CN213629097U

CN213629097U - Water inlet valve assembly and clothes treatment device

Info

Publication number: CN213629097U
Application number: CN202022760470.1U
Authority: CN
Inventors: 刘超; 李林蓬; 罗伟标; 刘道跃; 谭碧军
Original assignee: GD Midea Environment Appliances Manufacturing Co Ltd
Current assignee: GD Midea Environment Appliances Manufacturing Co Ltd
Priority date: 2020-11-25
Filing date: 2020-11-25
Publication date: 2021-07-06
Anticipated expiration: 2030-11-25

Abstract

The utility model provides a water intaking valve assembly and clothing processing apparatus, water intaking valve assembly include first mount pad, second mount pad, water intaking valve and back-up piece. The second mounting seat is detachably arranged on the first mounting seat. The two water inlet valves are respectively arranged on the first mounting seat and the second mounting seat, each water inlet valve is provided with a flow guide channel and a valve core movably arranged in the flow guide channel, and the valve core can block a flow guide port of the flow guide channel. The top opening piece is movably arranged on the first mounting seat and provided with a communicating cavity, and the top opening piece can drive each valve core to move so as to conduct the flow guide channel and the communicating cavity. The embodiment of the utility model provides an in the valve module of intaking that proposes, through the valve core in the water intaking valve and the mating reaction of ejecting piece, when ejecting piece is not pressurized, the case can shutoff water conservancy diversion mouth so that intercommunication chamber and water conservancy diversion passageway do not communicate, realize sealing the water function to avoid leaking any safety problem that probably arouses.

Description

Water inlet valve assembly and clothes treatment device

Technical Field

The utility model relates to a domestic equipment technical field particularly, relates to a water intaking valve assembly and a clothing processing apparatus.

Background

At present, the detachable water inlet structure of the household appliance comprises a check valve and a water injection piece (hollow column). In the water inlet state, the water injection piece can extend into the one-way valve to send water to one side of the one-way valve. However, after water is fed, the water injection member does not have a water sealing function, so that water resources are wasted easily in the process of separating the water injection member from the one-way valve, and potential safety hazards are brought to household equipment.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

To this end, a first aspect of the present invention is to provide a water inlet valve assembly.

A second aspect of the present invention is to provide a clothes treating apparatus.

In view of this, according to a first aspect of the present invention, there is provided a water inlet valve assembly comprising a first mounting seat, a second mounting seat, two water inlet valves and a knock-out member. The second mounting seat is detachably arranged on the first mounting seat. One of the two water inlet valves is arranged on the first mounting seat, the other of the two water inlet valves is arranged on the second mounting seat, each water inlet valve is provided with a flow guide channel, a valve core and a flow guide port, the valve core is movably arranged in the flow guide channel, and the valve core can block one flow guide port of the flow guide channel. The top opening piece is movably arranged on the first mounting seat and provided with a communicating cavity, and the top opening piece can drive the valve core to move away from the flow guide opening, so that the flow guide channel is communicated with the communicating cavity.

