothly; adjust the installation position of the travel switch so that it can be pressed normally, and take sealing measures;
8. Positive and negative hard limit alarms for machine tool
Fault phenomenon: positive and negative hard limit alarms appear when the machine tool is used before returning to zero.
Possible reasons: the travel switch contact is depressed, the travel switch is damaged, etc.
Solution: shake manually or the steering wheel out of the safety position, clean the switch contacts; replace travel switch; check for a short in the travel switch circuit and reprocess it.
9. Abnormal noise occurs during three-axis operation
Fault phenomenon: Abnormal sound occurs during three-axis operation.
Possible reasons: bearing failure, imbalance between the worm bar set and the guide rail, significant wear of the anti-wear plate, etc.
Solution: replace the bearings; correct the screw busbar set; reattach the wear-resistant sheet metal. If the guide rail is seriously scratched, it must be reprocessed.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Introduction to the splined shaft grinder

Introduction to the splined shaft grinder

Great Light CNC Machining Services 21/10/2024 13:52
In the broad scene of modern machinery manufacturing industry, spline shaft grinding machines have become the “craftsmen” of high-precision workpiece processing with their charm and important role. This precision CNC machine tool, with its performance and wide application range, provides strong support for the development of all walks of life.
1. Various functions of the equipment
  Spline shaft grinder is a type of equipment specially used for grinding high-precision straight or spiral tooth spline shafts with various tooth shapes, spline pins, plug gauges, rolling wheels and gears and more. other parts.It has strong processing capabilities and can handle various complex shaped parts, whether it is simple straight teeth or complex spiral teeth, it can easily handle them. This versatility makes it occupy a pivotal position in the field of machine manufacturing.
In actual operation, its stability and precision have been demonstrated. It uses forming grinding technology to achieve high precision grinding by cutting the cross section of the grinding wheel shaft to match the cross section of the gear tooth slot. This processing method not only improves the surface quality of the workpiece, but also ensures the consistency of processing dimensions, thereby providing greater convenience for subsequent assembly and use.
2. Wide range of application areas
Spline shaft grinders have a wide range of applications, covering almost all areas requiring high-precision processing of splines. In the automobile industry, it is widely used in the processing of bearings, gears, drive shafts and other parts. The precision and quality of these parts directly affect the performance and lifespan of the car. It therefore plays an irreplaceable role in improving the overall quality of the car.
Besides the automobile industry, it is also widely used in machine tool manufacturing, aerospace, military industry and other fields. In machine tool manufacturing, it is used to process key components such as guide rails, sliders and threads, thereby improving the precision and stability of machine tools; In the aerospace field, it is used to process high-precision components such as engine parts and hydraulic components. Ensuring the safety and reliability of aircraft such as airplanes and rockets.
3. Rigorous operation and maintenance
Although it demonstrates great capabilities during machining, its operation and maintenance require great rigor. During operation, operators must strictly adhere to safe operating procedures. For example, when using diamond dressing wheels, they need to pay attention to angles and protective measures. When grinding, they should avoid cutting too hard and moving the tool slowly. At the same time, in order to ensure the machining accuracy and machine tool life, machine tools also need to be maintained and maintained regularly, such as checking the grinding wheel wear, cleaning debris at the inside of the machine tool, etc.
4. Conclusion
As an important equipment in modern machinery manufacturing industry, it plays a vital role in various fields with its high precision, high efficiency and multi-function characteristics. It is not only the guardian of precision manufacturing, but also an important force in promoting the transformation and upgrading of the manufacturing industry. With the continuous advancement of science and technology and the continuous development of the manufacturing industry, the application prospects will be broader, injecting new vitality and new power into the development of all walks of life.
In the days to come, we have reason to believe that spline shaft grinding machines will continue to contribute to the prosperity and development of the manufacturing industry with their performance and wide range of applications. At the same time, we also look forward to more innovative technologies and design concepts being integrated into R&D and production to promote the continued development of this field.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Five-axis grinding center

The heart of precision manufacturing: a detailed explanation of the advanced technical characteristics and application areas of five-axis grinding centers

Great Light CNC Machining Services 21/10/2024 00:17
In the field of modern industrial manufacturing, the five-axis grinding center is known as the core equipment of precision manufacturing due to its high-precision, high-efficiency processing capabilities and wide range of fields. of application. This article will delve deeper into the advanced technical features of five-axis grinding centers and their applications in different industries to reveal their important position in precision manufacturing.

The heart of the five-axis grinding center lies in its five-axis linkage control system. Traditional processing equipment generally has only three linear axes: This design allows the five-axis grinding center to perform grinding and drilling in a wider range, meeting the processing needs of various complex parts. At the same time, the five-axis linkage control system can precisely control the position, direction and rotation angle of the tool, thereby achieving precise control of the machining process.



The structural composition of the five-axis grinding center is also an important reflection of its advanced technical characteristics. As the main structure of the machine tool, the fuselage provides a strong support for the five-axis grinding center. The worktable can move and rotate freely, making the treatment process more flexible. As the core component of the five-axis grinding center, the spindle can grind and drill from different angles and directions. The tool magazine stores different cutting tools, and the tools can be transposed and selected according to machining needs. The tool control system can automatically change and rotate cutting tools to ensure processing precision and efficiency. The cutting fluid system can cool and lubricate the cutting tools and workpiece surface during processing, effectively improving the processing quality and efficiency.
In terms of application fields, five-axis grinding centers are widely used in aerospace, automobile manufacturing, mold manufacturing and other fields because of their high precision and high efficiency. In the aerospace sector, five-axis grinding centers enable high-precision machining of complex parts such as turbine blades and aircraft structural parts. In automobile manufacturing, five-axis grinding centers are used to produce key components such as engine parts and transmission systems. In the field of mold manufacturing, five-axis grinding centers can achieve efficient grinding of complex curved surfaces, thereby improving the processing precision and surface quality of molds.
In summary, the five-axis grinding center has become the core equipment of precision manufacturing with its high-precision, high-efficiency processing capabilities and wide range of application fields. With the continuous development of technology, five-axis grinding centers will play a more important role in more fields and bring new breakthroughs and innovations to industrial manufacturing.



Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Five-axis grinding center

The heart of precision manufacturing: a detailed explanation of the advanced technical characteristics and application areas of five-axis grinding centers

Great Light CNC Machining Services 21/10/2024 00:17
In the field of modern industrial manufacturing, the five-axis grinding center is known as the core equipment of precision manufacturing due to its high-precision, high-efficiency processing capabilities and wide range of fields. of application. This article will delve deeper into the advanced technical features of five-axis grinding centers and their applications in different industries to reveal their important position in precision manufacturing.

The heart of the five-axis grinding center lies in its five-axis linkage control system. Traditional processing equipment generally has only three linear axes: This design allows the five-axis grinding center to perform grinding and drilling in a wider range, meeting the processing needs of various complex parts. At the same time, the five-axis linkage control system can precisely control the position, direction and rotation angle of the tool, thereby achieving precise control of the machining process.



