RU2046212C1 - Solenoid diaphragm blower - Google Patents

Abstract

FIELD: pumping fluids. SUBSTANCE: cylindric electromagnets with coils are mounted inside the housing. The coils have central passageways. Two magnetically conducting diaphragms are clamped inside the housing to define working chambers interconnected through the central passageway. The side walls of the housing have hollows. The housing is made up as a torus and has the even same number of electromagnets and diaphragms. Radial passages for connecting with the central passageway are made in the housing between each chamber and electromagnet coil. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to a pump and compressor engineering, in particular to electromagnetic membrane blowers for liquid and gas.

A known electromagnetic membrane supercharger containing two cylindrical electromagnets, each of which is made with a coil and a housing, on one end of which is made in the form of a recess working chamber, and along the geometric axis there is a central channel, a magnetic membrane, pinched between the ends with the working chambers of the electromagnet housings, wherein the working chambers are hydraulically connected through the central channels, the suction and discharge valves with the suction and discharge lines [1]
The disadvantage of the known device is low productivity and efficiency due to the fact that only one working chamber works on injection, and in each electromagnet only one end works with benefit.

The closest in technical essence to the described is an electromagnetic diaphragm supercharger containing two cylindrical electromagnets with coils and housings having through central channels, a magnetic conductor clamped between the ends of the electromagnet housings, working chambers made in the form of recesses on the ends of the housings on the membrane side and communicated through central channels, suction and discharge valves with suction and discharge lines, respectively [2]
A disadvantage of the known device is its low productivity and efficiency due to the fact that only one working chamber works for injection with the supply of a working medium (liquid, gas) to the discharge line, and the extreme ends work without use in extreme electromagnets.

 The purpose of the invention is to increase the productivity and efficiency of the supercharger.

 The goal is achieved due to the fact that in an electromagnetic membrane blower containing at least two cylinder-shaped electromagnets installed in the housing with coils having a through central channel and at least two magnetic membranes clamped in the housing having recesses in the side walls to form working chambers communicated through the central channel, the suction and discharge channels with the suction and discharge lines, in accordance with the described invention, the housing and the electromagnet They are in the form of a torus and has an even number of electromagnets and the same membrane, wherein in the housing between each working chamber and the coil of an electromagnet provided with radial channels for connection to the central channel.

 The drawing schematically shows an electromagnetic membrane supercharger, a section through the centers of the membranes.

 An electromagnetic diaphragm supercharger contains, for example, four electromagnets 1-4 and four magnetically conducting membranes 5-8, located annularly. The supercharger body and electromagnets are made in the form of a torus. Each electromagnet 1-4 contains respectively a coil 9-12 and a housing 13-16, having respectively a through central channel 17-20, two working chambers 21 and 22, 23 and 24, 25 and 26, 27 and 28, made in the form of recesses at its ends, two radial channels 29 and 30, 31 and 32, 33 and 34, 35 and 36, made on the outside of the torus between the working chambers and the coil and connected respectively to the central channel 17-20. In each electromagnet 1-4, the corresponding working chambers 21 and 22, 23 and 24, 25 and 26, 27 and 28 are respectively communicated through the central channel 17-20, radial channels 29 and 30, 31 and 32, 33 and 34, 35 and 36 , discharge and suction valves 37 and 38, 39 and 40, 41 and 42, 43 and 44 with discharge and suction lines 45 and 46, 47 and 48, 49 and 50, 51 and 52.

 Magnetic conductive membranes 5-8 are pinched between the ends of the housings 16 and 13, 13 and 14, 14 and 15, 15 and 16 of the electromagnets 1-4, respectively.

 The electromagnetic membrane blower operates as follows.

 When electromagnets 1 and 3 are turned on (electromagnets 2 and 4 are turned off at the same time), electric current enters the coils 9 and 11. At the same time, electromagnetic forces attract the magnetic membranes 5, 6 and 7, 8, respectively, to the ends of the housings 13 and 15, displacing the working medium from working chambers 21, 22 and 25, 26, respectively, through the central channels 17 and 19, radial channels 29 and 33, discharge valves 37 and 41 into the discharge lines 45 and 49 and sucking the working medium into the working chambers 23, 24 and 27, 28, respectively, through central channels 18 and 20, radial channels 32 and 36, sun ik- valves 40 and 44 of the suction lines 48 and 52. Then, turn off the electromagnets 1 and 3 and include electromagnets 2 and 4, i.e. de-energize the coils 9 and 11 and supply current to the coils 10 and 12. At the same time, electromagnetic forces attract the magnetic conductive membranes 6, 7 and 8, 5, respectively, to the ends of the housings 14 and 16 of the electromagnets 2 and 4, forcing the working medium out of the working chambers 23, 24 and 27, 28, respectively, through the central channels 18 and 20, radial channels 31 and 35, discharge valves 39 and 43 into the discharge lines 47 and 51 and sucking the working medium into the working chambers 21, 22 and 25, 26, respectively, through the central channels 17 and 19, radial channels 30 and 34, suction valves 38 and 42 of the suction magis trawl 46 and 50. Next, the cycle repeats.

 Thus, in the supercharger, all working chambers work for discharge, and all ends of the electromagnets work with membranes.

 The use of the invention increases the productivity and efficiency of the supercharger.

Claims (1)

 ELECTROMAGNETIC MEMBRANE SUPPRESSOR containing at least two cylinder-shaped electromagnets installed in the housing with coils having a through central channel and at least two magnetic membranes pinched in the housing having recesses in the side walls, with the formation of working chambers communicated through a central, suction and discharge channels with suction and discharge lines, characterized in that the housing and electromagnets are made in the form of a torus and have an even equal number of electric ktromagnitov and membranes, where in the housing between each working chamber and the coil of an electromagnet provided with radial channels for connection to the central channel.

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