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ABOUT US

Hangzhou Tongyi Machinery Co., Ltd. was established in 2007. It is a professional

China Cnc Turret Suppliers and Wholesale Milling Machine Manufacturers

. Combined industrial and commercial firm that produces machine tool attachments like chip conveyors and exports a variety of machine tools. Our business launched Zhejiang ANERGY Machinery Equipment Co., Ltd. in 2017.
The company has high-quality technical personnel, meticulous production, advanced management, and high-quality after-sales service to provide customers with affordable products and fully meet customer expectations.
The business has been operating with the tenets of integrity, client happiness, ongoing development, and brand building. We cordially invite both current and potential clients to stop by and collaborate on brilliance.
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  • 15+

    Industry Experience

  • 15000m²

    Modern Factory

  • 150+

    Staff

  • 15+

    Technician

  • Product Category

    Computer numerical control lathe

    A Computer Numerical Control (CNC) lathe is a type of machine tool that utilizes computerized controls to automate and control the machining process. It is specifically designed for precision turning operations, where a workpiece is rotated and a cutting tool is applied to remove material and shape ...
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    Computer numerical control lathe
    Computer numerical control lathe
  • Product Category

    Machining center high speed machine

    A high-speed machining center is a specialized machine tool that is specifically designed to perform machining operations at significantly higher speeds compared to conventional machining centers. These machines are equipped with advanced technologies and features to achieve rapid and efficient mate...
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    Machining center high speed machine
    Machining center high speed machine
  • Product Category

    Chip conveyor

    A chip conveyor is a specialized conveyor system designed specifically for manufacturing and machining operations. Its main function is to remove and transport metal chips or swarf away from the machining area. This plays a vital role in maintaining a clean and efficient workspace while ensuring pro...
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    Chip conveyor
    Chip conveyor
Hangzhou Tongyi Machinery Co., Ltd.

WHAT’S NEWS

Provide you with the latest enterprise and industry news

  • 01

    Do CNC lathes have energy-saving modes to reduce energy consumption?

    As a modern high-precision processing equipment, CNC lathes are increasingly used in industrial production. Although traditional CNC lathes usually consume a lot of electricity during operation, with the advancement of technology, modern CNC lathes have gradually introduced energy-saving modes, achieving efficient use of energy through optimized design and intelligent control systems.The energy-saving mode of CNC lathes usually involves the optimization of motors and power systems. During the operation of CNC lathes, the spindle and other moving parts need to consume a certain amount of electricity. By adopting more efficient motors and drive systems, CNC lathes can reduce energy waste when completing processing tasks. For example, the use of variable frequency drive technology can adjust the speed of the motor according to the change of load, so that the motor only works when needed, thereby reducing power consumption. When the lathe is idle or underloaded, the frequency conversion system can adjust the power output of the motor to avoid ineffective energy waste.Modern CNC lathes are often equipped with intelligent control systems, which can monitor the operating status of the machine tool in real time and automatically adjust the operating parameters according to different processing tasks. When the lathe processes relatively simple or low-load workpieces, the intelligent control system will automatically reduce the working intensity of the machine tool, thereby reducing energy consumption. This system can accurately assess the energy requirements of each processing link and avoid unnecessary power consumption by dynamically adjusting various parameters during the processing. In addition, CNC lathes can also reduce energy consumption when not in use by automatically shutting down or entering standby mode. For example, when the lathe completes a processing task and does not immediately start the next task, it can automatically enter a low-power state and consume only a small amount of power when in standby.In addition to the optimization of motors and control systems, the mechanical design of CNC lathes also helps to save energy. For example, the use of high-efficiency transmission systems and friction-reducing designs can reduce energy loss between mechanical parts. Advanced lubrication technology and precise guide rail design can reduce friction inside the equipment, improve work efficiency, and reduce energy consumption. Through these sophisticated designs and technical improvements, CNC lathes can complete processing tasks more efficiently and avoid unnecessary waste of electricity.CNC lathes can also reduce energy consumption through reasonable processing technology. During the processing process, the reasonable selection of tools and cutting parameters can effectively reduce processing time and tool wear, thereby saving energy. By optimizing processing routes and reducing ineffective idle operations, CNC lathes can complete high-quality processing tasks with the lowest energy consumption.Although many modern CNC lathes have certain energy-saving modes, the energy-saving effect still depends on factors such as operation and use environment. For example, the operator's understanding and correct use of the energy-saving mode, as well as the temperature and humidity of the workshop environment may affect the energy consumption of the lathe. Therefore, when using CNC lathes, enterprises should not only choose efficient equipment, but also pay attention to the training of operators to ensure that the equipment can operate in the best working condition.

  • 02

    Will the processing accuracy of CNC lathes be affected during long-term use?