The structural composition of the five-axis grinding center is also an important reflection of its advanced technical characteristics. As the main structure of the machine tool, the fuselage provides a strong support for the five-axis grinding center. The worktable can move and rotate freely, making the treatment process more flexible. As the core component of the five-axis grinding center, the spindle can grind and drill from different angles and directions. The tool magazine stores different cutting tools, and the tools can be transposed and selected according to machining needs. The tool control system can automatically change and rotate cutting tools to ensure processing precision and efficiency. The cutting fluid system can cool and lubricate the cutting tools and workpiece surface during processing, effectively improving the processing quality and efficiency.
In terms of application fields, five-axis grinding centers are widely used in aerospace, automobile manufacturing, mold manufacturing and other fields because of their high precision and high efficiency. In the aerospace sector, five-axis grinding centers enable high-precision machining of complex parts such as turbine blades and aircraft structural parts. In automobile manufacturing, five-axis grinding centers are used to produce key components such as engine parts and transmission systems. In the field of mold manufacturing, five-axis grinding centers can achieve efficient grinding of complex curved surfaces, thereby improving the processing precision and surface quality of molds.
In summary, the five-axis grinding center has become the core equipment of precision manufacturing with its high-precision, high-efficiency processing capabilities and wide range of application fields. With the continuous development of technology, five-axis grinding centers will play a more important role in more fields and bring new breakthroughs and innovations to industrial manufacturing.



Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

What are the measures to solve the problem of high-speed engraving and milling machines?

Great Light CNC Machining Services 21/10/2024 00:01
High-speed engraving and milling machines are important equipment in modern manufacturing. During use, they sometimes encounter knife jamming problems, which not only affects production efficiency, but also may damage the equipment. Here are various measures to solve the problem of high-speed engraving and milling machines.
First of all, cleaning and maintenance are basic measures. All parts of the equipment should be cleaned regularly to remove dust and impurities to prevent impurities from interfering with the normal operation of the equipment. Especially the cutting tool part, if excessive wear is found, it should be replaced immediately to ensure that the cutting tool is sharp. When replacing tools, follow the equipment instructions, install the tools correctly, and make sure they match the equipment.
Second, in case of electrical and control system problems, it is crucial to check voltage stability. Unstable voltage will cause insufficient power supply to electrical appliances, causing misalignment, stabbing and other phenomena. For this, it is recommended to install a voltage regulator to ensure voltage stability. Meanwhile, for the control board, its condition should be checked regularly to avoid unstable factors such as overheating and aging. Additionally, choosing genuine control cards and avoiding using pirated cards can improve system stability.
Aging of equipment components and assembly problems are also common causes of accidents. Electrical components and accessories inside the machine should be checked regularly to prevent them from being unable to withstand normal workload due to aging or unsuitability. For example, loss of Z-axis control may be related to aging electrical components, loose screws, loose couplings, and other factors. After these problems are discovered, the relevant parts should be repaired or replaced in time and the equipment should be assembled correctly, such as the Z axis is vertical, the slider and nuts are not damaged, etc.
In addition, the adjustment of processing technology will also affect the phenomenon of knife sticking. For example, cutting the knife too quickly or too deeply can cause a puncture. Therefore, adjusting cutting parameters, such as feed, cutting depth and cutting speed, is crucial to solve the problem of knife sticking. When adjusting the parameters, the material characteristics must be combined to ensure stability and safety during the cutting process.
Finally, standardized operator operation is equally important. Before starting the device, make sure all settings are correct and wear protective equipment such as goggles and gloves. During operation, pay special attention to the condition of the equipment. Once a fault is discovered, immediately stop the machine for inspection and continue working after troubleshooting.
In summary, solving the problem of high-speed engraving and milling machine tool binding requires starting from many aspects such as cleaning and maintenance, electrical and control systems, equipment components, processing technology and operating specifications. Through comprehensive inspection and scientific adjustment, the stabbing phenomenon can be effectively reduced, and the production efficiency and service life of equipment can be improved.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Structural optimization and performance improvement of a high-speed gantry machining center

Great Light CNC Machining Services 20/10/2024 23:45
As the core equipment of modern manufacturing industry, high-speed gantry machining center plays a vital role in aerospace, automobile manufacturing, mold processing and other fields with its high precision and high efficiency. With the continuous advancement of technology, structural optimization and performance improvement of high-speed gantry machining centers have become a hot topic in the industry.
In terms of structural optimization, the high-speed gantry machining center adopts a large gantry frame structure, which has high stability and rigidity. The gantry frame is composed of columns, beams and machine bed, which can withstand large cutting forces and gravity, ensuring precision and stability during processing. Additionally, through advanced methods such as finite element analysis, topology optimization and parametric design, the gantry frame is refined and designed to further improve its rigidity and stability, reduce vibration and deformation, thereby improving processing accuracy and surface quality.
In terms of material selection, the high-speed gantry machining center uses high-quality materials such as high-strength alloy steel and cast iron, and carries out appropriate heat treatment to improve the hardness and strength of materials. The application of these high-quality materials allows the machine tool to maintain stable performance and extend its service life during high-speed cutting and heavy cutting.
In terms of performance improvement, the high-speed gantry machining center introduces high-speed spindle and precision servo control system to achieve higher rotating speed and processing efficiency. At the same time, advanced sensors and feedback control technology are used to monitor and correct deviations in the processing process in real time, thereby improving processing accuracy. Moreover, through the innovation of software and hardware systems, such as intelligent programming systems and optimized processing algorithms, more efficient processing path planning and cutting process control are achieved, further improving the processing efficiency and product quality.
In terms of automation and intelligence, high-speed gantry machining centers have also made significant progress. By introducing automated loading and unloading systems, intelligent sensing and adaptive control technology, automated loading and unloading of parts is achieved, thereby reducing manual intervention and improving processing efficiency and consistency. At the same time, the application of intelligent machine learning and optimization algorithms automatically optimizes and adjusts the processing process, thereby improving processing quality and work efficiency.
In summary, structural optimization and performance improvement of high-speed gantry machining centers are important trends in the development of modern manufacturing. By adopting advanced structural design, high-quality materials, high-precision control systems and automation and intelligent technologies, we continue to promote the development of high-speed gantry machining centers toward higher precision , greater efficiency and higher levels of automation, paving the way forward for the transformation and modernization of the manufacturing industry. Provide strong support for high-quality development.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Optimize the processing parameters of CNC turning and milling machine tools to improve production efficiency

