RU2046221C1 - Solenoid vibration pump - Google Patents

Abstract

FIELD: lifting fluid. SUBSTANCE: rod of the solenoid vibrator is coupled with the piston made up as a vibrating fin. The vibrator is mounted inside the housing through a shock-absorber. Triangle openings are made at the bottom part of the base. The openings are overlapped with a valve. The yoke of the vibrator is positioned at the top part of the housing and made up as [ shaped core assembled of separate steel pressed plates and two coils fitted on each branch of the core. Each coil consists of plastic frame and winding with leads. The coil windings are interconnected in series. Aluminum foil is wound on each coil winding made up as two sections positioned one above the other and separated with an insulating baffle. Plates made of a copper foil are connected to the winding leads. Flexible copper wires are coupled with the copper foil. The windings have the same number of turns and interconnected in series. EFFECT: enhanced efficiency. 6 dwg

Description

 The invention relates to electrical engineering and can be used for lifting non-aggressive fluids, in particular water, from wells, wells and other containers, as well as for pumping non-aggressive fluids from one tank to another.

 Known electromagnetic vibration pump consisting of a yoke, a vibrator and a base, in the lower part of which holes are made, blocked by a valve, while the output tubular channel is made in the yoke. The yoke is located in the upper part of the pump casing and consists of a U-shaped core assembled from separate steel plates, two coils mounted on each core branch, each coil consisting of a plastic frame and a winding wound with a copper wire, the coil windings are interconnected in series - according to.

 The main disadvantages of the known electromagnetic vibration pump are a relatively large mass, low reliability, high manufacturing costs.

 The invention is aimed at reducing the weight of the pump while maintaining its geometric dimensions and the main output parameters, increasing reliability and increasing the service life, as well as reducing production costs.

 The specified technical result is achieved by the fact that the coil winding is wound with aluminum foil, made in the form of two sections located one above the other and separated by an insulating partition, and copper foil plates are connected to the terminals of the aluminum windings of the sections, to which flexible copper leads, windings are soldered sections have the same number of turns and are interconnected in series according to.

 In FIG. 1 and 2 depict an electromagnetic vibration pump in section in two projections; figure 3, 4 and 5 shows a coil of an electromagnetic vibration pump, in section; 6 shows a connection diagram of the windings of the coil sections and the windings of the coils of the electromagnetic vibration pump.

The electromagnetic vibration pump contains an electromagnetic vibrator 1, the rod 2 of which is connected to a piston 3 of a type of vibrating fin, mounted in the housing 4 with a shock absorber 5, a yoke 6 located in the upper part of the housing 4 and made in the form of a U-shaped core 7 assembled from separate stamped steel plates and two coils 8, 9, mounted on each branch of the core 7, and each coil consists of a plastic frame 10 and a winding 11 with leads 12, 13, the coil windings are interconnected in series, according to the base, in the lower part of which there are holes 14, overlapped by the valve 15. The winding 11 of each coil is wound with aluminum foil 16 and made in the form of two sections 17, 18 located one above the other, separated by an insulating partition 19. To the conclusions of the aluminum windings of the sections 17 18, copper foil plates 20 are connected to which flexible copper leads 21 are connected. The windings of sections 17, 18 of each coil 8, 9 have the same number of turns W _c1 W _c2 W _c3 W _c4 and are connected together, like the coil windings, in series - according to. The internal cavity between the upper part of the housing 4 and the core 7 with coils 8, 9 is filled with a compound 22. An output channel 23 is made in the upper part of the housing.

 An electromagnetic vibration pump operates as follows.

 The liquid (water) is supplied from the pressure chamber, limited by the valve 15 and the piston 3 through the output channel 23 to the external line during the reciprocating movement of the vibrator 1 and the associated piston 3, resulting from the operation of the electromagnetic drive.

 When the vibrator moves upward, a vacuum is created in the pressure chamber due to the bending of the ends of the elastic piston 3 and their attachment to the wall of the housing 4 at the bend of the wall, while the valve rises, openings 14 in the lower part of the housing 4 open and liquid (water) enters the pressure chamber .

 When the vibrator moves down, the ends of the elastic piston 3 are immersed in the pressure chamber, the openings 14 are closed by the valve 15 and the liquid (water) is displaced from the pressure chamber and then through the output channel 23 enters the external line.

 Coils with sectioned windings can reduce inter-turn voltage, the coil wound with aluminum foil has a small mass, the connection of aluminum winding leads with copper plates and copper leads can improve the reliability of the contact connection and increase the life of the pump.

Claims (1)

 ELECTROMAGNETIC VIBRATION PUMP, containing an electromagnetic vibrator, the rod of which is connected to a vibrating fin type piston and installed in the housing with a shock absorber, a yoke located in the upper part of the housing and made in the form of a U-shaped core assembled from separate stamped steel plates and two coils, mounted on each branch of the core, each coil consists of a plastic frame and a winding with leads, the coil windings are interconnected in series according to the base in the lower part holes covered by a valve are made, characterized in that the winding of each coil is wound with aluminum foil, made in the form of two sections located one above the other and separated by an insulating partition, copper foil plates are connected to the terminals of the aluminum windings of the sections, to which flexible copper terminals, section windings have the same number of turns and are interconnected in series according to.

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