CN215172490U - Electromagnetic valve integrated assembly, structure and electric appliance - Google Patents

Abstract

This application belongs to valve technical field, concretely relates to solenoid valve integrated component, structure and electrical apparatus, and solenoid valve integrated component includes: the flow channel plate comprises a flow channel plate body, a first electromagnetic valve base and a second electromagnetic valve base, wherein a first through hole, a second through hole and a third through hole are formed in the flow channel plate body, and the first through hole, the second through hole and the third through hole are arranged in a non-collinear manner; the electromagnetic valve comprises a first electromagnetic valve base and a second electromagnetic valve base, wherein the first electromagnetic valve base is used for fixing an electromagnetic valve body, and a first water channel, a second water channel and a first air channel are arranged in the first electromagnetic valve base; a third water channel, a fourth water channel and a second air channel are arranged in the second electromagnetic valve base; the first water channel is communicated with the first through hole, the third water channel is communicated with the second through hole, and the second water channel is communicated with the third through hole. The electromagnetic valve integrated assembly is simple in structure, small in occupied size and convenient to install and detach.

Description

Electromagnetic valve integrated assembly, structure and electric appliance

Technical Field

The application belongs to the technical field of valves, and particularly relates to an electromagnetic valve integrated assembly, a structure and an electric appliance.

Background

The solenoid valve can be used for controlling the switching and switching in water route, domestic appliance can control the switching and switching in a plurality of water routes through the solenoid valve like the purifier and wash equipment such as spray, along with the increase in water route, the quantity of solenoid valve also increases, and the hose connection of solenoid valve and pipeline is in the same place between a plurality of solenoid valves and between the solenoid valve, can cause the structure complicacy, the assembly is loaded down with trivial details, occupation space is great, connect the condition of mistake easily appearing, and later maintenance time cost is higher.

Disclosure of Invention

The technical problem that this application mainly solved provides a small, compact structure, the solenoid valve integrated component, structure and the electrical apparatus of being convenient for installation, being convenient for maintenance.

In order to solve the technical problem, the application adopts a technical scheme that: provided is a solenoid valve integrated component, comprising: the flow channel plate comprises a flow channel plate body, a first electromagnetic valve base and a second electromagnetic valve base, wherein a first through hole, a second through hole and a third through hole are formed in the flow channel plate body, and the first through hole, the second through hole and the third through hole are arranged in a non-collinear manner;

the electromagnetic valve comprises a first electromagnetic valve base and a second electromagnetic valve base, wherein the first electromagnetic valve base is used for fixing an electromagnetic valve body, and a first water channel, a second water channel and a first air channel are arranged in the first electromagnetic valve base; a third water channel, a fourth water channel and a second air channel are arranged in the second electromagnetic valve base; the first water channel is communicated with the first through hole, the third water channel is communicated with the second through hole, and the second water channel is communicated with the third through hole.

Wherein, first solenoid valve base and second solenoid valve base set up in the relative both sides of runner plate body.

The electromagnetic valve integrated assembly further comprises a fourth port, and the fourth port is communicated with the fourth water channel; one of the first through opening and the third through opening is a water inlet, and the other one of the first through opening and the third through opening is a water outlet; one of the second port and the fourth port is a water inlet, and the other is a water outlet.

And the fourth water channel is communicated with the third port, and the first air channel is communicated with the second air channel.

The third through opening is a water inlet, and the first through opening and the second through opening are water outlets; or the third port is a water outlet, and the first port and the second port are water inlets.

Wherein, solenoid valve integrated component further includes: the third solenoid valve base and the fourth solenoid valve base are arranged on two opposite sides of the runner plate body; the third electromagnetic valve base and the first electromagnetic valve base are arranged on the same side; the fourth electromagnetic valve base and the second electromagnetic valve base are arranged on the same side; a fifth water channel, a sixth water channel and a third air channel are arranged in the third electromagnetic valve base, and a seventh water channel, an eighth water channel and a fourth air channel are arranged in the fourth electromagnetic valve base;

a fifth port and a sixth port are further formed on the flow channel plate body, wherein the third port, the fifth port and the sixth port are arranged in a non-collinear manner;

the third through hole is further communicated with a fifth water channel and a seventh water channel, the fifth through hole is communicated with a sixth water channel, and the sixth through hole is communicated with an eighth water channel;

the first through opening, the second through opening, the fifth through opening and the sixth through opening are water outlets; or the third port is a water outlet, and the first port, the second port, the fifth port and the sixth port are water inlets.

