The braking method of the pneumatic mechanical press is a pneumatic clutch, which is mainly used for stamping power. It comes from the electric motor driving the flywheel, which drives the crankshaft and generates impulse. Ordinary press machines use traditional braking methods, commonly known as mechanical key type brakes, which mainly generate stamping power from the motor driving the flywheel, which drives the crankshaft to generate impulse. A regular punch, also known as a press, is a traditional mechanical processing method in the stamping process.
1. Compared to traditional presses, pneumatic mechanical presses have higher safety performance;
2. Pneumatic press machines have higher precision than traditional presses; The upper and lower stamping molds are more convenient than traditional presses;
3. Compared to pneumatic presses, they are faster; Pneumatic mechanical presses have cylinders that require air, while traditional ones do not;
4. Pneumatic presses are more expensive than traditional presses.
The pneumatic press utilizes the high-pressure gas generated by the compressor to transport the compressed gas to the solenoid valve through a pipeline. The action of the solenoid valve is controlled by a foot switch to control the operation and return of the cylinder, thus achieving the purpose of punching.
The principle of pneumatic press technology: Compressed air can be stored in an air storage tank and can be used at any time, so there is no energy waste caused by the motor idling. By using cylinders as working components and solenoid valves as control components, this machine has a simpler structure, low failure rate, high safety, simple maintenance, lower maintenance costs, and high production efficiency. Using a 220V power supply to control the solenoid valve is simple and convenient to operate.
Mechanical characteristics of pneumatic press:
1. Made of high-strength cast iron, stress relieved to ensure long-term accuracy.
2. Supported by two guide pillars with enlarged center distance, the rigidity and accuracy of the guide pillars in the direction of eccentric load and slider load are extremely excellent.
3. The guiding method is to use double columns as the guide, extending the length to the position of the material line, and directly accepting the horizontal force during processing, achieving high-speed and high-precision processing.
4. Adopting the world’s advanced digital frequency conversion technology, various situations are reflected on the display to ensure product quality. In addition, when faults occur, this content is expressed for easy maintenance.
5. To reduce stable changes during high-speed operation, a forced cooling system has been configured.
Post time: Apr-17-2023