CN210178995U - Parallel electromagnetic valve with two-way water outlet - Google Patents

Abstract

A parallel electromagnetic valve with bidirectional water outlet comprises a valve seat, a valve block and an electromagnetic driving mechanism, wherein the valve seat is provided with a water inlet, a first water storage cavity, a second water storage cavity, a first communicating channel, a second communicating channel, a first water outlet and a second water outlet; one end of each of the first water storage chamber and the second water storage chamber is communicated with the water inlet, the other end of each of the first water storage chamber and the second water storage chamber is communicated with the first communicating channel and the second communicating channel, and the first water outlet and the second water outlet are communicated with the first communicating channel and the second communicating channel respectively; the valve block is provided with a first valve block which is arranged in the first water storage cavity and is used for conducting or closing the first communication channel, and a second valve block which is arranged in the second water storage cavity and is used for conducting or closing the second communication channel; the electromagnetic driving mechanism is respectively connected with and controls the first valve block and the second valve block to reciprocate in a conducting or closing state; with the help of the structure, the utility model discloses parallelly connected solenoid valve has simplified the structure of two solenoid valves, small and mounting structure is simpler, it is more convenient to use.

Description

Parallel electromagnetic valve with two-way water outlet

Technical Field

The utility model relates to a solenoid valve especially indicates a parallelly connected solenoid valve of two-way play water.

Background

The existing solenoid valve is an electromagnetic control industrial device and is an automatic basic element for controlling fluid; there are many kinds of electromagnetic valves, and different electromagnetic valves play roles in different positions of a control system, and the most common electromagnetic valves are a one-way valve, a safety valve, a direction control valve, a speed regulating valve and the like; the one-way electromagnetic valve can only realize one-way circulation and cut-off due to the structural limitation; when bidirectional circulation or cutoff is needed, two one-way electromagnetic valves need to be installed in series to realize bidirectional circulation; each one-way electromagnetic valve is of an independent structure, so that the two one-way electromagnetic valves are separated and independently work when working, and are separately connected with a water inlet pipeline and a water outlet pipeline when fluid is communicated, and the two one-way electromagnetic valves are connected in series and have larger volume and large occupied space when being arranged together; therefore, the two one-way electromagnetic valves are complex in installation structure and high in cost; and has large volume, large occupied space and inconvenient use.

In view of this, the present inventors have made extensive conceptions for various defects and inconveniences caused by the incomplete structural design of the solenoid valve, and have developed and designed the present application by actively researching, improving and trying on the defects and inconveniences.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a parallelly connected solenoid valve of two-way play water, the structure of having simplified two solenoid valves, small, and mounting structure is simpler, it is more convenient to use.

In order to achieve the above purpose, the solution of the present invention is:

a parallel electromagnetic valve with bidirectional water outlet comprises a valve seat, a valve block and an electromagnetic driving mechanism, wherein the valve seat is provided with a water inlet, a first water storage cavity, a second water storage cavity, a first communicating channel, a second communicating channel, a first water outlet and a second water outlet; one end of each of the first water storage cavity and the second water storage cavity is communicated with the water inlet, the other end of each of the first water storage cavity and the second water storage cavity is communicated with the first communicating channel and the second communicating channel, and the first water outlet and the second water outlet are communicated with the first communicating channel and the second communicating channel respectively; the valve block is provided with a first valve block which is arranged in the first water storage cavity and is used for conducting or closing the first communication channel, and a second valve block which is arranged in the second water storage cavity and is used for conducting or closing the second communication channel; the electromagnetic driving mechanism is respectively connected with and controls the first valve block and the second valve block to reciprocate in a conducting or closing state.

The orientation of the first water outlet is in the horizontal direction, and the orientation of the second water outlet is in the vertical direction.

The first water storage cavity is an annular cavity which surrounds the outer ring of the first communication channel; the second water storage cavity is an annular cavity which surrounds the outer ring of the second communication channel.