The electromagnetic valve integrated assembly further comprises a fifth electromagnetic valve base, the first electromagnetic valve base and the fifth electromagnetic valve base are arranged on two sides of the runner plate body, and a ninth water channel, a tenth water channel and a fifth air channel are arranged in the fifth electromagnetic valve base;

a seventh through hole is formed in the flow channel plate body, and the third through hole is arranged in the area between the seventh through hole and the first through hole;

the third port is further communicated with the ninth water channel, and the seventh port is communicated with the tenth water channel;

the third through opening is a water inlet, and the first through opening, the second through opening and the seventh through opening are water outlets; or the third port is a water outlet, and the first port, the second port and the seventh port are water inlets.

Wherein, the runner plate body further comprises a one-way valve which is arranged at the water inlet and/or the water outlet.

The electromagnetic valve integrated structure comprises the electromagnetic valve integrated assembly and at least two electromagnetic valve bodies, wherein the electromagnetic valve bodies are arranged in the same number and in one-to-one correspondence with the electromagnetic valve bases of the electromagnetic valve integrated assembly.

The application also comprises a third technical scheme, and the electric appliance comprises the electromagnetic valve integrated structure, and the electromagnetic valve integrated structure is used for controlling the inflow and outflow of liquid.

The beneficial effect of this application is: be different from prior art's condition, the solenoid valve integrated component of this application embodiment, the runner plate body sets up two at least solenoid valve bases and three at least openings, can be integrated in a runner plate body with the used runner plate body of two or more solenoid valves, make a runner plate body can supply the integration in an organic whole of two or more solenoid valves, and simple structure, the volume that occupies is less, be convenient for installation and dismantlement, its complex pipeline circuit arranges clearly, the maintenance in the later stage of being convenient for, including three at least water passage in this application embodiment, can realize the rivers of a plurality of water passage and get control through setting up three at least water passage.

Drawings

FIG. 1 is a schematic cross-sectional view of an embodiment of an integrated solenoid valve structure of the present application;

FIG. 2 is an angled schematic view of FIG. 1;

FIG. 3 is a rear view of the structure of FIG. 1;

FIG. 4 is a schematic structural diagram of yet another embodiment of the solenoid valve integrated structure of the present application;

FIG. 5 is a rear view of the structure of FIG. 4;

FIG. 6 is a schematic cross-sectional view of another embodiment of the solenoid valve integrated structure of the present application;

FIG. 7 is a schematic perspective view of FIG. 6;

FIG. 8 is a rear view of the structure of FIG. 6;

FIG. 9 is a schematic elevation view of the structure of FIG. 6;

FIG. 10 is a schematic left side view of the structure of FIG. 9;

FIG. 11 is a schematic structural view of yet another embodiment of a solenoid valve integrated structure of the present application;

FIG. 12 is a schematic elevation view of the structure of FIG. 11;

fig. 13 is a schematic structural view of yet another embodiment of the solenoid valve integrated structure of the present application.

Detailed Description

In order to make the purpose, technical solution and effect of the present application clearer and clearer, the present application is further described in detail below with reference to the accompanying drawings and examples.

