Vibration plate adjustment method:
1. The distance between the electromagnet and the armature should be as small as possible without impact.
2. The spring force of the spring plate must be appropriate. The adjustment method is to change the quantity and thickness repeatedly, and have enough patience.
3, usually the vibration plate needs to cooperate with an electromagnetic vibration controller to adjust the amplitude and control the conveying speed.
It is mainly powered by a vibration motor. When the vibration motor works, it generates the force of the directional frequency. As long as the vibration disk is regarded as a kind of slope, and then the physical analysis of the slope is carried out, you can easily understand his Working principle.
When the vibrating plate electromagnetic coil is in operation, the inclined surface will be slightly up and down by the electromagnetic attraction force, and the working frequency and the gap of the vibrating plate can be adjusted to achieve smooth operation. Principle of vibrating electromagnet: An electromagnet is used to generate an alternating magnetic field. The vibrating part is an iron piece suspended in front of the electromagnet. When the signal passes through the electromagnet, the electromagnet magnetic field changes, and the iron piece vibrates and sounds. The AC voltage produces a magnetic field. Because of the high frequency, the generated magnetic force is also a momentary change. There are 3-6 sets of angled spring pieces under the chassis. When the electromagnet generates a magnetic field with alternating current, the spring piece is pressed, when the voltage When the positive wave changes, the spring piece springs back, and it produces a force and a reliable guarantee. The purpose of the work is to automatically and orderly arrange the disordered workpieces in an orderly and accurate manner to the next process by vibration.
The purpose of the vibrating plate is to automatically and orderly arrange the disordered workpieces in an orderly and accurate manner to the next process.