The first valve block simultaneously conducts or closes the first communication channel and one end of the first water storage cavity which is communicated with each other; the second valve block simultaneously conducts or closes one end of the second communication channel communicated with the second water storage chamber.

The first water storage cavity is provided with a first yielding cavity for the first valve block to move at one end communicated with the first communicating channel, and the second water storage cavity is provided with a second yielding cavity for one end of the second valve block at one end communicated with the second communicating channel.

The electromagnetic driving mechanism is provided with a first electromagnetic driving mechanism and a second electromagnetic driving mechanism which respectively control the first valve block and the second valve block to move; the aperture of the water inlet is 13.3mm, and the distance between the first electromagnetic driving mechanism and the second electromagnetic driving mechanism is 32 mm.

And a first communicating hole communicated with the first water storage cavity and a second communicating hole communicated with the second water storage cavity are symmetrically arranged on two sides of the water inlet.

The water inlet is internally provided with a guide block, the guide block is provided with two symmetrical arc-shaped sheets which are arranged at intervals, the space between the two sides of the two arc-shaped sheets forms an opening, and the orientation of the opening and the orientation of the first communicating hole and the second communicating hole are arranged in a staggered manner.

The orientation of the first communicating hole and the orientation of the second communicating hole are in the horizontal direction, and the orientation of the opening is in the vertical direction.

A water inlet joint is arranged in the water inlet and is provided with a joint, a first sealing ring, a supporting seat and a second sealing ring; a first through hole close to the water inlet end of the water inlet and a second through hole far away from the water inlet end of the water inlet are arranged in the supporting seat, the aperture of the first through hole is larger than that of the second through hole, and a necking section is arranged on the outer wall of the second through hole; the first sealing ring is arranged in the first through hole, and the second sealing ring is sleeved on the necking section; the joint is tightly arranged at the water inlet end of the water inlet.

After the structure is adopted, the utility model discloses parallelly connected solenoid valve sets up a valve seat, and this valve seat is provided with first water storage cavity, the second water storage cavity that communicates with the water inlet respectively, connects a water inlet pipe way at the water inlet and can supply water for first water storage cavity, second water storage cavity respectively, and through electromagnetic drive mechanism independent control first water storage cavity, second water storage cavity respectively with first intercommunication passageway, second intercommunication passageway switch on or close, realize first delivery port or second delivery port go out water work; the parallel electromagnetic valve of the utility model only needs to be provided with one valve seat and connected with one water inlet pipeline, thereby not only simplifying the structure of assembling two electromagnetic valves together, effectively reducing the volume of the electromagnetic valve, but also being simpler in installation structure and more convenient to use; when the water storage device works, the external water pipe is inserted into the water inlet, and water flow enters the water inlet, flows to the first water storage cavity and the second water storage cavity and is stored in the first water storage cavity and the second water storage cavity; when water is required to be discharged from the first water outlet, after the electromagnetic driving mechanism drives the first valve block to conduct the first communicating channel, water in the first water storage cavity enters the first communicating channel and is discharged from the first water outlet; when water is required to be discharged from the second water outlet, after the electromagnetic driving mechanism drives the second valve block to conduct the second communicating channel, water in the second water storage cavity enters the second communicating channel and is discharged from the second water outlet; when water is required to be discharged from the first water outlet and the second water outlet, the electromagnetic driving mechanism drives the first valve block and the second valve block to respectively conduct the first communicating channel and the second communicating channel, and then water in the first water storage cavity and the second water storage cavity respectively enters the first communicating channel and the second communicating channel and is discharged from the first water outlet and the second water outlet; the use is more convenient.

Drawings

Fig. 1 is a schematic structural view of the electromagnetic valve of the present invention;

FIG. 2 is an exploded view of the valve body and the water inlet connector of the solenoid valve of the present invention;

FIG. 3 is a schematic cross-sectional view of the valve body of FIG. 1 in the direction A-A;

fig. 4 is a schematic cross-sectional view in the direction of B-B of the valve body in fig. 1.