As shown in fig. 1, 2 and 3, the present embodiment provides a solenoid valve integrated assembly, including: a flow channel plate body 100, the flow channel plate body 100 having a first port 110, a second port 120, a third port 130, a first solenoid valve base 210 and a second solenoid valve base 220 formed thereon, wherein,

the first port 110, the second port 120 and the third port 130 are arranged non-collinear; the first solenoid valve base 210 and the second solenoid valve base 220 are used for fixing the solenoid valve body 400, wherein a first water passage 211, a second water passage 212 and a first air passage 213 are arranged in the first solenoid valve base 210; a third water passage 221, a fourth water passage 222 and a second air passage 223 are arranged in the second solenoid valve base 220; the first water passage 211 is communicated with the first port 110, the third water passage 221 is communicated with the second port 120, and the second water passage 212 is communicated with the third port 130.

In the solenoid valve integrated assembly according to the embodiment of the present application, the flow channel plate body 100 is provided with at least two solenoid valve bases and at least three through openings, and the flow channel plate body 100 for more than two solenoid valves can be integrated into one flow channel plate body 100, so that one flow channel plate body 100 can be integrated with more than two solenoid valves; three opening integration in the coplanar, the installation of the flow channel plate body 100 of being convenient for, and simple structure, the volume that occupies is less, the installation and the dismantlement of being convenient for, and its complex pipeline circuit arranges clearly, and the maintenance in the later stage of being convenient for includes at least three water passageway in this application embodiment, can control the rivers of a plurality of water passageways through setting up at least three water passageway.

Specifically, in the embodiment of the present application, the first through opening 110 and the second through opening 120 are sequentially arranged along the first direction D1, and the third through opening 130 is disposed at one side of the first through opening 110 and the second through opening 120 along the second direction D2, wherein the first direction D1 intersects the second direction D2.

In the embodiment of the present application, the solenoid valve base and the flow channel plate body 100 are an integral structure.

In the embodiment of the present application, the first direction D1 intersects the second direction D2, i.e., the included angle formed between the first direction D1 and the second direction D2 is an acute angle, an obtuse angle or a right angle. In the embodiment of the present application, the first direction D1 is perpendicular to the second direction D2, but in other embodiments, an included angle formed between the direction D1 and the second direction D2 may be an acute angle or an obtuse angle.

The flow channel plate body 100 in the embodiment of the present application is configured to be matched with the solenoid valve body 400, and the solenoid valve base is configured to fix the solenoid valve body 400; in the embodiment of the present application, the solenoid valve body 400 includes a solenoid coil 410, a solenoid valve core 420, and a sealing member (not shown), in which the solenoid coil 410 is used to drive the solenoid valve core 420 to move towards one side of two water channels and air channels of the solenoid valve base when being powered on, so that the solenoid valve core 420 and the sealing member seal the water channels and the air channels, and a cavity pressure formed by the solenoid valve core 420 and the channels and the air channels is less than a pressure in the air channels; when the power is off, because the pressure in the air channel is higher than the pressure of a cavity formed by the solenoid valve core 420 and the channel and the air channel, the sealing element and the solenoid valve core 420 are far away from the two water channels and the air channel, so that the two water channels of the same solenoid valve base are communicated.

In the embodiment of the present invention, the opening directions of the first through opening 110, the second through opening 120, and the third through opening 130 may be all the same, or may be partially the same, for example, in the embodiment of the present invention, the opening directions of the first through opening 110, the second through opening 120, and the third through opening 130 are all the same, and are all perpendicular to the plane where the flow channel plate body 100 is located. In other embodiments, the opening directions of some of the ports may be the same, and the opening directions of other ports may be opposite, for example, the first port 110 and the second port 120 may be the same and perpendicular to the inside of the flow channel plate body 100, and the third port 130 may be perpendicular to the outside of the flow channel plate body 100.

In the embodiment of the present application, the first solenoid valve base 210 and the second solenoid valve base 220 are disposed on opposite sides of the flow channel plate body 100. The flow channel plate body 100 in the embodiment of the present application is compact in structure, and the formed electromagnetic valve integrated structure is also more compact, and the occupied volume is smaller. Specifically, in the embodiment of the present application, the first solenoid valve base 210 and the second solenoid valve base 220 are disposed on opposite sides of the flow field plate body 100 along the first direction D1.