Great Light CNC Machining Services 20/10/2024 23:29
In modern manufacturing, CNC turn-mill machine tools are highly valued for their high precision and efficiency. However, to realize its full potential, processing parameters must be continually optimized to further improve production efficiency. This article will explore how to achieve this goal by optimizing the processing parameters of CNC turn-mill machine tools.
First of all, choosing the right tool is a key step in optimizing processing parameters. High-performance tool materials, such as coated carbide, ceramic or diamond tools, can increase cutting speeds and tool life. In addition, the geometric angle and edge processing of the tool are also crucial and should be reasonably selected according to the material characteristics of the workpiece to reduce the cutting force and improve the quality of the machined surface.
Second, optimizing cutting parameters is the core of improving production efficiency. Cutting speed, feed and cutting depth are key factors affecting processing efficiency and quality. Through reasonable arrangements, such as increasing the cutting speed, adjusting the feeding quantity and appropriately reducing the cutting depth, the processing efficiency can be significantly improved while ensuring the quality of treatment. However, it should be noted that the adjustment of cutting parameters should be based on the specific workpiece material and machine tool performance to avoid excessive cutting force and thermal deformation.
In addition, maintenance and servicing of machine tools is also an essential aspect in optimizing processing parameters. Regular preventive maintenance and daily upkeep of machine tools can extend the life of the equipment and maintain its optimal operating condition. This includes checking the accuracy of machine tools, cleaning and lubricating moving parts, replacing worn parts, etc.
In the process of optimizing processing parameters, modern technology should also be fully utilized. For example, using advanced CAD/CAM software for precise programming can reduce possible errors during machining. At the same time, the application of automation technologies, such as automatic loading and unloading mechanisms, robot-assisted loading and online measurement systems, can significantly improve processing efficiency and reduce errors human.
Finally, the skill and experience of the operator are also important factors in achieving efficient machining. Providing regular technical training to familiarize operators with the latest CNC technologies and programming methods and understand how to handle specific processing issues is a guarantee of improving production efficiency.
In summary, the optimization of processing parameters of composite CNC turning and milling machine tools is a systematic project that requires in-depth consideration of many aspects such as tool selection, cutting parameter optimization, machine tool maintenance, technological application and operator training. Through continuous practice and optimization, the production efficiency of CNC turning and milling compound machine tools can be significantly improved, thereby creating greater economic benefits for enterprises.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Flat Top Turret Machine

How to adjust the height of flat bed turret machine?

Great Light CNC Machining Services 20/10/2024 23:13
  Flat Top Turret MachineHeight adjustment is an important operation, directly related to the processing precision and efficiency of the machine tool. Here are some recommended steps and considerations for adjusting turret height:
  
1. Setting steps
  
1. Preparation work:
  
Make sure the machine is turned off and disconnected from the power supply to ensure safety. Prepare the necessary tools, such as wrenches, screwdrivers, etc.
  
2. Find the set point:
  
Adjusting the height of a flat top turret machine usually involves the turret position or tool installation height. Determine specific parts that require adjustment, such as turret base, tool clamp, etc.
  
3. Adjust the height:
  
Use a suitable tool to loosen the bolts or screws holding the turret or tool in place. Adjust the height of the turret or tool as needed to ensure the distance between it and the workpiece meets the requirements. During the adjustment process, be sure to keep it stable to avoid damage caused by excessive force.
  
4. Fixed adjustment:
  
Once the desired height is reached, retighten the bolts or screws to ensure the turret or cutter is secure. Check if the turret or adjusted tool is stable and free from shaking.
  
5. Test verification:
  
Reconnect the power supply and start the machine tool for testing. Observe whether there are any abnormal phenomena during processing, such as vibration, noise, etc. Check the quality of the part to ensure the height adjustment produces the desired effect.
  

2. Precautions
  
1. Safety first: Before making any adjustments, make sure the machine tool is turned off and disconnected from the power supply.
  
2. Accurate measurement: Use appropriate measuring tools (such as calipers, dial indicators, etc.) to ensure the accuracy of height adjustment.
  
3. Follow the instructions: Strictly follow the instructions of the machine tool or the instructions provided by the manufacturer.
  
4. Regular maintenance: Check the condition of the turret and cutting tools regularly, and adjust and replace worn parts timely.
  
5. Professional training: Operators should receive professional training and be familiar with the structure and operating principles of machine tools.
  
6. Record adjustments: Record the time, method and results of each adjustment for future reference and troubleshooting.
  
7. Avoid over-adjustment: Do not over-adjust the height to avoid affecting the stability and processing accuracy of the machine tool.
  
8. Consider environmental factors: When adjusting the height, consider the impact of ambient temperature, humidity and other factors on the machine tool.
  
In short, adjusting the height of a flat top turret machine is a process that requires care and patience. By following proper steps and precautions, the stability and machining accuracy of the machine tool can be ensured.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

The structural features and advantages of five-axis gantry CNC machining center

The structural features and advantages of five-axis gantry CNC machining center

Great Light CNC Machining Services 20/10/2024 22:57
Five-axis gantry CNC machining center is one of the important equipment in the field of modern mechanical processing and has the characteristics of high precision, high efficiency and high flexibility. Compared with traditional three-axis machining centers, five-axis machining centers can process parts from multiple angles and are suitable for manufacturing parts with complex curved surfaces and multi-dimensional shapes. It plays an important role particularly in the aerospace, automobile manufacturing, mold processing and medical equipment sectors.

  Gantry five-axis CNC machining centerThe basic structure of:
1. Machine tool bed: The machine tool bed is the basic structure of the entire machining center. It is usually made of cast iron or steel and has good rigidity and stability to withstand the cutting forces and vibrations generated during the machining process.
2. Gantry Structure: The gantry structure is the distinctive feature of this machining center. The top beam is supported by two columns and the spindle components are suspended from the beam. This design allows the equipment to process in a larger space and is suitable for processing large parts.
3. Spindle system: The spindle is the main component of the five-axis machining center. It is usually designed with high power and speed to achieve efficient cutting. Spindle tilt and rotation functions make machining more flexible.
4. Workbench: The workbench is used to fix the workpieces. Its surface is usually designed with notches or clamps to facilitate the attachment of various parts.
5. Servo motor system: Through high-precision servo motors and drive systems, the movement accuracy and response speed of each axis are ensured, and an efficient cutting process is achieved.
6. CNC system: Equipped with advanced CNC system, it can realize complex processing path planning and facilitate user programming operations.
Benefits :
1. High precision: The five-axis CNC machining center can carry out simultaneous processing from multiple angles and directions, greatly reducing the number of workpiece clamping times and avoiding processing errors caused by re-clamping, improving thus the precision of the treatment.
2. Complex shape processing: Five-axis machining can easily handle the processing of complex curved surfaces, molds and high-precision artwork, expanding the application scope of machine manufacturing.
3. Improve efficiency: Because it can complete the processing of multiple surfaces in one clamping, the five-axis CNC machining center greatly reduces processing time and improves production efficiency.
4. Reduce labor costs: Through the automated CNC system, the need for manual intervention is significantly reduced, human errors during the operating process are reduced, and the overall production efficiency is improved.
5. Optimize tool path: Advanced CNC technology optimizes tool path planning, improves cutting efficiency and surface quality, and extends tool life.
Application areas of five-axis gantry CNC machining center:
1. Aerospace: In aerospace parts manufacturing, five-axis machining can efficiently process high-precision complex parts, such as engine parts, wing support structures, etc.
2. Automobile manufacturing: Used for manufacturing automobile parts, such as cylinder blocks, cylinder heads, etc., five-axis machining can realize mass production efficiently and precisely.
3. Mold processing: Five-axis machining centers are particularly suitable for the mold manufacturing industry. They can effectively process molds of various complex shapes and improve the quality and service life of molds.
4. Medical devices: Used to manufacture medical products such as artificial joints and dental devices, five-axis machining can provide high-precision and meticulous processing to meet the strict requirements of the medical industry.
5. Ship manufacturing: In the field of ship parts processing, five-axis CNC machining can effectively complete the manufacturing of large and complex components.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Gantry shear for scrap metal

