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Product Introduction
The CHY6156 CNC Lathe Machine Turning and Milling Center is purpose - built to handle semi - precision turning tasks as well as the machining of precision axle and disk components. This three - axis three - linkage CNC Turning Center is designed for milling outer circles, end faces, and keyways, along with drilling and tapping operations.
Featuring an advanced numerical control system, The CHY6156 CNC Lathe Machine Turning and Milling Center is capable of executing turning operations like straight lines, oblique lines, and arcs (including cylindrical, rotary, spherical, and conical surfaces). The CHY6156 Lathe Machine Turning and Milling Center can also cut straight and conical metric and inch threads. What's more, The CHY6156 CNC Lathe Machine Turning and Milling Center has the functionality to mill outer circles, end faces, and keyways, drill both radial and axial holes, and carry out thread processing.
The CHY6156 Lathe Machine Turning and Milling Center is the perfect choice for machining a wide variety of disc, sleeve, and shaft parts that have complex shapes and demand high precision.
Product Advantage
1. Constructed with high - strength iron, the one - piece bed ensures the lathe's rigidity and precision, resulting in a long - lasting lathe
The CHY6156 CNC Lathe Machine Turning and Milling Center features an integrated lathe casting made through the resin - sand process. Its monolithic bed is constructed from high - grade, high - strength iron. This material selection is of great significance since it efficiently ensures the bed's rigidity and precision. Thanks to the stable and robust structure provided by the high - strength iron, The CHY6156 CNC Lathe Machine Turning and Milling Center can uphold its form and functionality across diverse operating scenarios. As a result, reliable rigidity and precision are maintained.
2. The CHY6156 CNC Lathe Machine Turning and Milling Center
Incorporates a 45 - degree slant bed and linear guideways. The utilization of a 45 - degree slant bed, combined with linear guideways, plays a crucial role in attaining high - speed machining and remarkable accuracy. With its 45 - degree angled construction, the slant bed's design is optimized to boost the machine's stability during operation. This particular angle efficiently minimizes vibrations and allows for seamless movement, laying a firm groundwork for effective machining processes. The combination of the slant bed and linear guideways ensures the speed and precision of the machining process.
3. Turcite B is applied to the contact surface between the carriage and the guide - way to preserve accuracy
Turcite B, a material well - known for its outstanding anti - wear characteristics and low friction coefficient, is used to line the contact surface between the carriage and the guide - way. This application of Turcite B is essential for maintaining accuracy. During machining operations when the carriage moves along the guide - way, Turcite B ensures smooth traversal. It mitigates the effects of friction and wear on the contact surface, which not only prolongs the lifespan of both the carriage and the guide - way but also helps to constantly maintain the machine's movement accuracy. By minimizing surface irregularities and enabling a stable, precise sliding motion, Turcite B makes a substantial contribution to the overall accuracy of the machining process.
4. Engineers conduct designs aiming at meeting the unique needs of customers
We have a robust and all - encompassing capacity to fulfill the unique demands of our customers. Our internal team, composed of seasoned engineers and designers, is highly proficient in the most up - to - date manufacturing techniques and industry developments. Leveraging this specialized knowledge, we are entirely competent in elaborately designing customized products in precise compliance with the elaborate specifications provided by our customers.
Technical Parameters
SPECIFICATION | UNIT | CHY6150 | |
Capacity | Swing over bed | mm | 500 |
Swing ovcr crOss sidc | mm | 350 | |
Distancc bctwccn ccnters | mm | 500/1000/15002000 | |
Slart bed layout sncle | 15 | ||
Spindle | Spindle bore | Tim | 82 |
Spirdle soeed steps | - | Stepless | |
Spindle soeed range | rom | 35-3000 | |
0-360 | |||
Chuck | in | 10in Hydraulc chuck | |
Turret | Turrettool post | 一 | 8 station power tool tower n |
col shank sizo | mm | 25×25 | |
Boring tool hclder sizc | mm | φ32 | |
Power set | 0°/90° | ||
Feed | Xaxis travel | ITIT | 200 |
Zaxis travel | ITIm | 5CO/1000/7500/2000 | |
Xaxis rapid traverse | mT/min | 20000Linear Guideway/Lirear guideway | |
Zaxis rapid traverse | mr/min | 2000C Linear GuidewayLinear guicdeway | |
Tailstock | Tailsock quillciameter | mm | 0.001 |
ailstock quilltaper | φ80 | ||
TailsTook quil trave | mm | MT⁴ | |
Motor | Main spindlc motor | kW | 15 |
Coolant pumpmclor | kW | 0.37 | |
Dimension | WidlhxHeighl | mn | 1800x1800 |
Lergth (cip crveyor inc uded) | TITi | ||
Weight | Net weight | T | 4.0/6.5/8.0/10.5 |
Product Uses
1. Machining rotary parts
This is the main application of turning processing. It can process the outer surface of various cylindrical, conical, spherical and other rotating bodies, such as the transmission shaft of automobiles, the crankshaft of engines, and all kinds of shaft parts in machinery, etc., through turning, it can ensure the diameter accuracy, cylindricity, surface roughness and other requirements.