In an embodiment of the present application, the fourth water passage 222 communicates with the third port 130, and the first air passage 213 communicates with the second air passage 223. In the embodiment of the present invention, the third port 130 communicates with the third water passage 221 and the fourth water passage 222 at the same time, so that the two solenoid valve bodies 400 in the embodiment of the present invention can share one third port 130, and the structure is more compact.

In this embodiment, the third port 130 is a water inlet, and the first port 110 and the second port 120 are water outlets, and two solenoid valve bodies 400 corresponding to one water inlet and two water outlets can be realized, and two solenoid valve bodies 400 share one water inlet. For example, the first solenoid valve body corresponding to the first solenoid valve base 210 may control the water outlet of the first port 110 alone, and the second solenoid valve body corresponding to the second solenoid valve base 220 may control the water outlet of the third port 130 alone. In another embodiment, the third port 130 may be a water outlet, and the first port 110 and the second port 120 may be water inlets, so that two solenoid valve bodies 400 correspond to two water inlets and one water outlet, and the two solenoid valve bodies 400 share one water outlet. For example, the first solenoid valve body corresponding to the first solenoid valve base 210 may independently control water inflow of the first port 110, and the second solenoid valve body corresponding to the second solenoid valve base 220 may independently control water inflow of the third port 130, so that when both the first solenoid valve body and the second solenoid valve body are closed, the third port 130 stops water outflow; when one or both of the first solenoid valve body and the second solenoid valve body are opened, the third port 130 is drained.

In an embodiment of the present application, the first through hole 110, the second through hole 120, the third through hole 130, the first solenoid valve base 210 and the second solenoid valve base 220 may form a first base unit 1, wherein the flow channel plate body 100 may include more than two repeated first base units 1, wherein two adjacent first base units 1 may be repeatedly arranged or may be symmetrically arranged, as shown in fig. 4 and 5, the flow channel plate body 100 includes two repeated first base units 1, and two repeated first base units 1 are symmetrically arranged, so that the solenoid valve integrated assembly of the embodiment of the present application may form two water inlets and four water outlets, that is, two third through holes 130 are water inlets, and two first through holes 110 and two second through holes 120 are water outlets; in another embodiment, the solenoid valve integrated assembly may also form two water outlets and four water inlets, i.e. the two third ports 130 are water outlets, and the two first ports 110 and the two second ports 120 are water inlets.

In an embodiment of the present application, as shown in fig. 6 to 9, the flow channel plate body 100 further includes a fourth port 140, and the fourth port 140 is communicated with the fourth water channel 222. In the embodiment of the present application, the third port 130 and the fourth port 140 are sequentially arranged along the first direction D1, and in other embodiments, the third port 130 and the fourth port 140 may not be arranged along the first direction D1. In this embodiment, the first air passage 213 and the second air passage 223 are not communicated, and in this embodiment, the first solenoid valve body corresponding to the first solenoid valve base 210 can independently control the first port 110 and the second port 120; the second solenoid valve body that second solenoid valve base 220 corresponds can the independent control third port 130 and fourth port 140, in this application embodiment, can realize that two solenoid valve bases correspond four ports, and first solenoid valve body and second solenoid valve body can the independent control. The solenoid valve integrated assembly of the embodiment of the application can form two water inlets and two water outlets, wherein one of the first through opening 110 and the third through opening 130 is a water inlet, and the other one is a water outlet; one of second port 120 and fourth port 140 is a water inlet and the other is a water outlet. For example, in the embodiment of the present application, the first port 110 and the second port 120 are water inlets, and the third port 130 and the fourth port 140 are water outlets. In another embodiment, the third port 130 and the fourth port 140 are water inlets, and the first port 110 and the second port 120 are water outlets; or the first port 110 and the third port 130 are water inlets, and the second port 120 and the fourth port 140 are water outlets; or the first port 110 and the fourth port 140 are water inlets, and the second port 120 and the third port 130 are water outlets. The solenoid valve integrated component of this application embodiment can realize controlling two water inlets and two delivery ports, and the position of water inlet and delivery port has multiple mode of setting to make the solenoid valve integrated component in this application embodiment can be applicable to the water inlet of different positions and the demand of arranging of delivery port.