The development trend of scrap metal gantry shear

Great Light CNC Machining Services 20/10/2024 22:41
As a key equipment in the metal processing industry, scrap gantry shears have shown significant development trends in technology, application and market demand in recent years. With the growing awareness of environmental protection and emphasis on resource reuse,Gantry shear for scrap metalIt plays an increasingly important role in scrap metal recycling. In the future, its development trends are mainly reflected in the following aspects:
1. Technological innovation and upgrade
Intelligent control: Future shears will pay more attention to the application of intelligent control technology. By introducing advanced sensors, control systems and artificial intelligence algorithms, precise control and automated operation of the shearing process is achieved. This not only improves production efficiency, but also reduces errors and waste caused by human factors.
High-efficiency blade material: As the main component of the shear, the choice of blade material directly affects the shearing effect and service life. In the future, with the continuous development of new material technologies, blade materials with high efficiency and high wear resistance will be more widely used, thereby improving shearing efficiency and reducing maintenance costs.
2. Green environmental protection and sustainable development
Energy saving and emission reduction: Under the background of increasingly strict environmental protection policies, more emphasis will be placed on the design of energy saving and emission reduction. By optimizing the hydraulic system, reducing energy consumption and reducing noise, green production is achieved and meets the requirements of sustainable development.
Recycling: Plays an important role in scrap metal recycling. In the future, with the popularization of the concept of circular economy, these equipment will play a more important role in promoting the efficient use and recycling of scrap metal resources.
3. Market demand and customized services
Growing market demand: With the acceleration of industrialization and urbanization, the production of scrap metal continues to increase. This provides a large market space for gantry shears. Market demand for this equipment is expected to continue to grow in the coming years.
Customized Services: Different customers have different needs for scrap metal gantry shears, such as shearing capacity, work efficiency, ease of operation, etc. Therefore, in the future, manufacturers will pay more attention to providing personalized services and personalized design and production according to customer needs to meet various market needs.
4. International development and cooperation
Expand the international market: With the increasing development of globalization, the international market will gradually expand. Domestic manufacturers should actively expand their foreign markets and improve the international competitiveness of their products.
Strengthen international cooperation: Through cooperation and exchanges with international peers, we can introduce advanced technology and management experience and improve our own R&D capabilities and product quality. At the same time, we can also explore new markets and application areas together.
To summarize, the future development trend of scrap metal gantry shears will be reflected in technological innovation and upgrade, green environmental protection and sustainable development, market demand and customized services, as well as international development and cooperation. These trends will promote the continued development of the shearing machine industry and further contribute to the progress of the metal processing industry.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

What are the key steps to maintain and calibrate a lightweight energy chain?

What are the key steps to maintain and calibrate a lightweight energy chain?

Great Light CNC Machining Services 20/10/2024 22:25
Maintenance and calibration of lightweight energy chains is an important step to ensure the normal operation of mechanical equipment and extend the life of the energy chain. The following is maintenance and calibrationLightweight energy chainThe key steps are detailed as follows:
1. Care and maintenance
1. Daily cleaning:
-Regular cleaning: Before each maintenance shutdown, all internal components and surface sheaths of the energy chain should be cleaned to prevent the accumulation of debris and dust that can lead to improper movement or accelerated wear. For hard to clean areas, you can use a rubber swab, cotton swab or cleaning brush.
-Keep it dry: Be sure to keep the drag chain dry. If the drag chain becomes wet, use drying equipment to dry it in time to avoid corrosion.
2. Inspection and tightening:
-Wear inspection: Regularly check whether the links, links, heads and other parts of the energy chain are worn, loose, tired, cracked, etc., and replace damaged parts timely.
– Inspection of fasteners: Check whether the connecting parts and bolts forming the link are tightened reliably to avoid unstable operation or damage to the energy chain due to backlash.
3. Lubrication and maintenance:
-Appropriate amount of lubrication: An appropriate amount of lubricant can ensure uniform distribution of friction and wear in different parts of the energy chain, while maintaining precision and stability. The lubrication method can be manual oil draining or centrally lubricated automatic oil draining, which can be selected according to the actual situation and needs of the cable carrier.
-Lubrication after cleaning: After each cleaning of the energy chain, an appropriate amount of lubricant should be applied in time to ensure the lubricating effect of the moving parts.
4. Operations monitoring:
-Monitoring speed: Ensure that the operating speed of the energy chain is within the specified range and should not exceed the speed specified by the design to avoid accelerated wear.
-Monitoring path: Ensure that the movement path of the drag chain is not obstructed and prevent dust or impurities from entering inside the drag chain or the movement path.
2. Calibration and adjustment
1. Orbit calibration:
-Flatness inspection: Regularly check whether the drag chain installation track is flat and free of burrs. If there are any irregularities or burrs, they should be repaired in time.
-Adjust the tightness: Adjust the tightness of the support chain to ensure that it does not shake during operation to ensure the stability and precision of operation.
2. Layout and structure inspection:
-No modification: It is prohibited to modify the structure or configuration of the energy chain in any way to ensure the rationality of its design and the safety of its operation.
-Backup configuration: For complex e-chain systems, it is recommended to backup its configuration information so that it can be restored or adjusted when needed.
3. Performance testing:
-Functional tests: Perform functional tests of the energy chain regularly to check whether it can operate normally and meet the usage requirements.
-Fault diagnosis: If a cable carrier fails, professional detection methods should be used for analysis and diagnosis, and the fault should be eliminated in a timely manner.
Key steps in the maintenance and calibration of lightweight energy chains include daily cleaning, inspection and tightening, lubrication and maintenance, operation monitoring, track calibration, setup and structural inspection, performance testing, etc. Through the implementation of these key steps, the stable operation of the energy chain can be ensured and its service life can be extended.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Discover the innovation and application depth of heavy-duty ball screw pairs