The utility model provides a water intaking valve subassembly includes first mount pad, second mount pad, water intaking valve and backs down the piece. The second mounting seat is detachably arranged on the first mounting seat. Wherein the first mounting seat is used for assembling one of the two water inlet valves and the jacking piece. The second mounting is for mounting the other of the two inlet valves. When the water inlet valve assembly is applied to the clothes treatment device, the first mounting seat can be a base of the clothes treatment device, and the second mounting seat can be a handheld part of the clothes treatment device, wherein the handheld part can be detachably arranged on the base. It is worth mentioning that an inlet valve is fixedly mounted on the first mounting seat. Specifically, the first mounting seat is provided with a first mounting cavity, and at least one part of one water inlet valve is arranged in the first mounting cavity, so that the water inlet valve is protected in all directions, the water inlet valve is prevented from being damaged by the external environment, the service life of the water inlet valve is prolonged, and the overall appearance aesthetic feeling of the clothes treatment device can be improved. Specifically, each water inlet valve is provided with a flow guide channel, and the water inlet valve further comprises a plurality of flow guide ports. According to the flowing direction of the fluid, the plurality of flow guide ports comprise a water inlet and a water outlet, and the water inlet and the water outlet are communicated with the flow guide channel. Each water inlet valve also comprises a valve core, the valve core can be movably arranged in the flow guide channel, and the valve core can block one of the flow guide ports, so that the water sealing function of the water inlet valve is realized. Specifically, when the fluid flows from the first mounting seat to the second mounting seat, the valve core is arranged at the water outlet of the water inlet valve for the water inlet valve arranged on the first mounting seat. For the water inlet valve arranged on the second mounting seat, the valve core is arranged at the water inlet of the water inlet valve. The valve core can also be far away from the flow guide port to realize the communication between the first flow guide channel and other channels. The water inlet valve assembly further comprises a jacking piece, the jacking piece is movably arranged on the first mounting seat, each valve core blocks one corresponding flow guide port when the jacking piece is not pressed, namely the water inlet valve assembly is in a non-conducting state, the water inlet valve assembly achieves a water sealing function, namely the water sealing function is arranged on two sides of the first mounting seat and the second mounting seat, the problem of water leakage does not exist, and the safety performance of a product with the water inlet valve assembly is ensured. When the top opening part is pressed, the end part of the top opening part is contacted with each valve core and drives the valve cores to be far away from the flow guide port, so that the flow guide channel is communicated with a communication cavity of the top opening part, and the communication is realized, namely the flow guide channel of the water inlet valve arranged on the first mounting seat, the communication cavity and the flow guide channel of the water inlet valve arranged on the second mounting seat are in a communication state, and at the moment, fluid flow can be realized between the first mounting seat and the second mounting seat. The embodiment of the utility model provides an in the proposed water inlet valve subassembly, through the case in every water intaking valve and the mating reaction of piece that backs down, when the piece that backs down is not compressed, the case can shutoff water conservancy diversion mouth so that intercommunication chamber and first water conservancy diversion passageway do not communicate, realizes the water sealing function of first mount pad and second mount pad both sides to avoid leaking any safety problem that probably arouses, in addition, aforementioned water intaking valve subassembly still has simple structure, advantage that application scope is wider. In particular, the water inlet valve assembly may be applied to a laundry treating apparatus, such as a garment steamer. The water inlet valve assembly may also be used in air treatment devices such as humidifiers, humidifying air conditioning fans, and the like. It is worth mentioning that the ejecting piece is convexly arranged on the first mounting seat, so that the positioning and the installation of other components (the second mounting seat) and the first mounting seat can be facilitated.

In one possible design, further, the first mount includes an avoidance orifice. The ejection piece comprises an ejector rod, an assembly groove and an ejection sealing part. The push rod forms a communicating cavity, one end of the push rod can be contacted with the valve core of one water inlet valve, and the other end of the push rod penetrates through the avoiding port to be contacted with the valve core of the other water inlet valve. The assembly groove is arranged on the outer wall of the ejector rod. The top-open sealing part is arranged in the assembling groove and is in interference fit with the first mounting seat.

In the design, the ejector rod forms a communicating cavity, and the ejector rod is a cylinder. One end of the ejector rod can be in contact with a valve core of one water inlet valve, and the other end of the ejector rod penetrates through the avoiding port to protrude out of the outer surface of the first mounting seat, so that positioning and assembling are facilitated. The other end of the ejector rod can be in contact with the valve core of the other water inlet valve, namely, the two ends of the ejector rod respectively jack up the valve cores of different water inlet valves, so that each valve core leaves from the flow guide opening of the flow guide channel, and the communication cavity is communicated with the flow guide channel, and the water inlet function is realized. Further, still be equipped with the assembly groove on the outer wall of ejector pin, the assembly groove is used for the installation to push away the sealing, through the internal surface interference fit who makes the sealing and the first mount pad of pushing away to realize the seal performance of first mount pad, prevent that external impurity dust etc. from dodging the inside that the mouth got into first mount pad.

In a possible design, further, the ejection part further comprises an overflow opening, the overflow opening is formed in the end portion of the ejection part, and the overflow opening can be communicated with the communication cavity and the flow guide channel.