Description of the symbols

Valve seat 1 water inlet 11

First water storage chamber 12 and second water storage chamber 13

First communication passage 14 and second communication passage 15

First water outlet 16 and second water outlet 17

First yielding chamber 18 and second yielding chamber 19

First electromagnetic drive mechanism 21 and second electromagnetic drive mechanism 22

First communication hole 111 and second communication hole 112

Arc-shaped piece 114 of guide block 113

Opening 115 water inlet joint 3

First seal ring 32 of joint 31

Support seat 33 and second seal ring 34

First via 331 and second via 332

A necked section 333.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

Referring to fig. 1 to 4, the present invention discloses a parallel solenoid valve with two-way water outlet, which includes a valve seat 1, a valve block and an electromagnetic driving mechanism, wherein the valve seat 1 is provided with a water inlet 11, a first water storage chamber 12, a second water storage chamber 13, a first communicating channel 14, a second communicating channel 15, a first water outlet 16 and a second water outlet 17; one end of each of the first water storage chamber 12 and the second water storage chamber 13 is communicated with the water inlet 11, the other end of each of the first water storage chamber and the second water storage chamber is communicated with the first communicating channel 14 and the second communicating channel 15, and the first water outlet 16 and the second water outlet 17 are communicated with the first communicating channel 14 and the second communicating channel 15 respectively; the valve block is provided with a first valve block which is arranged in the first water storage cavity 12 and is used for conducting or closing the first communication channel 14, and a second valve block which is arranged in the second water storage cavity 13 and is used for conducting or closing the second communication channel 15; the electromagnetic driving mechanism is respectively connected with and controls the first valve block and the second valve block to reciprocate in a conducting or closing state.

The utility model discloses parallelly connected solenoid valve sets up a valve seat 1, and this valve seat 1 is provided with first water storage cavity 12, the second water storage cavity 13 that communicates with water inlet 11 respectively, connects a water intake pipe at water inlet 11 and can supply water for first water storage cavity 12, the second water storage cavity 13 respectively, and through electromagnetic drive mechanism single control first water storage cavity 12, the second water storage cavity 13 respectively with first intercommunication passageway 14, the second intercommunication passageway 15 switches on or closes, realize first delivery port 16 or the work of whether second delivery port 17 goes out water; the parallel electromagnetic valve of the utility model only needs to be provided with one valve seat 1 and connected with one water inlet pipeline, thereby not only simplifying the structure of assembling two electromagnetic valves together, effectively reducing the volume of the electromagnetic valve, but also being simpler in installation structure and more convenient to use; when the water storage device works, an external water pipe is inserted into the water inlet 11, water flows into the water inlet 11, flows to the first water storage chamber 12 and the second water storage chamber 13 and is stored in the first water storage chamber 12 and the second water storage chamber 13; when water is required to be discharged from the first water outlet 16, after the electromagnetic driving mechanism drives the first valve block to conduct the first communication channel 14, water in the first water storage chamber 12 enters the first communication channel 14 and is discharged from the first water outlet 16; when water is required to be discharged from the second water outlet 17, after the electromagnetic driving mechanism drives the second valve block to conduct the second communicating channel 15, water in the second water storage cavity 13 enters the second communicating channel 15 and is discharged from the second water outlet 17; when water is required to be discharged from the first water outlet 16 and the second water outlet 17, the electromagnetic driving mechanism drives the first valve block and the second valve block to respectively conduct the first communicating channel 14 and the second communicating channel 15, and then water in the first water storage cavity 12 and the second water storage cavity 13 respectively enters the first communicating channel 14 and the second communicating channel 15 and is discharged from the first water outlet 16 and the second water outlet 17; the use is more convenient.