Discover the innovation and application depth of heavy-duty ball screw pairs

Great Light CNC Machining Services 20/10/2024 21:37
In the vast starry sky of modern industrial manufacturing, the pair of sturdy ball screws are like a shining star. With its extraordinary load capacity and stable performance, it illuminates every corner of the field of high precision and high load transmission. . This is not only a technological innovation, but also a courageous challenge and a profound overhaul of the manufacturing industry. This article will take you into this world, explore its breadth and depth in industrial applications, and feel how it moves the wheel of industrial progress with its silent power.
1. Heavy players in the industrial scene
  The heavy duty ball screw pair is designed to meet the needs of large loads and high precision transmission under working conditions. On the basis of traditional ball screws, through optimized structural design, selection of high-strength materials and precision manufacturing processes, the bearing capacity has been significantly improved.Like a warrior wearing armor, it stands among various heavy machine tools, automation equipment and even aerospace equipment. It takes on the important task of power transmission and precise positioning, ensuring that every bit of power can be precisely transformed into productivity.
2. A brilliant chapter of technological innovation
With the rapid development of technology, its design and production are also constantly iteratively improved. On the one hand, advances in materials science have enabled the application of new alloy materials. These materials not only have high strength and good wear resistance, but also can effectively resist the impact of harsh environments on equipment performance; Heat treatment technology and processes ensure that the geometric accuracy and surface quality of each component further improves the smoothness and precision of the transmission. In addition, the integration of intelligent and modular design concepts makes its installation and debugging more convenient, greatly reducing maintenance costs and bringing greater convenience to users’ practical applications.
3. Considerable expansion of areas of application
The performance of heavy-duty ball screw sets makes them shine in many industrial fields. In the field of CNC machine tools, it is a key part to achieve high-speed and high-precision machining, providing strong support for the production of precision parts in the field of heavy machinery, such as cranes, excavators, etc. with its strong load capacity and stability, ensuring the reliable operation of equipment under complex working conditions; and in high-tech fields such as aerospace and aerospace, it plays an important role, providing important guarantee for precision control and high reliability. transmission.
4. Future outlook
In the future, with the rise of emerging technologies such as intelligent manufacturing and industrial Internet, the development space will expand. On the one hand, the application of intelligent technology will further improve its level of automation and intelligence, realize remote monitoring, fault diagnosis and predictive maintenance, and improve the overall operational efficiency of equipment, on the other hand, the concept of environmental protection and energy; the economy will also be deeply rooted in people’s hearts. It will pay more attention to material recycling and improving energy efficiency in the design and manufacturing process, thereby promoting the development of green manufacturing.
In short, heavy-duty ball screw sets are constantly pushing the manufacturing industry to the next level with their performance and wide range of applications. In the days to come, we have reason to believe that with the continuous progress of technology and continuous deepening of applications, we will write a brighter chapter and make greater contributions to industrial development.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

What are the maintenance methods of Youjia CNC lathes?

What are the maintenance methods of Youjia CNC lathes?

Great Light CNC Machining Services 20/10/2024 21:05
As a high-precision and high-efficiency industrial equipment, the maintenance methods of Youjia CNC lathes are crucial to ensure equipment performance and extend service life. The following isYoujia CNC latheDetailed summary of maintenance methods:
1. Daily inspection and maintenance
1. Appearance and structural inspection:
-Check the appearance of the lathe regularly to ensure that there is no damage, no rust, and that it is kept clean and tidy.
– Check whether the fasteners are loose, such as screws, nuts, etc., to ensure that the equipment is stable.
2. Management of cutting fluids:
– Check the fluid level in the cutting fluid tank, add cutting fluid in time, and keep the cutting fluid clean and free from impurities.
-Replace the cutting fluid regularly to prevent deterioration from affecting the processing quality.
3. Maintenance of the lubrication system:
-Check the oil level in the lubricating oil tank and add lubricating oil in time to ensure the normal operation of the lubrication system.
-Replace the lubricating oil regularly and clean the lubrication system to avoid oil contamination or blockage.
4. Inspection of protective devices:
– Remove chips and dirt from the guard in the cutting area and keep the guard clean and free of obstructions.
– Check if the protection device is intact. If it is damaged, repair or replace it in time.
2. Professional maintenance and upkeep
1. Electrical system inspection:
– Check if the electrical circuit is intact and free from aging or damage.
-Regularly clean dust and debris in the electrical cabinet to keep the electrical system clean and dry.
– Check whether the cooling fans of the power cabinet and CNC cabinet are working properly to ensure the heat dissipation effect.
2.Maintenance of mechanical components:
-Check key components such as guide rails and ball screws regularly for wear, and replace seriously worn components in a timely manner.
– Check the operation of the main spindle box, gearbox and other transmission components to ensure that there are no abnormal noises and vibrations.
-Clean dirt and oil chips from transmission components regularly to keep them clean.
3. CNC system maintenance:
-Strictly adhere to the operating procedures and daily maintenance system of the CNC system.
– Regularly check whether the display screen and control panel of the CNC system are working properly, and pay attention to the display of alarm displays and indicator lights.
-Replace the memory battery regularly to ensure that the system can work normally and avoid data loss.
4. Maintenance of the tool changing system:
– Rotate the tool holder and observe whether the turret tool holder is accurately positioned to ensure that the tool changing system is stable and reliable.
-Check the number and condition of tools in the tool store regularly, and replenish and replace tools timely.

3. Regular full inspection and maintenance
1. Overall machine performance evaluation:
-Perform an assessment of the overall performance of lathes regularly, including inspections on processing accuracy, stability, reliability, etc.
-Develop targeted maintenance plans based on assessment results, and rectify and optimize existing issues.
2. Preventive maintenance:
-By analyzing lathe operation data, predict possible failures and carry out preventive maintenance in advance.
-Regular replacement of wearing parts to reduce downtime caused by component damage.
3. Training and education:
– Strengthen the training and education of operators to raise their awareness of the importance of tower maintenance.
– Make operators proficient in tower maintenance methods and troubleshooting skills, and improve equipment efficiency and service life.
Youjia CNC lathe maintenance methods involve daily inspection and maintenance, professional maintenance and maintenance, and regular comprehensive inspection and maintenance. Through comprehensive and meticulous maintenance work, you can ensure that the lathe is always in good working order and at a good level of performance.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

CNC swirl milling machine

How to evaluate the environmental performance of CNC cyclone milling machines

Great Light CNC Machining Services 20/10/2024 20:17
  CNC swirl milling machineAs an advanced metal cutting equipment, its environmental performance can be considered from several dimensions, including energy consumption, waste management, noise pollution, harmful substance emissions and environmental impact of the cycle. life of the equipment itself. Here is a specific analysis and evaluation of its environmental performance:
  
  1. Energy efficiency
1. Energy-efficient spindle and servo system: Using advanced servo motor technology and high-efficiency spindle can significantly reduce energy consumption while ensuring processing speed. Compared with traditional machine tools, tornado CNC milling machines tend to have better energy conversion efficiency, thereby reducing unnecessary energy waste.
2. Intelligent sleep mode and energy saving: Many modern CNC machine tools are equipped with intelligent control systems that can automatically enter a low power consumption state during non-working hours, or dynamically adjust the settings of operation according to actual processing needs to save more energy. .
  
  2. Reduce waste and waste
1. High material utilization: Cyclonic milling process reduces the contact area and cutting force between tool and workpiece through high-speed cutting and simultaneous operation of multiple blades, thereby reducing the hardened layer and residual stresses on the surface of the part and improving the material. use. Material losses due to over-processing are reduced.
2. Extend tool life: Compared with other cutting methods, the multi-blade design of the cyclone cutter disperses the total cutting force and reduces the load on each cutting edge. This not only improves the effectiveness of the treatment, but also prolongs the use of. tool life, indirectly reducing the number and frequency of scrapped tools.

  
  3. Control noise and vibration
Vibration and noise reduction design: The CNC cyclone milling machine adopts a series of sound insulation and noise reduction measures such as shock absorption pads and sound insulation covers, as well as a spindle and a precisely balanced transmission system, which effectively suppresses noise and vibration generated during high-speed operation and improves Improve the working environment and comply with occupational health and environmental protection regulations.
  
  4. Reduce emissions of harmful substances
1. Closed cooling system: equipped with a closed circulation coolant supply system, which can not only effectively discharge the heat generated during the cutting process, but also prevent the coolant from leaking to the outdoor environment, thereby reducing the risk of water pollution.
2. Exhaust Gas Treatment Facilities: For the fumes and aerosols that may be generated during the cutting process, some CNC machine tools are also equipped with filtering devices capable of capturing and purifying harmful particles in the air and reduce VOC (volatile organic) emissions. compounds) and other toxic gases.
  