In this design, the tip of top-open piece is equipped with the mouth that overflows, and the mouth that overflows can switch on intercommunication chamber and water conservancy diversion passageway. A portion of the end of the ejector member is recessed toward the center of the ejector member to form a flow port. Particularly, the overflowing openings are symmetrically arranged at the end parts of the ejecting pieces, so that the stress of the ejecting pieces can be distributed more uniformly when the ejecting pieces are pressed, the acting force is better transmitted to the valve core, and the valve core can move stably. Specifically, one end of the jacking piece, which is in contact with the valve core, is provided with at least two overflowing openings, and the at least two overflowing openings are symmetrically arranged at the end part of the jacking piece.

In a possible design, further, the ejection piece further comprises a limiting part, the limiting part is arranged on the outer wall of the ejector rod, and the limiting part can be in contact with the inner wall surface of the first mounting seat.

In this design, the top-open piece still includes spacing portion, and spacing portion sets up on the outer wall of ejector pin, and spacing portion can contact with the internal face of first mount pad. When the ejection piece is not under the external pressure, the ejector rod is under the elastic action of the first elastic piece in the water inlet valve arranged on the first installation seat, the ejector rod has a movement trend far away from the first installation seat under the action force through the transmission of the valve core in the water inlet valve, and the limiting part is lapped on the inner wall surface of the first installation seat, so that the ejection piece is in a state of balanced stress, namely, the ejection piece cannot be separated from the first installation seat, namely, the limiting part is in contact with the first installation seat, and the ejection piece can be prevented from being only under the action force of the first elastic piece.

In a possible design, further, the limiting part comprises at least one limiting boss, the at least one limiting boss is arranged on the ejector rod, and the one limiting boss and the ejector rod form an assembling groove.

In the design, the limiting part comprises at least one limiting boss, one limiting boss is arranged on the ejector rod, one limiting boss and the ejector rod form an assembly groove, and the ejector rod sealing part is arranged in the assembly groove. The limiting boss can be used for realizing the positioning installation of the sealing part of the ejector rod, the stress balance of the ejector rod can be realized through the limiting boss, and the limiting boss can be in contact with the inner surface of the first mounting seat, so that the ejection piece is prevented from being only under the action force of the first elastic piece, and the ejection piece is in a stress balance state.

In one possible design, the inlet valve further includes a first inlet valve disposed on the first mounting seat, the first inlet valve having a first diversion channel, a first valve spool, and a first diversion port. The first valve core is movably arranged in the first flow guide channel and can block a first flow guide port of the first flow guide channel.

In the design, a first water tank is arranged in the first mounting seat, a second water tank is arranged in the second mounting seat, when water flows into the second water tank from the first water tank, a first flow guide channel of the first water inlet valve is communicated with the first water tank, the first flow guide channel comprises a first water inlet and a first water outlet, and a first flow guide port is a first water outlet. The first valve core can be blocked at the first water outlet, so that water flow is gathered in the first water tank, the first water inlet and the first flow guide channel.

In one possible design, further, the first inlet valve further includes a first valve body, a first resilient member, and a first sealing member. The first valve body is connected with the first mounting seat, and the first valve body forms a first flow guide channel and a first flow guide opening (a first water outlet). The first elastic member is disposed in compression between the first valve body and the first valve spool. The first sealing element is matched with the first valve body and is positioned at the first flow guide opening (first water outlet), and the first sealing element can be contacted with the first valve core.

In this design, the first inlet valve further comprises a first valve body coupled to the first mounting block. Specifically, the first valve body is fixedly connected with the first mounting seat. It is worth mentioning that a part of the first installation seat extends towards the inside of the first installation cavity to form a first installation position, and the first valve body is installed on the first installation position, and specifically, the first installation position may be a limit table. The limiting table is provided with a mounting groove, and the first valve body is provided with a limiting part matched with the mounting groove. After the first valve body stretches into the inside of the limiting table, the limiting part is clamped in the mounting groove, and therefore reliable connection of the first valve body and the first mounting seat is achieved. The first valve body can be conveniently positioned and installed by arranging the first installation position, and deviation in the installation process is prevented. Specifically, first valve body forms first water conservancy diversion passageway, first delivery port and first water inlet, and rivers get into first water conservancy diversion passageway from first water inlet, then can flow through first delivery port. The first valve core is arranged in the first flow guide channel, a first elastic piece is arranged between the first valve core and the first valve body, and the first elastic piece is in a compression state. The first valve core is always subjected to the acting force provided by the first elastic piece and moving towards the first water outlet, namely when the ejection piece is not subjected to the pressure from the outside, the first valve core is always positioned at the first water outlet under the action of the first elastic piece, so that the first flow guide channel is blocked, and water leakage is prevented. And when the ejecting piece receives the effort towards first elastic component, ejecting piece pressurized removal this moment, thereby ejecting piece can contact with first case and drive first case motion, when ejecting piece and first case simultaneous movement, first elastic component continues to be compressed, first case leaves first water outlet department this moment, then the intercommunication chamber in the ejecting piece this moment can communicate with first water conservancy diversion passageway, realizes the function of leading to water.