2. Thread processing
Turning is one of the common methods of thread processing, which can process various types of threads, such as ordinary triangular threads, trapezoidal threads, rectangular threads, etc. In mechanical manufacturing, threaded connection is a common connection method, such as the threading of bolts, nuts and other parts, usually using the turning process to ensure the accuracy and quality of the thread, to ensure the reliability of the thread connection.
3. Machining of complex parts
The turning and milling center combines turning and milling functions to perform many different types of machining operations in a single clip. It can process parts with complex shapes, such as the impeller and blade of an aeroengine, as well as some precision parts with irregular shapes and multiple holes and slots in different directions. Through the multi-axis linkage function of the turning and milling center, the precise machining of these complex parts can be achieved, which reduces the clamping and positioning errors of parts between different equipment, and improves the machining accuracy and production efficiency.
4. Machining of complex parts
The turning and milling center combines turning and milling functions to perform many different types of machining operations in a single clip. It can process parts with complex shapes, such as the impeller and blade of an aeroengine, as well as some precision parts with irregular shapes and multiple holes and slots in different directions. Through the multi-axis linkage function of the turning and milling center, the precise machining of these complex parts can be achieved, which reduces the clamping and positioning errors of parts between different equipment, and improves the machining accuracy and production efficiency.
5. Efficient machining
The turning and milling center is equipped with an advanced control system and tool management system, enabling automated tool change and machining path planning. For some parts that need to be processed in multiple steps, automatic continuous processing can be realized through programming, which greatly reduces the processing time. At the same time, the high-speed cutting capacity of the turning and milling center also helps to improve processing efficiency and reduce processing costs.
Product Operate Guide
1. Before processing
Familiar with drawings and process requirements: Ensure a clear understanding of the size, accuracy, surface quality requirements of machined parts.
Check the equipment: Check whether the parts of the lathe are normal, whether the lubrication system is good, whether the chuck, the tool, etc., is firmly installed.
Select the right tool: According to the processing materials and process requirements, select the right turning tool, such as the outer round turning tool, the inner hole turning tool, the thread turning tool, etc., and install the tool correctly.
Clamping workpiece: When clamping, ensure that the workpiece is firmly installed, avoid displacement or vibration during processing, and pay attention to prevent clamping on the surface of the workpiece.
2. In processing
Reasonable selection of cutting parameters: According to the workpiece material, tool performance and other factors, reasonable determination of cutting speed, feed and cutting depth to ensure processing quality and efficiency, while avoiding excessive tool wear or damage.
Observe the processing: Always observe the cutting process, pay attention to the cutting sound, chip shape, workpiece surface quality, etc., if there is an anomaly should be stopped in time for inspection.
Measuring the workpiece: In the process of processing, if the workpiece size needs to be measured, it should be stopped first, and then measured after the tool has completely stopped moving to prevent accidents.
Safe operation: It is strictly forbidden to clean the chips and wipe the machine tool while the lathe is running, and avoid hand contact with the rotating workpiece and the tool.
3. After processing
Parts testing: A comprehensive test of the finished parts, including dimensional accuracy, shape accuracy, surface roughness, etc., if there are places that do not meet the requirements, analyze the reasons and take appropriate measures.
Equipment cleaning and maintenance: Clean the internal and external chips, oil, etc., and lubricate and maintain the key parts of the equipment, such as guide rail, lead screw, etc.
Data preservation and backup: Save and back up important data in the processing process, such as programs, tool parameters, etc., for subsequent query and use.
Product Video
FAQ
Q: How long does it usually take for the factory to produce a machine tool?
A: Normally 15 days, 7 days if available.The exact time depends on the order quantity and the order time.
Q: How does the factory ensure the production quality of machine tools?
A: Our factory has a strict quality control system.
Q: Can I visit the factory's production process?
A: Sure, If your trip is not convenient, we also provide video factory inspection.
Q: Can the factory customize machine tools according to my special needs?
A: Certainly. We can provide ODM and OEM.
Q: Are you a trading company or a factory?
A: We are a company integrating industry and trade.
Q: How long is your after-sales guarantee period?
A: We will provide you with after-sales service within 12 months after the commissioning of the machine.