  5. Environmental life cycle management
1. Recyclable materials and design: In the design stage of the machine tool, subsequent disassembly and recycling are considered, and more recyclable materials are used to simplify the disassembly process and facilitate recycling and reuse .
2. Maintenance and upgrade support: provide long-term after-sales support, including parts procurement, upgrade and transformation services, extending the actual life of the equipment and reducing resource consumption and increased waste caused by frequent replacement of new equipment.
3. Eco-friendly packaging: Use degradable or reusable packaging materials for transportation and storage, reducing the use of disposable plastics and other hard-to-degrade items.
  
In summary, the tornado CNC milling machine embodies the pursuit of environmental friendliness in the entire process of design, production and use, through technological innovation and management practices it reduces the negative impact on the natural environment and demonstrates green development and development. of the manufacturing industry. Positive trends in sustainable production.
  
However, to achieve a higher level of environmental protection goals, it also requires the joint efforts of upstream and downstream enterprises in the industry, such as developing more environmentally friendly cutting fluid formulas. environment, promoting green supply chain management systems, etc., to jointly build a clean and low-carbon industrial ecosystem.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Double head profile machining center requires regular maintenance

Great Light CNC Machining Services 20/10/2024 20:01
  Double head profile machining centerIt is an efficient and precise metal processing equipment which is widely used in the processing of aluminum alloy profiles, such as the production of doors, windows, curtain walls, railways, automobiles and others industries. It controls machine tools through CNC systems for processing. During the machining process, the workpiece is clamped between two worktables, and the CNC system controls the movement path of the tool to perform double-sided processing. The tool position, speed, feed and other parameters are precisely controlled by the CNC system to ensure processing accuracy and efficiency.
To ensureDouble head profile machining centerFor normal operation and extended life, regular maintenance is essential. Here are some specific maintenance tips:
1. Daily maintenance
Cleaning equipment: After each day’s work, clean the dust and iron filings on the machine tool, especially the operation panel, spindle taper hole, tool carriage, tool head and taper shank, tool arm and tool magazine. Keeping equipment clean prevents dust and dirt from causing wear and corrosion of mechanical components.
Check lubrication: Make sure the lubricant level is normal and add lubricant in time. Proper lubrication can reduce friction between mechanical parts and extend the life of equipment.
Cooling system: Check whether the coolant in the refrigerant tank is sufficient and refill it in time. Proper operation of the cooling system can effectively reduce the heat generated by the equipment during high-intensity work and prevent equipment damage caused by overheating.
Pneumatic system: Check whether the air pressure is normal, release the pressure adjustment button, and ensure that the gas working pressure is within a reasonable range. The stable operation of the pneumatic system is crucial for the normal operation of the equipment.
Electrical system: Check whether all abnormal indicator lights and warning lights are normal and make sure the electrical system is faulty. The stability of the electrical system forms the basis for the normal operation of the equipment.
2. Weekly maintenance
Cleaning the filter: Clean the air filter of the heat exchanger as well as the filters of the cooling pump and the lubricating oil pump. Cleaning the filter can ensure the cooling and lubrication system functions properly and prevent equipment failure due to blockage.
Tool Inspection: Check tool bolts for looseness and tool handle for cleanliness. Tool stability and cleanliness directly affect processing accuracy and efficiency.
Checking the mechanical origin: Check whether the three-axis mechanical origin is offset. Precise positioning of the mechanical origin is an important prerequisite to ensure processing accuracy.
Tool magazine inspection: Check whether the tool magazine arm changing action or tool magazine cutting disc rotation is smooth. The smooth operation of the tool magazine can increase the tool changing speed and improve processing efficiency.
3. Monthly maintenance
Guide rail lubrication: Check the lubrication status of the X, Y and Z axis guide rails to ensure that the guide rail surfaces are well lubricated. Proper lubrication of guide rails can reduce friction and improve the operating precision of the equipment.
Limit switch inspection: Check and clean the limit switches and their bumpers. Normal operation of the limit switch can prevent equipment from overtraveling and protect mechanical components.
Cutting reel oil cup inspection: Check whether the oil in the cutting reel oil cup is sufficient. If it is insufficient, add it in time. The normal operation of the cutting cylinder can ensure the smooth replacement of cutting tools.
4. Maintenance every six months
Clean the splinter protection cover: Remove the three-axis splinter protection cover and clean the three-axis high pressure pipe and steel ball screw. Cleaning the chip guard can prevent chips from accumulating and affecting the operation of the equipment.
Servo motor inspection: Check whether the servo motors and heads of each axis are working normally and whether there are any abnormal noises. The normal operation of the servo motor is the key to ensuring the precision and stability of the equipment.
Oil Cooler Inspection: Check the oil in the oil cooler and replace if necessary. Normal operation of the oil cooler can effectively reduce the temperature of the equipment and extend the service life of the equipment.
Cleaning the electrical box: clean the dust in the electrical box and make sure all contacts, connectors, sockets and switches are normal. Cleaning the electrical box can prevent electrical failures and ensure the normal operation of the equipment.
5. Annual maintenance
Checking function keys: Check whether all function keys are flexible and normal. Normal operation of function keys can ensure convenient and precise operation.
Cleaning the drilling water storage tank: Clean the drilling water storage tank and replace the cutting oil. Cleaning the water tank can prevent the accumulation of chips and affect the treatment effect.
Checking Vertical Accuracy: Check the vertical accuracy of each axis to determine if adjustment is necessary. Guaranteed vertical precision is the basis of high-precision machining.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Steel energy chains: the tough keeper of the pulse of industry

Great Light CNC Machining Services 20/10/2024 19:45
In modern industrial scenes, precision robotic arms move flexibly across the assembly line and huge CNC machine tools tirelessly sculpt metal and plastic. Behind all these efficient operations is often an unknown but crucial guardian: the steel drag chain. It is not as eye-catching as a robot, nor as sharp as a high-precision tool, but with its toughness and endurance, it provides protection and support for industrial equipment and has become part of the industrial pulse.

Imagine that in a busy automated production line, bundles of wiring such as cables, oil lines, and air lines are distributed throughout like blood vessels, providing power and information to the machines. However, as the robotic arm returns the favor, these fragile “blood vessels” are extremely vulnerable to wear, entanglement, and even breakage. It is at this critical moment that the steel energy chain presents itself. With its steel body, it provides a strong protective barrier for these sensitive cable bundles. Whether it is a robot moving at high speed or a frequently telescoping robotic arm, its durability and flexibility ensures the safety of the cable harness under complex and changing working conditions.

The reason why steel energy chain is able to accomplish such an important task is inseparable from its ingenious structural design. It is made up of several closely connected chain links. Each chain link is designed with scientific wiring grooves to accommodate and protect various wiring harnesses in an orderly manner. This modular design not only facilitates installation and maintenance, but also can be flexibly adjusted under different working conditions to meet various usage needs. Additionally, its outer material is often made of high-strength steel, specially treated to improve its resistance to corrosion and wear to ensure long-term stable operation in harsh environments.