In this embodiment, the first through hole 110, the second through hole 120, the third through hole 130, the fourth through hole 140, the first solenoid valve base 210, the second solenoid valve base 220, and the connection manner therebetween may form a second base unit 2, in this embodiment, the flow channel plate body 100 may have a repeating unit formed by more than two second base units 2, and the repeating unit is sequentially arranged along the first direction D2, or may be the flow channel plate body 100 formed by any number of second base units 2 and any number of first base units 1 (see fig. 3), and the first base units 1 and the second base units 2 may be arranged at intervals, or may be continuously arranged by a plurality of first base units 1, or continuously arranged by a plurality of second base units 2, and sequentially arranged along the second direction D2. Specifically, as shown in fig. 4 to 10 in succession, in the embodiment of the present application, the flow field plate body 100 of the solenoid valve integrated assembly includes two first base units 1 and one second base unit 2.

In another embodiment of the present application, as shown in fig. 11 and 12, the flow channel plate body 100 includes a first through opening 110, a second through opening 120, and a third through opening 130, a first solenoid valve base 210, and a second solenoid valve base 220, and the flow channel plate body 100 further includes: a third and fourth solenoid valve bases 230 and 240, a fifth and sixth port 150 and 160, the third and fourth solenoid valve bases 230 and 240 being disposed at opposite sides of the first body 100; the third solenoid valve base 230 and the first solenoid valve base 210 are disposed on the same side; the fourth solenoid valve base 240 and the second solenoid valve base 220 are disposed on the same side; a fifth water channel, a sixth water channel and a third air channel are arranged in the third solenoid valve base 230, and a seventh water channel, an eighth water channel and a fourth air channel are arranged in the fourth solenoid valve base 240; the third port 130, the fifth port 150 and the sixth port 160 are not arranged in a straight line; the third port 130 is further communicated with a fifth water passage and a seventh water passage, the fifth port 150 is communicated with a sixth water passage, and the sixth port 160 is communicated with an eighth water passage.

That is, in the embodiment of the present application, the third solenoid valve base 230 and the fourth solenoid valve base 240 are disposed on two opposite sides of the flow channel plate body 100 along the first direction D1, and the third solenoid valve base 230 and the first solenoid valve base 210 are sequentially arranged along the second direction D2; the fourth solenoid valve base 240 and the second solenoid valve base 220 are sequentially arranged in the second direction D2; a fifth water passage (not shown), a sixth water passage (not shown) and a third air passage (not shown) are arranged in the third solenoid valve base 230, and a seventh water passage (not shown), an eighth water passage (not shown) and a fourth air passage (not shown) are arranged in the fourth solenoid valve base 240; the fifth port 150 and the sixth port 160 are sequentially arranged along the first direction D1, the first port 110 and the fifth port 150 are sequentially arranged along the second direction D2, and the second port 120 and the sixth port 160 are sequentially arranged along the second direction D2; the third opening 130 is disposed along the second direction D2 on a side of the fifth opening 150 and the sixth opening 160 close to the first opening 110; the third port 130 is respectively communicated with the second port 120 and the third port 130, the third port 130 is further communicated with a fifth water channel and a seventh water channel, the fifth port 150 is communicated with a sixth water channel, and the sixth port 160 is communicated with an eighth water channel. In the embodiment of the present application, the first air passage 213 (see fig. 1) and the second air passage 223 (see fig. 1) communicate with each other, and the third air passage and the fourth air passage communicate with each other. In this embodiment, the first solenoid valve base 210, the second solenoid valve base 220, the third solenoid valve base 230, and the fourth solenoid valve base 240 share the third port 130, so that in this embodiment, the third port 130 is a water inlet, and the first port 110, the second port 120, the fifth port 150, and the sixth port 160 are water outlets, which can realize a water inlet and four water outlets, and the four water outlets are controlled by the four solenoid valve bodies 400 to discharge water respectively. In another embodiment, the third port 130 is a water outlet, and the first port 110, the second port 120, the fifth port 150 and the sixth port 160 are water inlets, so that four water inlets and one water outlet can be realized, in this embodiment, when the solenoid valve bodies 400 corresponding to the first solenoid valve base 210, the second solenoid valve base 220, the third solenoid valve base 230 and the fourth solenoid valve base 240 are all closed, the third port 130 is closed as a water outlet; when one or more of the solenoid valve bodies 400 corresponding to the first, second, third and fourth solenoid valve bases 210, 220, 230 and 240 are opened, the third port 130 serves as a water outlet to discharge water. In the embodiment of the present invention, the first port 110, the second port 120, the third port 130, the fifth port 150, and the sixth port 160, the first solenoid valve base 210, the second solenoid valve base 220, the third solenoid valve base 230, the fourth solenoid valve base 240, and the communication relationship therebetween form a third base unit 3, and the flow channel plate body 100 in the solenoid valve integrated assembly may be formed by two or more third base units 3 as a repeating unit, or the flow channel plate body 100 may be formed by the third base unit 3 and the first base unit 1 (see fig. 3) or/and the second base unit 2 (see fig. 9), respectively.