Product Introduction
The CHY6156 CNC Lathe Machine Turning and Milling Center is purpose - built to handle semi - precision turning tasks as well as the machining of precision axle and disk components. This three - axis three - linkage CNC Turning Center is designed for milling outer circles, end faces, and keyways, along with drilling and tapping operations.
Featuring an advanced numerical control system, The CHY6156 CNC Lathe Machine Turning and Milling Center is capable of executing turning operations like straight lines, oblique lines, and arcs (including cylindrical, rotary, spherical, and conical surfaces). The CHY6156 Lathe Machine Turning and Milling Center can also cut straight and conical metric and inch threads. What's more, The CHY6156 CNC Lathe Machine Turning and Milling Center has the functionality to mill outer circles, end faces, and keyways, drill both radial and axial holes, and carry out thread processing.
The CHY6156 Lathe Machine Turning and Milling Center is the perfect choice for machining a wide variety of disc, sleeve, and shaft parts that have complex shapes and demand high precision.
Product Advantage
1. Constructed with high - strength iron, the one - piece bed ensures the lathe's rigidity and precision, resulting in a long - lasting lathe
The CHY6156 CNC Lathe Machine Turning and Milling Center features an integrated lathe casting made through the resin - sand process. Its monolithic bed is constructed from high - grade, high - strength iron. This material selection is of great significance since it efficiently ensures the bed's rigidity and precision. Thanks to the stable and robust structure provided by the high - strength iron, The CHY6156 CNC Lathe Machine Turning and Milling Center can uphold its form and functionality across diverse operating scenarios. As a result, reliable rigidity and precision are maintained.
2. The CHY6156 CNC Lathe Machine Turning and Milling Center
Incorporates a 45 - degree slant bed and linear guideways. The utilization of a 45 - degree slant bed, combined with linear guideways, plays a crucial role in attaining high - speed machining and remarkable accuracy. With its 45 - degree angled construction, the slant bed's design is optimized to boost the machine's stability during operation. This particular angle efficiently minimizes vibrations and allows for seamless movement, laying a firm groundwork for effective machining processes. The combination of the slant bed and linear guideways ensures the speed and precision of the machining process.
3. Turcite B is applied to the contact surface between the carriage and the guide - way to preserve accuracy
Turcite B, a material well - known for its outstanding anti - wear characteristics and low friction coefficient, is used to line the contact surface between the carriage and the guide - way. This application of Turcite B is essential for maintaining accuracy. During machining operations when the carriage moves along the guide - way, Turcite B ensures smooth traversal. It mitigates the effects of friction and wear on the contact surface, which not only prolongs the lifespan of both the carriage and the guide - way but also helps to constantly maintain the machine's movement accuracy. By minimizing surface irregularities and enabling a stable, precise sliding motion, Turcite B makes a substantial contribution to the overall accuracy of the machining process.
4. Engineers conduct designs aiming at meeting the unique needs of customers
We have a robust and all - encompassing capacity to fulfill the unique demands of our customers. Our internal team, composed of seasoned engineers and designers, is highly proficient in the most up - to - date manufacturing techniques and industry developments. Leveraging this specialized knowledge, we are entirely competent in elaborately designing customized products in precise compliance with the elaborate specifications provided by our customers.
Technical Parameters
SPECIFICATION | UNIT | CHY6150 | |
Capacity | Swing over bed | mm | 500 |
Swing ovcr crOss sidc | mm | 350 | |
Distancc bctwccn ccnters | mm | 500/1000/15002000 | |
Slart bed layout sncle | 15 | ||
Spindle | Spindle bore | Tim | 82 |
Spirdle soeed steps | - | Stepless | |
Spindle soeed range | rom | 35-3000 | |
0-360 | |||
Chuck | in | 10in Hydraulc chuck | |
Turret | Turrettool post | 一 | 8 station power tool tower n |
col shank sizo | mm | 25×25 | |
Boring tool hclder sizc | mm | φ32 | |
Power set | 0°/90° | ||
Feed | Xaxis travel | ITIT | 200 |
Zaxis travel | ITIm | 5CO/1000/7500/2000 | |
Xaxis rapid traverse | mT/min | 20000Linear Guideway/Lirear guideway | |
Zaxis rapid traverse | mr/min | 2000C Linear GuidewayLinear guicdeway | |
Tailstock | Tailsock quillciameter | mm | 0.001 |
ailstock quilltaper | φ80 | ||
TailsTook quil trave | mm | MT⁴ | |
Motor | Main spindlc motor | kW | 15 |
Coolant pumpmclor | kW | 0.37 | |
Dimension | WidlhxHeighl | mn | 1800x1800 |
Lergth (cip crveyor inc uded) | TITi | ||
Weight | Net weight | T | 4.0/6.5/8.0/10.5 |
Product Uses
1. Machining rotary parts
This is the main application of turning processing. It can process the outer surface of various cylindrical, conical, spherical and other rotating bodies, such as the transmission shaft of automobiles, the crankshaft of engines, and all kinds of shaft parts in machinery, etc., through turning, it can ensure the diameter accuracy, cylindricity, surface roughness and other requirements.