The orientation of the first water outlet 16 of the utility model is horizontal, and the orientation of the second water outlet 17 is vertical; the first water outlet 16 and the second water outlet 17 are different in orientation, so that the use is more flexible; moreover, the embedded quick connection assemblies can be assembled on the first water outlet 16 and the second water outlet 17 to facilitate the assembly of the pipeline, and the embedded quick connection assemblies can rotate to facilitate the rotation of the pipeline.

The first water storage chamber 12 of the present invention is an annular chamber surrounding the outer ring of the first communicating channel 14; the second water storage chamber 13 is an annular chamber surrounding the outer ring of the second communication passage 15.

The first valve block of the utility model simultaneously switches on or off the first communication channel 14 and the end of the first water storage chamber 12 which are communicated with each other; the second valve block simultaneously conducts or closes the end of the second communication channel 15 communicated with the second water storage chamber 13; the electromagnetic driving mechanism is further separated from the first water storage chamber 12 and the second water storage chamber 13, and the electromagnetic driving mechanism is protected.

The first water storage cavity 12 of the utility model is provided with a first abdicating cavity 18 for the movement of the first valve block at one end communicated with the first communicating channel 14, and the second water storage cavity 13 is provided with a second abdicating cavity 19 for one end of the second valve block at one end communicated with the second communicating channel 15; the first valve block and the second valve block are convenient to move.

The electromagnetic driving mechanism of the utility model is provided with a first electromagnetic driving mechanism 21 and a second electromagnetic driving mechanism 22 which respectively control the movement of a first valve block and a second valve block; the aperture of the water inlet 11 is 13.3mm, and the distance between the first electromagnetic driving mechanism 21 and the second electromagnetic driving mechanism 22 is 32 mm; the water inlet 11 not only can be quickly assembled into a branch pipeline 2, but also can be communicated with the first water storage chamber 12 and the second water storage chamber 13, so that the structure is more compact, and the volume of the electromagnetic valve is effectively reduced.

The utility model discloses a water inlet 11 bilateral symmetry be provided with first intercommunication hole 111 that water chamber 12 communicates and water chamber 13's second intercommunication hole 112 with the second.

The utility model discloses a be provided with a guide block 113 in water inlet 11, guide block 113 has two symmetrical interval arrangement's arc piece 114, and the interval between the both sides of two arc pieces 114 forms opening 115, the orientation of opening 115 and the orientation of first intercommunicating pore 111, second intercommunicating pore 112 are dislocation arrangement; when the water inlet 11 receives water flow, the water flow flows to the guide block 113 and flows out of the guide block 113 from the opening 115, and finally flows into the first water storage chamber 12 and the second water storage chamber 13 through the first communication hole 111 and the second communication hole 112; the guide block 113 can change the direction of the inflow water, so as to prevent the water from directly rushing into the first water storage chamber 12 and the second water storage chamber 13.

The orientation of the first communicating hole 111 and the second communicating hole 112 is horizontal, and the orientation of the opening 115 is vertical.

The water inlet 11 of the utility model is internally provided with a water inlet joint 3, and the water inlet joint 3 is provided with a joint 31, a first sealing ring 32, a supporting seat 33 and a second sealing ring 34; a first through hole 331 close to the water inlet end of the water inlet 11 and a second through hole 332 far away from the water inlet end of the water inlet 11 are arranged in the supporting seat 33, the aperture of the first through hole 331 is larger than that of the second through hole 332, and a neck section 333 is arranged on the outer wall of the second through hole 332; the first sealing ring 32 is arranged in the first through hole 331, and the second sealing ring 34 is sleeved on the neck part 333; the joint 31 is tightly arranged at the water inlet end of the water inlet 11; the water inlet joint can be a 2-branch pipe embedded water inlet joint, an embedded water inlet joint is directly arranged in the water inlet 11, an external water pipe can be directly inserted, and the water inlet joint is convenient to insert; the first sealing ring 32 and the second sealing ring 34 arranged on the supporting seat 33 can respectively seal the external water pipe and the water inlet; avoiding water leakage.

The above embodiments and drawings do not limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be considered as departing from the scope of the present invention.

