What are the safety features of Dual-Machine Linkage Hydraulic Sheet Bending Machine?
Publish Time: 2024-08-27
1. Structural design and material selection
High-strength materials: Dual-Machine Linkage Hydraulic Sheet Bending Machine usually uses all-steel welded structure and eliminates stress through vibration, so that the machine has high mechanical strength and rigidity. This structural design can ensure that the machine remains stable when subjected to large workloads and reduce safety risks caused by material fatigue or insufficient strength.
Compact and stable: The hydraulic system is selected from high-quality brands, such as the American Special Hydraulic System or the electro-hydraulic servo system manufactured by BOSCH of Germany. These systems are simple, compact, stable, reliable and have a long service life. The compact structural design reduces the failure points and improves the overall safety of the system.
2. Synchronization and precision control
High-precision synchronization: Dual-Machine Linkage Hydraulic Sheet Bending Machine adopts torsion axis synchronization technology, and the synchronous swing arms at both ends of the slider ensure that the slider movement is always parallel to the workbench. This synchronization technology not only improves the processing accuracy, but also enhances the machine's ability to resist eccentric loads during operation and reduces safety hazards caused by synchronization errors.
High-precision adjustment: The slider stroke and back gauge distance are adjusted by electric adjustment and manual fine-tuning devices, and the LED digital display ensures the accuracy and convenience of adjustment. This high-precision adjustment mechanism can ensure that the workpiece always maintains the correct position and angle during the processing process, reducing the safety risks caused by misoperation or improper adjustment.
3. Safety protection measures
Protective devices: The machine is usually equipped with complete protective devices, such as protective covers, safety doors, etc., to prevent operators from contacting dangerous areas during the operation of the machine. These protective devices can effectively reduce injuries caused by misoperation or unexpected situations.
Emergency stop device: The machine is equipped with an emergency stop button or switch to quickly cut off the power supply and stop the machine in an emergency. This emergency stop device can ensure rapid response and reduce losses in the event of an abnormal situation.
4. Maintenance and maintenance
Ease of maintenance: The Dual-Machine Linkage Hydraulic Sheet Bending Machine is designed with ease of maintenance in mind, such as the use of an integrated hydraulic control system and reduced pipe connections. These designs make maintenance and maintenance work more convenient and quick. Timely maintenance and care can ensure that the machine is always in good working condition and reduce the safety risks caused by machine failure.
Technical training: Suppliers usually provide technical training services to operators to help them familiarize themselves with the performance and operating procedures of the machine. This technical training can improve the safety awareness and operating skills of operators and reduce the safety risks caused by improper operation.
5. Compliance with standards and specifications
Compliance with standards: The design and manufacture of Dual-Machine Linkage Hydraulic Sheet Bending Machine complies with relevant international and domestic standards and specifications. These standards and specifications have strict regulations and requirements on the structure, performance, safety and other aspects of the machine, ensuring the quality and safety of the machine.
The safety performance of Dual-Machine Linkage Hydraulic Sheet Bending Machine is reflected in its structural design, synchronization and precision control, safety protection measures, maintenance and maintenance, and compliance with standards and specifications. These measures jointly ensure the safety and stability of the machine during processing.