In yet another embodiment of the present application, as shown in fig. 13, the flow channel plate body 100 includes a first through opening 110, a second through opening 120, and a third through opening 130, a first solenoid valve base 210, and a second solenoid valve base 220, and the flow channel plate body 100 further includes: a fifth solenoid valve base 250 and a seventh port 170, the first solenoid valve base 210 and the fifth solenoid valve base 250 are disposed at both sides of the flow channel plate body 100, and a ninth water passage (not shown), a tenth water passage (not shown), and a fifth air passage (not shown) are disposed in the fifth solenoid valve base 250; the third port 130 is disposed in a region between the seventh port 170 and the first port 110. In the embodiment of the present application, the first port 110 and the seventh port 170 are sequentially disposed along the second direction D2, the third port 130 is disposed on a side of the seventh port 170 close to the first port 110 along the second direction D2, the third port 130 is further communicated with the ninth water channel, and the seventh port 170 is communicated with the tenth water channel. In the embodiment of the present application, three solenoid valve bases are provided, so that the water outlet and the water inlet can be controlled by three solenoid valve bodies 400, in the embodiment of the present application, the solenoid valve bases may be not completely symmetrically arranged, the number of the solenoid valve bases may also be an odd number, and is not limited to the number of the solenoid valve bases being an even number, wherein the even number of the symmetrically arranged solenoid valve bases can utilize the space of the flow channel plate body 100 to the maximum extent, so that the flow channel plate body 100 has a compact structure; and the odd number of solenoid valve bases can enable the formed solenoid valve integrated assembly to meet the requirements of different space settings.

Wherein, third opening 130 is the water inlet, and first opening 110, second opening 120 and seventh opening 170 are the delivery port, and this application embodiment can realize a water inlet, three delivery port. In other embodiments, the third port 130 may be an outlet, and the first port 110, the second port 120, and the seventh port 170 may be inlets, so that three inlets and one outlet are implemented. In other embodiments, three solenoid valve bases may be provided, that is, the first solenoid valve base 210, the second solenoid valve base 220, and the fifth solenoid valve base 250 are respectively provided, and each solenoid valve base is respectively and correspondingly communicated with two ports, so that the three solenoid valve bodies 400 corresponding to the three solenoid valve bases are respectively and separately controlled by two ports, that is, each solenoid valve base is correspondingly and respectively communicated with one water inlet and one water outlet.

The flow channel plate body 100 in the embodiment of the present invention includes a first through opening 110, a second through opening 120, a third through opening 130, and a seventh through opening 170, and the first solenoid valve base 210, the second solenoid valve base 220, and the fifth solenoid valve base 250 constitute a fourth base unit 4, and the fourth base unit 4 in the embodiment of the present invention may be combined with any one or more of the first base unit 1 (see fig. 3), the second base unit 2 (see fig. 9), and the third base unit 3 (see fig. 12), and the number of each base unit may also be any number.