Furthermore, the first water inlet valve further comprises a first sealing element arranged at the first water outlet, and the first sealing element can be clamped between the first valve core and the first valve body, so that when the first valve core is located at the first water outlet, the first sealing element can ensure the sealing performance of the first water outlet, and water leakage in the first flow guide channel is avoided. Specifically, the first seal is a seal ring.

In one possible design, further, the first seal is an interference fit with the first valve body. The first sealing element is in interference fit with the first mounting seat.

In the design, the first sealing element is in interference fit with the first valve body, and the first sealing element is also in interference fit with the first mounting seat, so that on one hand, reliable sealing performance among the first sealing element, the first valve body and the first mounting seat can be ensured, and potential safety hazards caused by water flow leakage can be prevented; on the other hand, the reliable connection performance among the three can be realized.

In a possible design, the water inlet valve further comprises a second water inlet valve, the second water inlet valve is arranged on the second mounting seat, the second water inlet valve is provided with a second flow guide channel, the second water inlet valve comprises a second valve core, the second valve core is movably arranged in the second flow guide channel, the second valve core can block a second flow guide opening of the second flow guide channel, and the top opening piece can be in contact with the second valve core and can open the second valve core to conduct the second flow guide channel and the communication cavity.

In this design, when the water inlet valve assembly is applied to the clothes treatment device, the first mounting seat is a base of the clothes treatment device, and the second mounting seat is a handheld part of the clothes treatment device, and the handheld part is detachably arranged on the base. The second water inlet valve is arranged on the second mounting seat. Specifically, the second mounting seat is provided with a second mounting cavity, and at least one part of the second water inlet valve is arranged in the second mounting cavity, so that the second water inlet valve is protected in all directions, the second water inlet valve is prevented from being damaged by the external environment, the service life of the second water inlet valve is prolonged, and the integral appearance aesthetic feeling of the clothes treatment device can be improved. The second water inlet valve is provided with a second flow guide channel, and further comprises a second water inlet (a second flow guide port) and a second water outlet, wherein the second water inlet and the second water outlet are both communicated with the second flow guide channel. The second water inlet valve further comprises a second valve core, the second valve core can be movably arranged in the second flow guide channel, the second valve core can block the second water inlet, and the second valve core can be far away from the second water inlet to achieve communication between the second flow guide channel and other channels. When the second installation seat moves towards the first installation seat, the jacking piece can be in contact with the second valve core, the jacking piece jacks up the second valve core, namely the second valve core jacks up the center of the second flow guide channel from the second water inlet, so that the second flow guide channel is communicated with the communicating cavity inside the jacking piece, and water flow in the communicating cavity can enter the second flow guide channel.

In a possible design, further, the second water inlet valve further comprises a second valve body and a second elastic member, the second valve body is connected with the second mounting seat, and the second valve body forms a second diversion channel and a second water inlet. The second elastic piece is arranged between the second valve body and the second valve core in a compression mode, and the second elastic piece can drive the second valve core, the jacking piece and the first valve core to move to conduct the second flow guide channel, the communicating cavity and the first flow guide channel in a rebounding mode.