While striving for efficiency and precision, she also interprets industrial aesthetics in her own way. Although it does not have a magnificent appearance, its cold steel texture, precise manufacturing process and simple but practical design all reveal a beauty of calm and strength. When integrated with complex mechanical equipment, it is not only not intrusive, but becomes a landscape on the entire production line, a silent witness to the progress and development of industrial civilization.

With the continuous development of science and technology and the progress of industrial automation, it is also constantly innovating and upgrading. The application of new materials, the integration of intelligent design concepts, and the practice of environmental protection and energy saving concepts have opened up broad space for its future development. In the future, we should see the emergence of lighter, high-strength, corrosion-resistant steel energy chains. They will better adapt to complex and changing working conditions and provide more comprehensive, effective and reliable protection and support. industrial equipment.

In short, steel energy chains, as rigorous guardians in the industrial field, have won wide recognition and praise for their performance and stable quality. In the future industrial development, it will continue to play an important role, working hand in hand with various types of machinery and equipment to jointly write a new chapter of industrial civilization.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Shape grinder electric control system design: precise control, efficient grinding

Shape grinder electric control system design: precise control, efficient grinding

Great Light CNC Machining Services 20/10/2024 19:29
In the field of modern machine manufacturing, shape grinding machines are high-precision processing equipment and the design of their electrical control systems is crucial. An excellent electrical control system can not only guarantee the stable operation of the crusher, but also improve the processing precision and production efficiency. This article will briefly discuss the design of the electrical control system of the forming mill.
  1. System Overview
The electrical control system of the forming grinder is mainly composed of power supply, motor, control circuit and protection device. The system enables coordinated operation of key components such as grinding wheels, hydraulic pumps, vacuum motors and grinding head lifting by precisely controlling the start and stop, speed and direction of each motor . At the same time, the system is also equipped with a variety of protection devices to ensure that the equipment can stop quickly under abnormal circumstances and ensure the safety of operators and equipment.

  2. Key Design Points
1. Motor control: Forming grinders are generally equipped with multiple motors, including grinding wheel motors, hydraulic pump motors, vacuum motors and grinding head lifting motors. When designing, it is necessary to select the appropriate control method (such as stepless control, linkage control, etc.) according to the load characteristics and operating requirements of each motor, and implement reasonable protection against overload and short circuit.
2. Position protection: The grinding head lifting motor should ensure accurate parking during the control process to avoid collision with the workpiece or other components. Therefore, position protection links should be added to the design, such as installing a travel switch, etc. to ensure that the power supply is automatically cut off at the extreme position to avoid damage to the equipment.
3. Electric interlock: To ensure safety, the system must be equipped with electric interlock links. For example, an interlock control should be implemented between the grinding wheel motor and the electromagnetic chuck to ensure that the grinding wheel motor can only start when the electromagnetic chuck is energized and firmly sucks the workpiece. At the same time, demagnetization control should also be implemented to quickly demagnetize and remove the part after processing is completed.
4. Lighting and display: In order to enable the operator to observe the working status of the equipment, the system should be equipped with lighting equipment and indicator lights. Lighting equipment should cover the main working area of ​​the equipment to ensure sufficient light; Indicator lights are used to display the working status of each motor, electromagnetic chuck and protective device to facilitate troubleshooting and daily maintenance.
  3. Summary
The design of the electric control system of the casting grinder is a complex and detailed work, involving many aspects such as motor control, position protection, electric interlock and lighting display. Through scientific and reasonable design and careful debugging, the crusher can be assured to operate in an efficient, stable and safe state, providing strong support for the modern machinery manufacturing industry.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Laser cutting machines can be used to cut key parts such as car chassis and exhaust pipes.

Great Light CNC Machining Services 20/10/2024 19:25
In the modern manufacturing industry, with the continuous progress and innovation of science and technology, various advanced equipment and technologies continue to emerge. Among them, laser cutting machine, as an efficient and precise processing equipment, has become an important tool for many enterprises to pursue production efficiency and product quality.

A laser cutting machine is a device that uses laser technology to cut materials. It achieves the cutting objective by focusing a high energy density laser beam on the material surface to instantly melt or vaporize the material. Compared with traditional cutting methods, laser cutting machines have the advantages of fast cutting speed and high precision, which can greatly improve production efficiency and reduce production costs.

In practical applications, it is widely used in automobile, aviation, construction, household appliances and other fields. In automobile manufacturing, it can be used to cut key parts such as automobile chassis and exhaust pipes to improve product quality and production efficiency. In the aeronautical field, it is used to cut high precision and high complexity products such as aircraft structural parts and engine parts. In addition, it also plays an important role in construction and home appliance fields, capable of processing hardware products of different shapes and specifications.

As technology advances, its performance also constantly improves. It adopts more advanced control system and transmission system to achieve more precise control and more efficient cutting operations. At the same time, it also has intelligent functions that can automatically identify material types, adjust cutting parameters, monitor cutting status, etc., further improving the intelligence level and working efficiency of the equipment.

However, although laser cutting machines play an important role in modern manufacturing, there are still some issues that need to be addressed. On the one hand, its manufacturing cost is high, and the cost needs to be further reduced to expand the scope of application; on the other hand, it is easily affected by environmental factors during use, such as changes temperature, humidity, etc. , and the reliability and stability of equipment must be strengthened.

For the future, its application prospects are very broad. With the rapid development and upgrading of the manufacturing industry, it will be applied in more fields. At the same time, through continuous innovation and progress in technology, its performance will continue to improve, providing users with more efficient and precise processing solutions. We have reason to believe that in the future development, it will continue to be a precision processing tool in modern manufacturing and make greater contributions to the progress and development of human society.

In short, laser cutting machines, as an important equipment in modern manufacturing, play an important role in improving production efficiency and ensuring product quality. We must fully understand its importance and actively promote and apply laser cutting machine technology to help create a better and more efficient future.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Technologies and processes to improve the machining precision of vertical machining centers

