RU67196U1 - ELECTROMAGNETIC MEMBRANE COMPRESSOR - Google Patents

Abstract

Use: production of compressed air Purpose: to improve the performance of an electromagnetic membrane compressor. The essence of the utility model: the device consists of a working chamber formed by the upper cover of the housing 1 and a flexible membrane 2, with two inlet valves 3 and one exhaust valve 4. The vibrodrive consists of a hollow core 5 with a winding 6 placed on it, inside which the rod 7 passes, rigidly connected to the movable armature 8, the reverse stroke of which is carried out by means of a return spring 9. An acceleration sensor 10 is installed at the lower end of the rod 7. Positive effect: increased compressor working pressure.

Description

The utility model relates to stationary machines of volumetric action for the production of compressed air in a domestic environment.

Known electromagnetic membrane compressor with a double winding engine (see ed. Certificate. USSR, No. 1000595, F04B 45/04, 1983), comprising a housing, a membrane installed therein with a rod located inside the hollow core.

The disadvantage of this compressor is the complicated design of the drive.

The closest to the claimed device in terms of features is an electromagnetic membrane compressor containing a housing and a membrane installed therein with a rod located inside a hollow core with a winding placed on it (core) connected to an AC source. The return stroke is carried out using a return spring (see patent for utility model of the Russian Federation No. 43600, F04B 45/04, 2004).

The disadvantage of this device is the low working pressure, since the movement of the actuator - the rod is not kinematically specified, but is determined by the dynamic properties of the entire system.

The objective of the utility model is to improve working conditions and increase compressor performance by improving drive design.

The technical result is achieved by installing on the moving rod an acceleration sensor associated with the power management system of the power coils.

A diagram of an electromagnetic membrane compressor is shown in FIG.

The compressor consists of a working chamber formed by the upper cover of the housing 1 and a flexible membrane 2, with two inlet valves 3 and one exhaust valve 4. The vibrodrive consists of a hollow core 5 with a winding 6 placed on it, inside of which a rod 7 is rigidly connected to the movable an anchor 8, the reverse stroke of which is carried out using a return spring 9. An acceleration sensor 10 is installed at the lower end of the rod 7.

The compressor is as follows.

When voltage is applied to the winding 6, the movable armature 8 is attracted to the hollow core 5. In this case, the movable armature 6 drives the rod 7 and the flexible membrane 2, the volume of the working chamber decreases and the compressed air, overcoming the resistance of the exhaust valve 4, rushes into the pressure pipe. When removing the voltage, the armature 8, under the action of the return spring, moves in the opposite direction, while the inlet valves 3 are opened, and the air fills the working chamber. Then the cycle repeats. When the compressor is operating from the speed sensor 10, a signal is received in the control system (not shown conditionally), based on which the supply voltage is supplied to the winding 6.

The use of the engine of the claimed design allows to improve the consumer characteristics of the electromagnetic membrane compressor, due to the use of the control system associated with the acceleration sensor.

Claims (1)

An electromagnetic membrane compressor comprising a housing and a membrane installed in it with a rod located inside the hollow core, with a winding placed on it (core) connected to an AC source, characterized in that a sensor connected to the winding power control system is installed on the lower end of the rod acceleration.