In this design, the second fill valve further comprises a second valve body coupled to the second mount. Specifically, the second valve body is fixedly connected with the second mounting seat. It is worth mentioning that a part of the second mounting seat extends towards the inside of the second mounting cavity to form a second mounting position, and the second valve body is mounted on the second mounting position, and specifically, the second mounting position may be a limit table. The limiting table is provided with a mounting groove, and the second valve body is provided with a limiting part matched with the mounting groove. After the second valve body stretches into the limiting table, the limiting part is clamped in the mounting groove, and therefore reliable connection of the second valve body and the second mounting seat is achieved. The second valve body can be conveniently positioned and installed by arranging the second installation position, and deviation in the installation process is prevented. Specifically, the second valve body forms a second flow channel, a second water outlet and a second water inlet, and water flows into the second diversion channel from the second water inlet and then can flow out through the second water outlet. The second valve core is arranged in the second flow guide channel, and a second elastic piece is arranged between the second valve core and the second valve body and is in a compressed state. The second valve core is always subjected to the acting force provided by the second elastic piece and moving towards the second water inlet, namely when the ejection piece is not in contact with the second valve core, the second valve core can be always positioned at the second water inlet under the action of the second elastic piece, so that the second flow guide channel is blocked, and water leakage is prevented. When the ejection piece is contacted with the second valve core, the ejection piece drives the second valve core to move so as to compress the second elastic piece, when the second elastic piece reaches a compression limit under the action of the ejection piece, the second elastic piece generates a rebound force moving towards the ejection piece, under the action of the rebound force, the second valve core and the ejection piece move towards the first valve core again, at the moment, under the action of the second elastic piece, the second valve core, the ejection piece and the first valve core move towards the first elastic piece, the first elastic piece is compressed, at the moment, the first valve core leaves the first water outlet position, the second valve core leaves the second water inlet position, namely, at the moment, the first flow guide channel, the communication cavity and the second flow guide channel are in a conduction state, and at the moment, water flow intercommunication between the first mounting seat and the second mounting seat can be realized. When the first installation seat is separated from the second installation seat, the first valve core returns to the first water outlet position under the action of the first elastic piece, the second valve core returns to the second water inlet position under the action of the second elastic piece, the first flow guide channel, the communication cavity and the second flow guide channel are in a non-conduction state at the moment, and the first water inlet valve and the second water inlet valve achieve a water sealing function.

In a possible design, further, the second inlet valve further includes a second sealing member which is engaged with the second valve body and located at the second diversion port (second inlet port), the second sealing member being capable of contacting the second valve spool.

In the design, the second water inlet valve further comprises a second sealing element arranged at the second water inlet, and the second sealing element can be clamped between the second valve core and the second valve body, so that when the second valve core is located at the second water inlet, the second sealing element can ensure the sealing performance of the second water outlet, and water flow leakage in the second flow guide channel is avoided. Specifically, the second seal is a seal ring.

According to a second aspect of the present invention, there is provided a laundry treating apparatus comprising a water inlet valve assembly provided in any of the above designs.

The utility model provides a clothes treatment device, including the water intaking valve assembly that any above-mentioned design provided, consequently have this water intaking valve assembly's whole beneficial effect, no longer give consideration to here.

Further, the laundry treating apparatus includes a base including one of the first and second mounting seats of the water inlet valve assembly. The laundry treating apparatus further includes a fitting member, the fitting member being a water tank or a hand-held portion, the fitting member being detachably provided on the base, the fitting member including the other of the first mounting seat and the second mounting seat of the water inlet valve assembly.

It is worth mentioning that the base comprises a first water tank, and the first water tank is communicated with the first flow guide channel. The handheld portion comprises a second water tank which is communicated with the second flow guide channel. When the first water inlet valve and the second water inlet valve are communicated through the jacking piece, the water flows in the first water tank and the second water tank can be communicated.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 illustrates a schematic view of a non-conducting state of a water inlet valve assembly according to an embodiment of the present invention;

fig. 2 shows a schematic view of a conducting state structure of a water inlet valve assembly according to an embodiment of the present invention;

fig. 3 illustrates a top view of a top opening of a fill valve assembly in accordance with an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 3 is:

100 of the water inlet valve assembly, and a water outlet valve assembly,

101 a first mounting base for a first mounting base,

102 of the second mounting base,

110 a first inlet valve, 111 a first flow guide passage, 112 a first valve core, 113 a first valve body, 114 a first elastic member, 115 a first sealing member,

120 a second inlet valve, 121 a second flow guide passage, 122 a second valve core, 123 a second valve body, 124 a second elastic member, 125 a second sealing member,

130 ejection piece, 131 communicating with the cavity, 132 ejector pin, 133 ejecting sealing part, 134 flow-through opening.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A water inlet valve assembly 100 and a laundry treating apparatus provided according to some embodiments of the present invention will be described below with reference to fig. 1 to 3.