Great Light CNC Machining Services 20/10/2024 19:21
As the basic equipment of modern manufacturing industry, the processing precision of vertical machining center directly affects product quality and production efficiency. In order to improve the processing precision of vertical machining centers, several key technologies and methods are introduced below.
1. Error synthesis method
The error synthesis method is to accurately measure the original errors of each axis of the machine tool, and carry out comprehensive analysis and processing to eliminate or reduce the impact of these errors on machining precision. Laser interferometers have become the primary inspection tool due to their high accuracy and flexibility. Through this method, geometric errors, transmission errors, etc. are eliminated. of the machine tool can be systematically identified and corrected, thus significantly improving machining precision.
2. Error compensation method
The error compensation method is to compensate for the original error inherent in the machine tool system by artificially creating an error. For example, by reducing the gap of the machine tool, increasing the rigidity of the machine tool, and using preload, the effect of the gap can be eliminated and the stability of the processing system improved. In addition, the rational selection of tool materials, increasing the cutting angle and leading angle of the tool, and optimizing the heat treatment process of the workpiece can also effectively reduce cutting force and deformation and improve machining precision.
3. Directly reduce the original error method
The direct original error reduction method is to take direct measures to eliminate or reduce the main original error factors that affect machining accuracy. For example, regular inspection and maintenance of the machine tool transmission system, timely replacement of worn parts, ensure the geometric accuracy and precision of the machine tool transmission. In addition, optimizing processing paths and programs to reduce unnecessary cutting movements can also effectively reduce error accumulation.
4. Error transfer method
The error transfer method is to transfer the overall errors caused by the collective errors of the process system, force deformation and thermal deformation to links that have less impact on machining accuracy. For example, when machining holes, the device can be used to ensure the coaxiality of the workpiece instead of relying on the rotational accuracy of the machine tool spindle. In this way, the original error of the machine tool spindle will not directly affect the machining accuracy.
5. Error grouping method
The error grouping method uses the regularity of process blank errors to reduce the impact of errors on processing accuracy by reasonably grouping and arranging the processing sequence. For example, grouping parts with similar stock errors into a group for processing can reduce processing errors caused by changes in stock errors.
In summary, improving the processing precision of vertical machining centers requires the comprehensive use of a variety of technologies and methods. Through error synthesis method, error compensation method, original error direct reduction method, error transfer method and error grouping method, the processing accuracy and The stability of machine tools can be significantly improved, thereby providing strong support for the development of modern manufacturing industry.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Guardians and innovations in the industrial field of retractable steel protective screens

Guardians and innovations in the industrial field of retractable steel protective screens

Great Light CNC Machining Services 20/10/2024 19:18
On the vast stage of modern industry, mechanical equipment promotes continuous advancements in productivity through its efficient and precise operation. However, in the search for speed and efficiency, security, equipment protection and operator safety have become important and essential links. Among many protective equipment, the retractable steel sheet protective cover has become a strong barrier in the industrial field with its design concept and practical performance, silently protecting the smooth operation of the production line as well as the safety and health of personnel.
1. Flexible adaptability
  The biggest highlight of the telescopic protective cover made of sheet steel is its “telescopic” function. This design allows the protective cover to easily adapt to mechanical equipment of different sizes, shapes and ranges of movement, whether it is linear movement, arc movement or multi linkage. -Complex axles, it can achieve tight fit and seamless coverage.This high degree of adaptability not only improves the protection effect, but also greatly reduces the transformation costs incurred by equipment replacement, allowing enterprises to remain competitive in a rapidly changing market environment.
2. A sturdy and durable goalkeeper
Using high-quality steel plate as the main material, it has extraordinary durability. The high strength characteristics of the steel plate ensure the stability and reliability of the protective cover in harsh industrial environments. Whether faced with flying debris, corrosive gases or high temperature cooking, it can adhere to its position and provide strong “armor”. At the same time, the steel plate with specially treated surface also has excellent anti-rust and wear-resistant properties, which effectively extends the service life of the protective cover, reduces the frequency of maintenance and reduces the business operating costs.
3. See the real details in detail
In addition to the basic protective functions, much effort has been devoted to the detailed design. In order to reduce interference with the operation of the equipment, the protective cover is generally equipped with a professional guide system and a buffer device to ensure that the protective cover is smooth and smooth during the expansion process and contraction, and to avoid noise and damage caused. by friction or collision. In addition, some protective covers are also integrated with transparent observation windows, allowing operators to visually monitor the working status of the equipment without opening the protective cover, thereby improving work efficiency and safety .
4. Future trends in intelligent integration
With the advent of the Industry 4.0 era, we are also moving towards intelligence. By seamlessly connecting with smart devices such as sensors and control systems, the protective cover can monitor the operating status, ambient temperature, vibration and other information of the equipment in real time, issue timely alarms when abnormal conditions occur, and even automatically. trigger a shutdown protection mechanism so that security risks are nipped in the bud. This intelligent integration not only improves the protection performance of the protective cover, but also provides strong support for the intelligent and automated upgrade of industrial production.
Conclusion
To sum up, the retractable steel sheet protective cover has become a safety guardian and an innovation in the industrial field with its flexible adaptability, sturdy and durable quality, refined detailed design and intelligent development trend. It not only provides reliable guarantee for the stable operation of mechanical equipment, but also injects new vitality into safe production, reducing costs and improving enterprise efficiency. In the future industrial development, we have reason to believe that we will continue to contribute to the construction of a safer, more efficient and more intelligent industrial production environment through its performance and continuous innovation.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

Technical advantages and application prospects of Japanese machining centers

Technical advantages and application prospects of Japanese machining centers

Great Light CNC Machining Services 20/10/2024 19:11
Japan is famous for its advanced manufacturing technology and strict quality standards, especially in the design and manufacturing of machining centers, demonstrating outstanding innovation capabilities and precision technology. As a key piece of equipment in modern manufacturing, machining centers are widely used in aerospace, automotive, electronics and other industries. This article will explore the technical advantages of Japanese machining centers and their future application prospects.
  1. Technical advantages
1. High precision: Japanese machining centers are known for their high machining precision and can meet micron-level machining requirements. This advantage comes from its advanced manufacturing technology and strict quality control system. Japanese manufacturers have adopted high standards in equipment design, material selection and processing technology, enabling machining centers to excel in manufacturing high-precision parts.
2. Stability and reliability: It also has significant advantages in terms of stability and reliability. By adopting high-rigidity machine tool structure and precise transmission system, vibration and thermal deformation during processing can be effectively reduced, ensuring long-term operation consistency. This stability is the basis for high volume production and high quality standards.
3. Advanced CNC technology: Japan has an advanced position in the development of CNC technology, and many machining centers are equipped with powerful CNC systems. These systems can not only implement complex processing paths, but also have intelligent functions capable of monitoring processing status in real time and making automatic adjustments. This intelligent processing process greatly improves production efficiency and processing precision.
  2. Broad application prospects
1. Aerospace Industry: With continuous advancements in aerospace technology, the demand for high-precision parts is increasing. Japanese machining centers have become essential equipment in aerospace manufacturing due to their exceptional processing capabilities. It is capable of processing complex aerospace parts, ensuring high safety and reliability.
2. Automotive manufacturing: The demand for machining centers in the automotive industry continues to grow. Japanese machining centers meet the stringent requirements of automotive manufacturing parts with their high efficiency and high quality. In addition, with the development of electric vehicles and autonomous driving technology, the design of new components poses greater challenges to processing technology, which provides broad space for innovation in machining centers.
3. Electronics industry: In the manufacturing of electronic products, precision processing is the key to ensuring product performance. It can process small and complex electronic components efficiently and precisely, helping the electronics industry improve product quality and production efficiency. With the rise of new technologies such as 5G and the Internet of Things, the demand for high-performance processing equipment in the electronics industry will continue to increase.

  3. Summary
Japanese machining centers have demonstrated strong competitiveness in many industries thanks to their high precision, stability and advanced CNC technology. With the continuous development of technology and the changing market demand, Japanese machining centers have broad application prospects in the aerospace, automobile and electronics industries. In the future, as the level of intelligent manufacturing and automation increases, it will continue to promote the development of global processing equipment and provide strong support for manufacturing innovation in various industries.

Daguang focuses on providing solutions such as precision CNC machining services (3-axis, 4-axis, 5-axis machining), CNC milling, and rapid prototyping services.

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