    During long-term use, the processing accuracy of CNC lathes may be affected by some factors. These factors may come from the wear of the machine itself, changes in environmental conditions, operating errors, etc. As the use time increases, the various components of the CNC lathe will experience a certain degree of aging or wear, which will affect its processing accuracy. The main working parts of the CNC lathe, such as guide rails, lead screws, spindles, etc., may gradually wear out with long-term use. Guide rails and lead screws are precision transmission parts of CNC lathes, and their wear directly affects the positioning accuracy of the lathe. After the surface of the guide rails is worn, it will cause vibration during the processing of the workpiece, affecting the contact accuracy between the tool and the workpiece. The wear of the lead screw may cause inaccurate position control, which in turn affects the processing accuracy. When these parts are severely worn, dimensional errors may occur during the processing process, and even the roughness of the processed surface may occur.The control system of the CNC lathe is also an important factor in maintaining processing accuracy. Over time, electrical components and control systems may experience performance degradation or failure, especially circuit boards, sensors and actuators. Any instability or failure of these components may cause control deviations during the processing process, affecting the accuracy of the final product. In order to avoid this situation, it is very necessary to regularly inspect and maintain the control system and replace aging parts in time.The accuracy of CNC lathes is also closely related to the tools used in the processing process. As the tool wears or ages, its cutting effect will gradually decrease, and the geometry and cutting edge of the tool may also change, resulting in processing errors. Especially under high load or long-term operation, tool wear is more obvious. In order to maintain processing accuracy, it is crucial to regularly check the status of the tool and replace the severely worn tool in time.Environmental factors are also one of the important factors affecting the processing accuracy of CNC lathes. The environmental conditions such as temperature, humidity and air flow in which the lathe is located will affect its processing accuracy. Temperature fluctuations can cause metal materials to expand or contract, thereby affecting the dimensional accuracy of the workpiece during processing. At the same time, when the air humidity is high, it may also cause corrosion of metal parts and affect the normal operation of the machine. Therefore, controlling the stability of the lathe working environment and maintaining appropriate temperature and humidity conditions will help reduce the impact of these environmental factors on processing accuracy.In addition to the above factors, the operator's technical level and operating habits also affect the processing accuracy. During long-term use, if the operator fails to operate according to the specifications, or there is improper debugging and maintenance, the processing accuracy of the CNC lathe may decrease. For operators, regular training to improve operating techniques and troubleshooting capabilities is also the key to ensuring the long-term stable operation of CNC lathes.

  • 03

    How to ensure the stability and clamping effect of the workpiece on automatic double-sided lathes?

    The workpiece stability and clamping effect of automatic double-sided lathes are key factors in ensuring machining accuracy and machining quality. In order to effectively ensure the stability and clamping effect of the workpiece, the lathe has been optimized in many aspects such as structural design, fixture selection, and automation control.The structural design of automatic double-sided lathes usually uses a relatively sturdy and stable base and support system. The base of the lathe is generally made of high-strength steel or cast iron material, which can effectively reduce the impact of external vibration on the processing process. The heavy-duty base can provide good support, so that the lathe can maintain a stable working state during a long period of processing, avoiding processing errors caused by deformation of the lathe body or uneven stress.The fixture design of the lathe plays a crucial role in the stability of the workpiece. Automatic double-sided lathes often use special fixtures to fix the workpieces, and the choice of fixtures directly affects the clamping effect and stability of the workpieces. In order to avoid loosening or deforming the workpiece due to improper clamping, the fixture usually uses a high-precision positioning device and a strong clamping mechanism. Through reasonable fixture design, the workpiece can be ensured not be moved by external forces during the processing process, ensuring machining accuracy.In automatic double-sided lathes, the force control of the clamping device is particularly important. By accurately adjusting the clamping force, the workpiece can be avoided from being deformed due to excessive clamping or loosening due to insufficient clamping. Some advanced automatic double-sided lathes are also equipped with torque sensors or pressure sensors. By monitoring the changes in clamping force in real time, ensuring that the clamping force is always within the optimal range, further ensuring the stability of the workpiece.In order to further improve the stability of the workpiece, some automatic double-sided lathes also adopt automatic positioning and automatic centering technology of workpieces. These technologies can monitor the position of the workpiece in real time through a vision system or a laser positioning device to ensure that it is always in the correct processing position during the processing process. If any position deviation occurs during the processing process, the system will automatically adjust or prompt the operator to correct it, thereby effectively avoiding machining errors caused by position deviation.The automatic control system of automatic double-sided lathe also plays a key role in ensuring workpiece stability and clamping effect. Through the precise CNC system, the lathe can monitor the changes in various parameters during the processing process in real time, including clamping force, workpiece position, processing pressure, etc. Real-time feedback of these data can help operators quickly detect and resolve potential clamping instability or loose workpieces, improving overall machining reliability and safety.