Example one

According to a first aspect of the present invention, as shown in fig. 1 and 2, there is provided a water inlet valve assembly 100 comprising a first mounting seat 101, a second mounting seat 102, two water inlet valves (a first water inlet valve 110 and a second water inlet valve 120) and a push-open 130. The second mount 102 is detachably provided on the first mount 101. One of the two inlet valves (the first inlet valve 110) is disposed on the first mount 101, and the other of the two inlet valves (the second inlet valve 120) is disposed on the second mount 102. Each inlet valve is provided with a flow guide channel (a first flow guide channel 111 and a second flow guide channel 121), a valve core (a first valve core 112 and a second valve core 122) and a flow guide port, and specifically, each inlet valve comprises a valve core which is movably arranged in the flow guide channel, and the valve core can block one flow guide port of the flow guide channel. The ejection member 130 is movably disposed on the first mounting seat 101, the ejection member 130 has a communicating cavity 131, and the ejection member 130 can drive the valve element to move away from the diversion port to communicate the diversion channel with the communicating cavity 131.

The present invention provides a fill valve assembly 100 comprising a first mount 101, a second mount 102, a fill valve and a kicker 130. The second mount 102 is detachably provided on the first mount 101. Wherein the first mount 101 is for fitting one of the two inlet valves (the first inlet valve 110) and the kicker 130. The second mount 102 is for mounting the other of the two fill valves (the second fill valve 120). When the water inlet valve assembly 100 is applied to a laundry treating apparatus, the first mounting seat 101 may be a base of the laundry treating apparatus, and the second mounting seat 102 may be a handle of the laundry treating apparatus, and the handle may be detachably disposed on the base. The first inlet valve 110 and the kicker 130 are both disposed on the base. The first inlet valve 110 is disposed on the first mount 101. It is noted that the first inlet valve 110 is fixedly mounted on the first mounting base 101. Specifically, the first mounting seat 101 has a first mounting cavity, and at least a portion of the first water inlet valve 110 is disposed in the first mounting cavity, so that the first water inlet valve 110 is protected in all directions, the first water inlet valve 110 is prevented from being damaged by the external environment, the service life of the first water inlet valve 110 is prolonged, and the overall appearance and aesthetic feeling of the laundry treating apparatus can be improved. Specifically, each water inlet valve is provided with a flow guide channel, and the water inlet valve further comprises a plurality of flow guide ports. According to the flowing direction of the fluid, the plurality of flow guide ports comprise a water inlet and a water outlet, and the water inlet and the water outlet are communicated with the flow guide channel. Each water inlet valve also comprises a valve core, the valve core can be movably arranged in the flow guide channel, and the valve core can block one of the flow guide ports, so that the water sealing function of the water inlet valve is realized. Specifically, when the fluid flows from the first mounting seat 101 to the second mounting seat 102, the valve core is disposed at the water outlet of the water inlet valve disposed on the first mounting seat 101. For a water inlet valve disposed on the second mounting block 102, the valve core is disposed at the water inlet of the water inlet valve. The valve core can also be far away from the diversion port to realize the communication between the diversion channel and other channels. The water inlet valve assembly 100 further comprises an ejecting member 130, the ejecting member 130 is movably arranged on the first mounting seat 101, each valve core blocks a corresponding flow guide port in the non-pressed state of the ejecting member 130, that is, the water inlet valve assembly 100 is in a non-conduction state, at this time, the water inlet valve assembly 100 achieves a water sealing function, that is, both sides of the first mounting seat 101 and the second mounting seat 102 have a water sealing function, the problem of water leakage does not exist, and the safety performance of a product with the water inlet valve assembly 100 is ensured. When the ejecting member 130 is pressed, the end of the ejecting member 130 contacts each valve core and drives the valve core to be away from the flow guide port, so that the flow guide channel is communicated with the communicating cavity 131 of the ejecting member 130, thereby realizing communication. The embodiment of the utility model provides a water intaking valve subassembly 100, through case and the mating reaction of ejecting piece 130 in the water intaking valve, when ejecting piece 130 is not pressurized, the case can block off the water conservancy diversion mouth so that intercommunication chamber 131 does not communicate with the water conservancy diversion passageway, realizes the water sealing function of first mount pad 101 and second mount pad 102 both sides to avoid leaking any safety problem that probably arouses, in addition, aforementioned water intaking valve subassembly 100 still has simple structure, advantage that application scope is wider. In particular, the water inlet valve assembly 100 may be applied to a laundry treating apparatus, such as a garment steamer. The inlet valve assembly 100 may also be used in air treatment devices such as humidifiers, humidifying air conditioning fans, and the like. It should be noted that the ejector 130 is protruded from the first mounting seat 101, so that the positioning and installation of other components (the second mounting seat 102) and the first mounting seat 101 can be facilitated.

