|Wire Diameter（MM）||1.0-3.8 mm|
|Max.Wire Feed Value（MM）||9999.99 mm|
|Min.Wire Feed Value（MM）||0.01 mm|
|Wire Feed Rollers Groups||3|
|Max.Wire Feed Speed||80m/min|
|Quill Rotary Axis||0.75kw|
|Wire Rotary Axis||2.7 kw|
|Cam Axis||4.5 kw|
|Spinner Axis||1.0 kw|
|Wire Feeding Axis||5.5 kw|
|Compressor Air Pressure||5 - 6 kg/cm|
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A. The core part of the wire spring machine is the wire feed box. Our wire feed box is not only an integral casting, but also the key wheels are imported. The biggest difference with Friends is that our motor is not on the back of the transfer box. This does not meet the safety regulations of the European and American markets. At the same time, the transfer speed will become very slow. You can see the video of our switch box.
B. The biggest advantage of our wire transfer machine is that small wire diameters below 4.0mm pay attention to speed and accuracy, and above 4.0mm are mainly strength and stability. So we have put a lot of effort on the transfer structure. Our design does not originate from any domestic company at present. It is more about learning and understanding the design in Japan and the United States. We also have a design engineer in the United States. The design details of each of our products require data to be measured. For example, the wire box of the transfer line needs to reach a certain speed, and cannot be turned slowly like a friend does. This will definitely affect the speed. You can also take a look at the 9mm hard-wired equipment we made. At the same time, we need to bend two 9mm hard wires. That's 18mm. You can see the video and we really did it. The equipment has been exported to Europe and is in normal production for 24 hours.
With the development of science and technology and the advancement of industrialization, servo motors and reducers at this stage have gradually become indispensable electrical components in the machinery industry. The same is true for the current mainstream CNC spring machines. The stability of the spring machine operation is directly related to the quality of the servo motor. Why do users focus on the performance of the servo motor when choosing a spring machine? The quality of the servo motor directly affects the stability of the spring machine, so how to detect the performance of the servo motor supporting the spring machine?
(1) Servo motor performance testing method: look at the brand. Well-known brand servo motors have stable performance guarantee, which is also the key to ensure the stable operation of the spring machine. At present, the CNC spring machine products used in the domestic market, the servo motors used by different manufacturers are also different, which is also one of the reasons for the price difference of the spring machine. Therefore, when choosing a spring machine, users generally choose the more mature and stable performance servo motors used in the industry, such as the Japanese Sanyo or Yaskawa servo motors. We can generally distinguish this type of servo motor through the label.
(2) Servo motor performance testing method: listen to the sound. The machine will make a certain sound when it is running, especially when combined with the use of a servo motor, the sound is unavoidable. During the operation of the spring machine, we can listen carefully to the sound from the tail of the servo motor with our ears. Generally speaking, the sound of a servo motor with good performance sounds very pure; while the sound of a general servo motor can hear some noise. Therefore, the performance of the servo motor of the computer spring machine can be distinguished by distinguishing the sound emitted.
(3) Servo motor performance testing method: read parameters. The drive parameters matched with the servo motor are also very important to the requirements of the servo motor. Generally speaking, the higher the drive's own parameters, the more stable the corresponding spring winding will be, and the louder the sound of the servo motor will be; on the contrary, the more peaceful the sound of the servo motor with a certain noise, it indicates its stability The worse. When users choose a spring machine, do not blindly pursue the noiselessness of the servo motor. The performance factors of the servo motor must be considered comprehensively. The best strategy is to choose a servo motor configuration with more stable performance.
In short, the three methods mentioned above, namely "one look, two listen and three reading", are only effective methods for simply detecting the performance of the servo motor. However, due to limited technical experience, more effective methods are used to detect the quality of the servo motor of the spring machine. The method requires all of us to discover, learn and communicate more in our future lives and work.