RU44357U1 - ELECTROMAGNETIC MEMBRANE COMPRESSOR - Google Patents

Abstract

Use: Production of compressed air Purpose: increase the maximum working pressure of the compressor. The essence of the utility model: the device comprises a housing 1, a membrane 2, a rod 3, a hollow core of the vibrodrive 4 with windings 5 and 6 placed on it, an end position sensor 7 mounted on the rod 3. The compressor also contains suction valves 8 and a discharge valve 9. 1 ill. Positive effect: Increase the maximum working pressure of the compressor.

Description

The utility model relates to stationary volumetric machines for the production of compressed air at home.

A known compressor with an electromagnetic drive (see ed. Certificate of the USSR, No. 937763, F 04 B 35/04, 1982), comprising a housing with electromagnets and a cylinder mounted therein, in which a spring-loaded piston and a rod are rigidly connected to the core, interacting with electromagnets.

The disadvantage of this compressor is its complex design and large losses due to piston friction in the cylinder.

The closest to the claimed device by the totality of signs is an electromagnetic membrane compressor containing a housing, a membrane installed in it with a rod located inside a hollow core with windings placed on it, connected to an AC source (see ed. Certificate of the USSR No. 1000595, F 04 B 45/04, 1983).

The disadvantage of this device is the low working pressure due to the fact that the movement of the membrane is not kinematically specified, but is determined by the dynamic properties of the electromagnetic drive.

The objective of the utility model is to increase the maximum working pressure of the compressor by improving the design of the drive.

The technical result is achieved by the fact that the compressor rod has an end position sensor connected to the compressor electromagnetic drive control system.

The utility model is illustrated by a figure.

The compressor consists of a housing 1, a membrane 2, a rod 3, a hollow core of a vibrator 4 with windings 5 and 6 placed on it, an end position sensor 7 mounted on a rod 3. The compressor contains

also suction valves 8 and discharge valve 9. The compressor is as follows.

When alternately applying to the windings 5 and 6 connected to the control system (not shown conventionally) a supply voltage, the rod 3 makes a reciprocating movement, causing periodic oscillations of the membrane 2, which in turn ensures the suction and discharge of air through valves 8 and 9 In this case, the final position of the rod 3 is controlled by the sensor of the final position 7. If the rod 3 does not reach its final position, then a signal is sent from the sensor of the final position 7 to the control system, which in this case delivers higher Noe supply voltage to the windings 5 and 6.

The use of the compressor of the claimed design allows the compressor to achieve a higher working pressure, due to the use of the end position sensor associated with the control system of the electromagnetic drive of the membrane compressor.

Claims (1)

An electromagnetic membrane compressor comprising a housing and a membrane installed therein with a rod located inside a hollow core with windings placed on it and connected to an AC source, characterized in that the rod has an end position sensor.