SU141360A1 - Pneumatic vibration drive - Google Patents

Description

Pneumatic vibration drive for loading devices in production lines with a one-way pulsator acting on a flat platform is known. Its disadvantage is that when working at subsonic frequencies, high-frequency vibrations occur that interfere with the planned movement of parts along the tray, and also that the natural oscillations of the springs reduce the asymmetry of the cycle set by the pulsator, which reduces production. In the proposed design, the pneumatic vibration drive of the return spring is replaced by a pneumatic cylinder or a diaphragm pneumatic chamber to which a constant pressure is applied, if the mode of operation of the device is constant, or an adjustable pressure, if the device is often reconfigured to work in different modes. A diaphragm pneumatic cylinder or chamber has an additional diaphragm rigidly connected with the main diaphragm, which provides an oscillatory mode with a given asi.m.metriya.

The drawing shows a diagram of the proposed pneumatic vibration drive with diaphragm pneumatic chambers. Compressed air enters the cylinder /, in front of the entrance to which the regulator 2 is installed to reduce the pressure to 1.5-2 atm. which work diaphragm vibrators. From the cylinder / compressed under constant pressure, the air passes into the sub-diaphragm cavities of the pneumatic chambers 3 4. The working surface of the membrane of the pneumatic chamber 3 is somewhat smaller than the working surface of the membrane of chamber 4. The pneumatic chamber 3 is connected by air duct 5 directly to the balloon /, and the pneumatic chamber 4 is connected to the balloon through the pulsator 6. Therefore, in the pneumatic chamber 3, the air pressure is constant, and in the pneumatic chamber 4, the pressure is pulsating and it develops a force that has changed during a pulsation cycle from O atm to a certain maximum, and its maximum is greater than the constant force created by the pneumatic chamber 3.