Claims (10)

1. The utility model provides a parallelly connected solenoid valve of two-way play water which characterized in that: the electromagnetic water storage valve comprises a valve seat, a valve block and an electromagnetic driving mechanism, wherein the valve seat is provided with a water inlet, a first water storage cavity, a second water storage cavity, a first communicating channel, a second communicating channel, a first water outlet and a second water outlet; one end of each of the first water storage cavity and the second water storage cavity is communicated with the water inlet, the other end of each of the first water storage cavity and the second water storage cavity is communicated with the first communicating channel and the second communicating channel, and the first water outlet and the second water outlet are communicated with the first communicating channel and the second communicating channel respectively; the valve block is provided with a first valve block which is arranged in the first water storage cavity and is used for conducting or closing the first communication channel, and a second valve block which is arranged in the second water storage cavity and is used for conducting or closing the second communication channel; the electromagnetic driving mechanism is respectively connected with and controls the first valve block and the second valve block to reciprocate in a conducting or closing state.

2. The parallel electromagnetic valve for bidirectional water outlet of claim 1, wherein: the orientation of the first water outlet is in the horizontal direction, and the orientation of the second water outlet is in the vertical direction.

3. The parallel electromagnetic valve for bidirectional water outlet of claim 1, wherein: the first water storage cavity is an annular cavity which surrounds the outer ring of the first communication channel; the second water storage cavity is an annular cavity which surrounds the outer ring of the second communication channel.

4. The parallel electromagnetic valve for bidirectional water outlet of claim 3, wherein: the first valve block simultaneously conducts or closes the first communication channel and one end of the first water storage cavity which is communicated with each other; the second valve block simultaneously conducts or closes one end of the second communication channel communicated with the second water storage chamber.

5. The parallel electromagnetic valve for bidirectional water outlet of claim 4, wherein: the first water storage cavity is provided with a first yielding cavity for the first valve block to move at one end communicated with the first communicating channel, and the second water storage cavity is provided with a second yielding cavity for one end of the second valve block at one end communicated with the second communicating channel.

6. The parallel electromagnetic valve for bidirectional water outlet of claim 1, wherein: the electromagnetic driving mechanism is provided with a first electromagnetic driving mechanism and a second electromagnetic driving mechanism which respectively control the first valve block and the second valve block to move; the aperture of the water inlet is 13.3mm, and the distance between the first electromagnetic driving mechanism and the second electromagnetic driving mechanism is 32 mm.

7. The parallel electromagnetic valve for bidirectional water outlet of claim 1, wherein: and a first communicating hole communicated with the first water storage cavity and a second communicating hole communicated with the second water storage cavity are symmetrically arranged on two sides of the water inlet.

8. The parallel electromagnetic valve for bidirectional water outlet of claim 7, wherein: the water inlet is internally provided with a guide block, the guide block is provided with two symmetrical arc-shaped sheets which are arranged at intervals, the space between the two sides of the two arc-shaped sheets forms an opening, and the orientation of the opening and the orientation of the first communicating hole and the second communicating hole are arranged in a staggered manner.

9. The parallel electromagnetic valve for bidirectional water outlet of claim 8, wherein: the orientation of the first communicating hole and the orientation of the second communicating hole are in the horizontal direction, and the orientation of the opening is in the vertical direction.

10. The parallel electromagnetic valve for bidirectional water outlet of claim 1, wherein: a water inlet joint is arranged in the water inlet and is provided with a joint, a first sealing ring, a supporting seat and a second sealing ring; a first through hole close to the water inlet end of the water inlet and a second through hole far away from the water inlet end of the water inlet are arranged in the supporting seat, the aperture of the first through hole is larger than that of the second through hole, and a necking section is arranged on the outer wall of the second through hole; the first sealing ring is arranged in the first through hole, and the second sealing ring is sleeved on the necking section; the joint is tightly arranged at the water inlet end of the water inlet.

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