In the embodiment of the present application, as shown in fig. 1, 6 and 8, the flow channel plate body 100 further includes a check valve 300, the check valve 300 is disposed at the water inlet, and by disposing the check valve 300 at the water inlet, when the electromagnetic valve body 400 is in the closed state, when the pressure caused by external water pressure is greater than the pressure formed by closing the electromagnetic valve body 400, the occurrence of water leakage caused by the failure or loose closing of the electromagnetic valve body 400 is easily caused, and by disposing the check valve 300 in the embodiment of the present application, the occurrence of water leakage or failure of closing can be avoided. In other embodiments, the check valve 300 may also be disposed at the water outlet, or both the water inlet and the water outlet may be disposed with the check valve 300. The embodiment of the application integrates the check valve 300 at the water inlet or/and the water outlet of the runner plate body 100, so that the integration degree of the electromagnetic valve integrated assembly is high, and the volume of the electromagnetic valve integrated assembly is reduced.

The present application further includes a second technical solution, as shown in fig. 1 to 13, a solenoid valve integrated structure, which includes the above solenoid valve integrated component and at least two solenoid valve bodies 400, wherein the solenoid valve bodies 400 are the same in number as the solenoid valve bases of the solenoid valve integrated component and are arranged in a one-to-one correspondence manner. In the embodiment of the application, the solenoid valve integrated component in the solenoid valve integrated structure comprises a runner plate body 100, and can realize the integrated solenoid valve integrated structure of one runner plate body 100 and more than two solenoid valve bodies 400, so that the solenoid valve integrated structure has a simple structure and small occupied volume, is convenient to install and disassemble, and the pipeline line matched with the solenoid valve integrated structure is clear in arrangement and convenient for later maintenance.

In the embodiment of the present application, the solenoid valve body 400 includes a solenoid coil 410, a solenoid valve core 420 and a sealing member, in the embodiment of the present application, the solenoid coil 410 is configured to drive the solenoid valve core 420 to move towards one side of two water channels and air channels of the solenoid valve base when being powered on, so that the solenoid valve core 420 and the sealing member seal the water channels and the air channels, and a cavity pressure formed by the solenoid valve core 420 and the channels and the air channels is less than a pressure in the air channels; when the power is off, because the pressure in the air channel is higher than the pressure of a cavity formed by the solenoid valve core 420 and the channel and the air channel, the sealing element and the solenoid valve core 420 are far away from the two water channels and the air channel, so that the two water channels of the same solenoid valve base are communicated.

The application also comprises a third technical scheme, and the electric appliance comprises the electromagnetic valve integrated structure, and the electromagnetic valve integrated structure is used for controlling the inflow and outflow of liquid. In the embodiment of the application, the electric appliance can be a water purifier, and in other embodiments, the electromagnetic valve integrated structure can also be household appliances such as a dish washer. This application embodiment, through using foretell solenoid valve integrated structure, can be so that the solenoid valve integrated structure's that the electrical apparatus adopted simple structure, the volume that occupies is less, be convenient for installation and dismantlement, its complex pipeline circuit arrange clearly, the maintenance in the later stage of being convenient for.

The above embodiments are merely examples and are not intended to limit the scope of the present disclosure, and all modifications, equivalents, and flow charts using the contents of the specification and drawings of the present disclosure or those directly or indirectly applied to other related technical fields are intended to be included in the scope of the present disclosure.

Claims (10)

1. An integrated solenoid valve assembly, comprising:

a flow channel plate body (100), wherein a first through opening (110), a second through opening (120) and a third through opening (130) are formed on the flow channel plate body (100), and the first through opening (110), the second through opening (120) and the third through opening (130) are arranged in a non-collinear manner;

a first solenoid valve base (210) and a second solenoid valve base (220) for fixing a solenoid valve body (400), wherein a first water passage (211), a second water passage (212) and a first air passage (213) are provided in the first solenoid valve base (210); a third water channel (221), a fourth water channel (222) and a second air channel (223) are arranged in the second solenoid valve base (220); wherein the first water passage (211) communicates with the first port (110), the third water passage (221) communicates with the second port (120), and the second water passage (212) communicates with the third port (130).

