SU1756614A1 - Diaphragm compressor - Google Patents

Abstract

Usage: in compressor design. SUMMARY OF THE INVENTION: A membrane 2 is installed in chamber 1 to form two working cavities 3 and 4. An inductance coil 10 with AC terminals 11 is wound on a horseshoe-shaped magnetic circuit 7 with pole pieces 8 and 9. A chamber 1 is installed in the air gap between tips 8 and 9. A permanent magnet 12 is fixed on the membrane 2. In the gap, the tips 8 and 9 are made with different areas of the end surfaces. The magnet 12 is made round and provided with a hole with a check valve installed in it 13. 1 c.p.

Description

The invention relates to a compressor design and can be used in membrane compressors with an electromagnetic drive.

A membrane compressor with an electromagnetic drive is known (ed. St. No. 832117, cl. F 04 B 45 / 04,1979), in which electromagnets are located on both sides of the membrane, and permanent magnets are fixed at the ends of the rod fixed on the middle part of the membrane .

The disadvantages of the compressor are very low efficiency and poor weight and size characteristics.

Known compressor (1), containing a chamber, a membrane installed in the chamber with the formation of two working cavities, a horseshoe-shaped magnetic circuit with pole pieces, an inductance coil with alternating current terminals, wound on the magnetic circuit, while the chamber is installed in the air gap between the pole pieces, and the membrane is fixed permanent magnet.

A disadvantage of the known compressor is the low efficiency due to the low drive force due to the absence of a directional magnetic induction gradient in the air gap.

The purpose of the invention is to increase the efficiency by providing a directional gradient of magnetic induction in the air gap. The efficiency is increased by increasing the driving force at the same power consumption.

The invention differs from the known compressor in that the pole pieces of the horseshoe-shaped magnetic core are made with different areas of the end surfaces. In addition, the permanent magnet is made round and provided with a hole with a check valve installed in it.

The drawing shows a section of a General view of a two-stage membrane compressor.

The diaphragm compressor contains a chamber 1. made of a non-magnetic material, a membrane 2 installed in the chamber

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with the formation of two working cavities 3 and 4 with suction 5 and pressure valves b, a horseshoe-shaped magnetic circuit 7 with pole pieces 8 and 9, an inductor 10 with terminals 11 of alternating current wound on the magnetic circuit 7, and a permanent magnet 12 mounted on the membrane while the camera 1 is installed in the air gap (not marked) between the pole pieces 8 and 9, the permanent magnet 12 is oriented with the poles towards the pole pieces 8 and 9, is made round and provided with a hole with a check valve 13 installed in it,

The compressor operates as follows.

When applied to the terminals 11 of the alternating voltage coil in the gap between the pole tips 8 and 9, a magnetic flux is excited with a gradient of magnetic induction directed along the magnet 12 When the current direction in the coil 10 is changed, the permanent magnet 12, and with it the membrane 2 reciprocating movement, which leads to the suction of gas through valve 5 into cavity 3, injecting it from cavity 3 into cavity 4 through valve 13 and exhaust through valve 6, With a ratio of square tips 2: 1, the gradient magnetic inductor uu along the magnet increased by about 5-10 times and in

The drive force and efficiency of the compressor increase as many times.

Thus, the invention makes it possible to increase the efficiency of a membrane compressor by providing a directional gradient of magnetic induction and, in addition, to reduce the loss of pneumatic energy in the two-stage compressor mode by reducing the number of valves and the length of the pipeline between the cavities of the chamber by making a magnet with a hole in which the check valve is installed,

Claims (2)

Invention Formula Diaphragm compressor containing a chamber, a membrane installed in the chamber with the formation of two working cavities, a horseshoe-shaped magnetic circuit with pole pieces, an inductance coil with alternating current terminals wound on the magnetic circuit, while the chamber is installed in the air gap between the pole pieces, and fixed on the membrane This magnet is characterized in that, in order to increase the efficiency by providing a directional gradient of magnetic induction, in the air gap the pole tips are made with different end face surfaces. 2. The compressor according to claim 1, characterized in that the permanent magnet is round and provided with a hole with a check valve installed in it