SU1610067A1 - Electromagnetic pump - Google Patents

Abstract

The invention makes it possible to reduce overall dimensions with increased performance of an electromagnetic pump. In the housing 1 coaxially mounted coils 2, 3 solenoids. In the axial channel 4 of the solenoids there is a piston-core (П-С) 5, in the ends 6, 7 of which are made from two sides central recesses 8, 9 for the response cylindrical projections 10, 11. Projections 10, 11 are made in the end walls 12, 13 Enclosures 1. Sensors 14, 15 of position ПС С 5 are placed in walls 12, 13 and are included in the circuit of the control unit for power supply of coils 2, 3. Projections 10, 11 are placed with two cavities with recesses 8, 9 (П) 16, 17 variable volume communicated with the sensors 14, 15. The piston 18 is installed in the housing 1 between the coils 2, 3 in the middle part of the PS 5 with images Niemi P 19, 20 of variable volume, reported suction and delivery valves 21, 22 and 23, 24 with the source of the pumped medium and by the consumer. The piston 18 is hollow. A16, 17 are communicated through overflow openings 25, 26 made in recesses 8, 9, and A 19, 20. Projections 10, 11 form slit seals 27, 28 with recesses 8, 9, 2C. f-ly, 2 ill.

Description

16,100

This invention relates to a pumping technique.

The aim of the invention is a twinning ha: aryt sizes with a new one. pump performance.

Fig. 1 is a schematic diagram of an electromagnetic pump with two cavities for pumping the medium; Fig. 2 is the same, with four by Q Lost Mn for pumping the medium.

The electromagnetic pump includes a housing 1, in which coils 2 and 3 of solenoids are coaxially mounted, and

The integral suction and gas valves 29, 30, and 3 and J2 communicate with the source of the pumped medium and the consumer, and between the piston-core 5 and the coils 2 and 3 of the solenoids there are annular seals 33 and 34 (FIG. 2).

Electromagnetic pump works as follows.

When the pump of FIG. 1 is executed, the pumping of fluid is carried out using additional cavities 19 and 20 as working chambers.

4 solenoids in the axial channel of 5 solenoids of 5 variable volume,

piston-core 5, at the ends 6 and 7 Under the action of an electromagnetic pitch, the center created by the coils 2 and 3, the saline recesses 8 and 9 for the response cinoids, the piston-core 5 of the co-lindrical protrusions 10 and 11, installed with an additional piston 18, makes innovations in the end walls 12 and 13 20 R-translational motion, housing 1, In the latter, a date is placed at which a periodic chic occurs. 14 and 15 POSITIONS piston-heart- change in volumes of additional nick 5 included in the control unit circuit Steps 19 and 20, suction in them of the transfer of power supply to the coils 2 and 3 of the fluid being pumped through the suction lenoid, 25 valves 21 and 23, and discharge to the costs of the projections JO and L are placed in the end walls J2 and J3 of the housing 1 with formation with notches 8 and 9 piston core 5 of two cavities 16 and 17 of variable volume, communicated with the corresponding 30 gauge seals 27 and 28, position sensors 14 and 15 that arise in the result of the drosse piston core 5,

In case 1 between the coils 2 and 3 of the solenoids, in the middle part of the piston - core 5 an additional piston 18 is installed with the formation of two additional cavities 19 and 20 of variable volume, communicated by means of the corresponding suction and discharge valves 21, 22 and 23, 24 with 0 at the same time the main and additional source of the pumped medium and the sweaty cavities are 16, 17 and 19, 20.

Betel through injection valves 23 and 24.

The core piston 5 at the end of each stroke slows down due to an increase in pressure.

displacing medium. When the pressure reaches a predetermined value, the corresponding sensor 14 or 15 of the position gives a signal for switching the polarity of the coils 2 and 3 of the solenoids.

When the pump of FIG. 2 is executed, the medium is pumped using as working chambers

the piston 18 is hollow,

The main cavities 16 and 17 of variable volume can be communicated through the bypass holes 25 and 26 made in the central recesses 8 and 9 of the piston-core 5 and the corresponding additional cavities 19 and 20 of variable volume, and the projections 10 and 11 are installed in the end walls 12 and . 13 housing I. with the formation with grooves 8 and 9 of the piston-core 5 slotted seals 27 and 28 (Fig, 1).

1, Electromagnetic pump containing a housing in which coils of solenoids are coaxially mounted, a piston-core located in the axial channel of the solenoids, at the ends of which 5 5Q central recesses for reciprocal cylindrical projections installed in the end walls of the housing are filled, and sensors for the position of the piston of the core, placed in the face

In addition, the main cavities 16 and the walls of the housing and the variable volume connected to the circuit 17 can be isotopulated by the electric power supply unit from the additional cavities 19 and 20 and by means of solenoids installed in the cisterns, while the projections in the end walls of the housing are placed with the formation of piston-central protrusions 10 and 11 with grooves is supplemented. Under the action of the electromagnetic field created by the coils 2 and 3 of the solenoids, the piston-core 5 together with the additional piston 18 makes P-translational movements At which the periodic changes in the volume of additional Lost 19 and 20, are transferred to the absorption kachivaemoy medium through the suction valves 21 and 23 and to injection potrepeni in slot 27 and seal 28, which occurs v.rezultate drosse-

Betel through injection valves 23 and 24.

The core piston 5 at the end of each stroke slows down due to an increase in pressure.

penalties in the gap seals 27 and 28, which occurs in the result of the drossea

at the same time, the main and additional cavities 16, 17 and 19, 20.

displacing medium. When the pressure reaches a predetermined value, the corresponding sensor 14 or 15 of the position gives a signal for switching the polarity of the coils 2 and 3 of the solenoids.

When the pump of FIG. 2 is executed, the medium is pumped using as working chambers

Claims (3)

Formula Eteni 1, Electromagnetic pump, comprising a housing in which coils of solenoids are coaxially mounted, a piston-core located in the axial channel of the solenoids, at the ends of which central recesses for reciprocal cylindrical projections installed in the end walls of the housing and sensors the position of the piston of the core, placed in the end the walls of the body and included in the circuit of the control unit the walls of the body and included in the circuit of the control unit solenoid hubs, while the protrusions in the end walls of the housing are placed with the formation of the piston-heart with grooves51 The nickname of two cavities of variable volume communicated with the corresponding sensors of the position of the piston-core, different from that in order to reduce overall dimensions with increased pump performance, the latter is equipped with an additional piston installed in the housing between the coils of the solenoids in the middle part of the piston core and forming two additional cavities of variable volume, communicated by means of appropriate suction and discharge valves with a source of pumped medium and a consumer, with than the additional piston is made hollow, 2. The pump pop. 1, which differs from the fact that the main cavities of variable volume are communicated through you 100676 The bypass holes filled in the central recesses of the piston-core with corresponding additional cavities of variable volume, and the protrusions are installed in the end walls of the housing with the formation of slot-hole seals with the notches of the core piston. 3. Pump pop. 1, which differs from the fact that the main cavities of variable volume are isolated from additional cavities and, with the help of additional suction and discharge valves installed in cylindrical protrusions, communicate with the source of the pumped medium and the consumer. - The cores and the coils of the solenoids are additionally arranged with annular seals. 20