2. The solenoid valve integrated assembly of claim 1, wherein the first solenoid valve base (210) and the second solenoid valve base (220) are disposed on opposite sides of the flow field plate body (100).

3. The solenoid valve integrated assembly of claim 1, further comprising a fourth port (140), the fourth port (140) in communication with the fourth water passage (222); wherein one of the first port (110) and the third port (130) is a water inlet and the other is a water outlet; one of the second port (120) and the fourth port (140) is a water inlet and the other is a water outlet.

4. The solenoid valve integrated assembly of claim 1, wherein the fourth water passage (222) communicates with the third port (130), and the first air passage (213) and the second air passage (223) communicate.

5. The solenoid valve integrated assembly of claim 4, wherein the third port (130) is a water inlet, and the first port (110) and the second port (120) are water outlets; or, the third port (130) is a water outlet, and the first port (110) and the second port (120) are water inlets.

6. The solenoid valve integrated assembly of claim 4, further comprising:

a third solenoid valve base (230) and a fourth solenoid valve base (240), the third solenoid valve base (230) and the fourth solenoid valve base (240) being disposed at opposite sides of the flow channel plate body (100); the third solenoid valve base (230) and the first solenoid valve base (210) are arranged on the same side; the fourth solenoid valve base (240) and the second solenoid valve base (220) are arranged on the same side; a fifth water channel, a sixth water channel and a third air channel are arranged in the third solenoid valve base (230), and a seventh water channel, an eighth water channel and a fourth air channel are arranged in the fourth solenoid valve base (240);

a fifth port (150) and a sixth port (160) are further formed on the flow channel plate body (100), wherein the third port (130), the fifth port (150) and the sixth port (160) are not arranged in a straight line;

the third port (130) is further in communication with the fifth water channel and the seventh water channel, the fifth port (150) is in communication with the sixth water channel, and the sixth port (160) is in communication with the eighth water channel;

the third port (130) is a water inlet, and the first port (110), the second port (120), the fifth port (150) and the sixth port (160) are water outlets; or the third port (130) is a water outlet, and the first port (110), the second port (120), the fifth port (150) and the sixth port (160) are water inlets.

7. The solenoid valve integrated assembly of claim 1, further comprising a fifth solenoid valve base (250), wherein the first solenoid valve base (210) and the fifth solenoid valve base (250) are disposed at both sides of the runner plate body (100), and a ninth water passage, a tenth water passage, and a fifth air passage are disposed in the fifth solenoid valve base (250);

a seventh port (170) is formed in the flow channel plate body (100), and the third port (130) is disposed in a region between the seventh port (170) and the first port (110);

wherein the third port (130) is further in communication with the ninth water passage and the seventh port (170) is in communication with the tenth water passage;

the third port (130) is a water inlet, and the first port (110), the second port (120) and the seventh port (170) are water outlets; or, the third port (130) is a water outlet, and the first port (110), the second port (120) and the seventh port (170) are water inlets.

8. The solenoid valve integrated assembly according to any one of claims 3, 5, 6 or 7, further comprising a one-way valve (300), wherein the one-way valve (300) is disposed at the water inlet and/or the water outlet.

9. An electromagnetic valve integrated structure, characterized by comprising an electromagnetic valve integrated assembly as recited in any one of claims 1 to 8 and at least two electromagnetic valve bodies (400), wherein the electromagnetic valve bodies (400) are arranged in the same number and one-to-one correspondence with the electromagnetic valve bases of the electromagnetic valve integrated assembly.

10. An electrical appliance comprising the solenoid valve integrated structure of claim 9, wherein the solenoid valve integrated structure is configured to control the flow of fluid in and out.

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