Innovations in industrial machinery bring forth solutions that optimize performance and streamline operations. The Air Feeder Machine E-type Solenoid Valve emerges as a versatile alternative to traditional float rods for regulating feeder strokes, offering enhanced control and efficiency in various applications.

Advantages of Air Feeder Machine E-Type Solenoid Valve

Replacing float rods, the E-type solenoid valve revolutionizes feeding control mechanisms. Its adaptable nature allows for swift adjustments in feeding times by manipulating the cam’s angle. This pivotal component operates on a straightforward principle: the cam triggers a microswitch, initiating a signal transmitted to the E-type solenoid valve, prompting precise actions. Thus, users gain mastery over feeding stroke times, ensuring optimal performance tailored to specific requirements.

Installation Procedure for Air Feeder Machine E-Type Solenoid Valve

Installing the E-type solenoid valve necessitates a systematic approach to harness its full potential. Begin by connecting one wire of the valve to power source B, while the other interfaces with the microswitch labeled NORMALLY. Subsequently, power source A should be linked to the microswitch labeled COMMON, establishing a coherent circuit ready for operation.

Operating Instructions for Air Feeder Machine E-Type Solenoid Valve

Mastering the operational nuances of the E-type solenoid valve is imperative for seamless integration into production processes. Follow these steps for efficient utilization:

1. Material Preparations

Initiate operations by ensuring the absence of materials in the feeder, preparing the system for subsequent adjustments.

2. Feeding Length Measurement

Accurately determine the required feeding length, laying the groundwork for precise feeding actions.

3. Speed Adjustment

Fine-tune feeding speeds by rotating the speed adjustment screw clockwise, facilitating nuanced control over the process.

4. Cam Calibration

Engage in meticulous cam calibration through hand inching, gradually aligning the punch press until the cam makes contact with the microswitch. Optimal calibration is achieved when the slide block maintains equal distances between the spacer ring and washer upon cam activation. Adjust the speed adjustment screw counterclockwise to normalize slide block movements, ensuring seamless operations with minimal friction.

Conclusion

The Air Feeder Machine E-type Solenoid Valve emerges as a pivotal component in industrial settings, offering unparalleled control over feeding mechanisms. By replacing conventional float rods and leveraging advanced cam-triggered technology, this solenoid valve optimizes performance, enhances efficiency, and ensures precision in feeding operations. Embrace innovation, streamline processes, and elevate productivity with this indispensable tool.

Air Feeder Machine
Air Feeder Machine