2. Thread processing
Turning is one of the common methods of thread processing, which can process various types of threads, such as ordinary triangular threads, trapezoidal threads, rectangular threads, etc. In mechanical manufacturing, threaded connection is a common connection method, such as the threading of bolts, nuts and other parts, usually using the turning process to ensure the accuracy and quality of the thread, to ensure the reliability of the thread connection.
3. Machining of complex parts
The turning and milling center combines turning and milling functions to perform many different types of machining operations in a single clip. It can process parts with complex shapes, such as the impeller and blade of an aeroengine, as well as some precision parts with irregular shapes and multiple holes and slots in different directions. Through the multi-axis linkage function of the turning and milling center, the precise machining of these complex parts can be achieved, which reduces the clamping and positioning errors of parts between different equipment, and improves the machining accuracy and production efficiency.
4. Machining of complex parts
The turning and milling center combines turning and milling functions to perform many different types of machining operations in a single clip. It can process parts with complex shapes, such as the impeller and blade of an aeroengine, as well as some precision parts with irregular shapes and multiple holes and slots in different directions. Through the multi-axis linkage function of the turning and milling center, the precise machining of these complex parts can be achieved, which reduces the clamping and positioning errors of parts between different equipment, and improves the machining accuracy and production efficiency.
5. Efficient machining
The turning and milling center is equipped with an advanced control system and tool management system, enabling automated tool change and machining path planning. For some parts that need to be processed in multiple steps, automatic continuous processing can be realized through programming, which greatly reduces the processing time. At the same time, the high-speed cutting capacity of the turning and milling center also helps to improve processing efficiency and reduce processing costs.
Product Operate Guide
1. Before processing
Familiar with drawings and process requirements: Ensure a clear understanding of the size, accuracy, surface quality requirements of machined parts.
Check the equipment: Check whether the parts of the lathe are normal, whether the lubrication system is good, whether the chuck, the tool, etc., is firmly installed.
Select the right tool: According to the processing materials and process requirements, select the right turning tool, such as the outer round turning tool, the inner hole turning tool, the thread turning tool, etc., and install the tool correctly.
Clamping workpiece: When clamping, ensure that the workpiece is firmly installed, avoid displacement or vibration during processing, and pay attention to prevent clamping on the surface of the workpiece.
2. In processing
Reasonable selection of cutting parameters: According to the workpiece material, tool performance and other factors, reasonable determination of cutting speed, feed and cutting depth to ensure processing quality and efficiency, while avoiding excessive tool wear or damage.
Observe the processing: Always observe the cutting process, pay attention to the cutting sound, chip shape, workpiece surface quality, etc., if there is an anomaly should be stopped in time for inspection.
Measuring the workpiece: In the process of processing, if the workpiece size needs to be measured, it should be stopped first, and then measured after the tool has completely stopped moving to prevent accidents.
Safe operation: It is strictly forbidden to clean the chips and wipe the machine tool while the lathe is running, and avoid hand contact with the rotating workpiece and the tool.
3. After processing
Parts testing: A comprehensive test of the finished parts, including dimensional accuracy, shape accuracy, surface roughness, etc., if there are places that do not meet the requirements, analyze the reasons and take appropriate measures.
Equipment cleaning and maintenance: Clean the internal and external chips, oil, etc., and lubricate and maintain the key parts of the equipment, such as guide rail, lead screw, etc.
Data preservation and backup: Save and back up important data in the processing process, such as programs, tool parameters, etc., for subsequent query and use.
Product Video
FAQ
Q: How long does it usually take for the factory to produce a machine tool?
A: Normally 15 days, 7 days if available.The exact time depends on the order quantity and the order time.
Q: How does the factory ensure the production quality of machine tools?
A: Our factory has a strict quality control system.
Q: Can I visit the factory's production process?
A: Sure, If your trip is not convenient, we also provide video factory inspection.
Q: Can the factory customize machine tools according to my special needs?
A: Certainly. We can provide ODM and OEM.
Q: Are you a trading company or a factory?
A: We are a company integrating industry and trade.
Q: How long is your after-sales guarantee period?
A: We will provide you with after-sales service within 12 months after the commissioning of the machine.
