RU42079U1 - MEMBRANE COMPRESSOR - Google Patents

Abstract

Use: Production of compressed air Purpose: to increase the durability of a flexible membrane. The essence of the utility model: the device contains a working chamber 1, a membrane 2, an inlet working valve 3, an exhaust working valve 4. The vibrodrive consists of two coils with cores 5, elastically connected with movable anchors 6, to which spring rods 7 are held, held 8 horizontal position using two flexible springs 9. The travel of the anchors 6 is limited by the position of the external and internal elastic-viscous stops 10 and 11. Positive effect: Increased membrane durability.

Description

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

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

The disadvantage of this compressor is its low productivity due to the small working stroke of the membrane, as well as significant vibration of the working case due to the use of an unbalanced vibration drive.

Closest to the claimed device in terms of features is a membrane compressor containing a working chamber and a membrane mounted on swinging springs with the possibility of oncoming reciprocating motion. The working chamber and the membrane are connected by a flexible connection with swinging anchors interacting with electromagnets (see ed. Certificate of the Russian Federation No. 17952, F 04 B 45/04, 2001).

The disadvantage of this device is the low durability of the flexible membrane due to imperfections in the design of the drive.

The objective of the utility model is to increase the durability of the flexible membrane by improving the design of the drive.

The technical result is achieved in that the swinging anchors have external and internal elastic-viscous travel limiters mounted on the basis of a membrane compressor.

The utility model is illustrated by a figure.

The compressor consists of a working chamber 1, a membrane 2, an inlet working valve 3, an exhaust working valve 4. The vibrodrive consists of two coils with cores 5, elastically connected with movable anchors 6, to

to which the rods are preloaded by the springs 7. The rods are held in horizontal position by means of two flexible springs 9, which allow the membrane and the compressor working chamber to reciprocate. Front and rear anchors 6 are external 10 and internal 11 elastic-viscous limiters mounted on the basis of a membrane compressor (not shown in Fig.). The compressor is as follows.

When voltage is applied to the coils 5, the anchors 6 are attracted to the cores and move towards each other until they touch the internal stops 11. At the same time, the anchors 6 move the rods 8, the volume of the working chamber 1 decreases and the compressed air rushes over the resistance of the discharge valve 4, rushes in the pressure head pipeline. When stress is removed, the anchors, under the action of elastic elements, move in the opposite direction until they touch the external stops 10, opening the inlet valve 3, and air fills the working chamber 1.

Then the cycle repeats.

The use of the compressor of the claimed design can significantly increase the durability of the flexible membrane, due to the limiting maximum travel of the anchors. In addition, it becomes possible to control the compressor capacity by changing the position of the external stops (changing the size A).

Claims (1)

A membrane compressor comprising a working chamber and a membrane mounted on springs with the possibility of reciprocating motion, which are connected by a flexible connection to swinging armature interacting with electromagnets, characterized in that the armature has external and internal elastic-viscous travel limiters mounted on the base of the membrane compressor.