In the application of electronic tensile machine manufacturing, the main characteristics of high-quality sensors are: long life, high reliability, strong anti-interference ability; meet the accuracy and speed requirements; easy to use and maintain, suitable for machine tool operating environment; low cost; Computer connection.
In the mechanical manufacturing test system, it is used as a primary instrument positioning, and its main feature is that it can accurately transmit and detect a certain form of information and convert it into another form of information. In the manufacture of electronic tensile machines and other mechanical manufacturing, the weighing sensor (load cell manufacturer) technology is an important part of testing and automatic control. Specifically, the sensor refers to a component or device that has a feeling (or response) and a detection function for a certain information of the object to be measured, and converts it into an output signal corresponding thereto according to a certain rule. Without accurate and reliable capture and conversion of the original information being measured, all accurate testing and control will not be possible; even the most modern electronic computers have no accurate information (or convert reliable data), no distortion Input will also not fully play its due role.
For the operation of the machine tool, the main sensing targets include drive system, bearing and swing system, temperature monitoring and control, and safety. The sensing parameters include machine downtime and surface roughness of the workpiece. And processing accuracy, power, machine state and flow rate of cooling lubricant.
Sensing technology for the cutting process and the machine running process.
Cutting Process The purpose of load cell testing is to optimize the productivity of the cutting process, manufacturing costs, or the rate of removal of (metal) materials. The target of sensing in the cutting process is the cutting force and its change during the cutting process, the chattering during the cutting process, the contact between the tool and the workpiece, the state of the chip during cutting and the identification of the cutting process. The most important sensing parameters are cutting force. Vibration during cutting, acoustic emission during cutting, power of motor during cutting, etc.