Further, as shown in fig. 1 and 2, the inlet valve includes a first inlet valve 110, the first inlet valve 110 is disposed on the first mounting seat 101, and the first inlet valve 110 has a first guide passage 111, a first valve spool 112, and a first guide port. The first valve core 112 is movably disposed in the first diversion passage 111, and the first valve core 112 can block the first diversion port of the first diversion passage 111.

In this design, a first water tank is disposed in the first mounting seat 101, a second water tank is disposed in the second mounting seat 102, when water flows into the second water tank from the first water tank, the first diversion channel 111 of the first water inlet valve 110 is communicated with the first water tank, the first diversion channel 111 includes a first water inlet and a first water outlet, and the first diversion port is a first water outlet. The first valve spool 112 can be blocked at the first water outlet so that the water flow is gathered in the first water tank, the first water inlet and the first guide passage 111.

Further, the first inlet valve 110 further includes a first valve body 113, a first elastic member 114, and a first sealing member 115. The first valve body 113 is connected to the first mounting seat 101, and the first valve body 113 forms a first guide passage 111 and a first guide opening (first water outlet). The first elastic member 114 is compressively disposed between the first valve body 113 and the first valve spool 112. A first sealing member 115 is fitted to the first valve body 113 and located at the first guide port (first outlet port), and the first sealing member 115 can be in contact with the first valve spool 112.

In this embodiment, the first inlet valve 110 further comprises a first valve body 113, the first valve body 113 being connected to the first mounting seat 101. Specifically, the first valve body 113 is fixedly connected to the first mounting seat 101. It is worth mentioning that a part of the first mounting seat 101 extends towards the inside of the first mounting cavity to form a first mounting position, and the first valve body 113 is mounted on the first mounting position, specifically, the first mounting position may be a limit table. The limiting table is provided with a mounting groove, and the first valve body 113 is provided with a limiting part matched with the mounting groove. After the first valve body 113 extends into the limiting table, the limiting member is clamped in the mounting groove, so that the first valve body 113 is reliably connected with the first mounting seat 101. The first valve body 113 can be conveniently positioned and mounted by arranging the first mounting position, and deviation in the mounting process is prevented. Specifically, the first valve body 113 forms a first guide passage 111, a first water outlet, and a first water inlet from which water flows into the first guide passage 111 and then can flow out through the first water outlet. The first valve spool 112 is disposed in the first pilot passage 111, and a first elastic member 114 is disposed between the first valve spool 112 and the first valve body 113, the first elastic member 114 being in a compressed state. The first valve core 112 is always subjected to the acting force provided by the first elastic member 114 and moving towards the first water outlet, that is, when the ejection member 130 is not subjected to the external pressure, the first valve core 112 is always located at the first water outlet under the action of the first elastic member 114, so that the first diversion channel 111 is blocked and water leakage is prevented. When the top opening member 130 receives an acting force towards the first elastic member 114, the top opening member 130 is pressed to move, the top opening member 130 can contact with the first valve core 112 to drive the first valve core 112 to move, when the top opening member 130 and the first valve core 112 move simultaneously, the first elastic member 114 continues to be compressed, the first valve core 112 leaves the first water outlet at the moment, and the communication cavity 131 in the top opening member 130 can be communicated with the first flow guide channel 111 at the moment, so that a water passing function is realized.

Further, as shown in fig. 1 and 2, the first inlet valve 110 further includes a first sealing element 115 disposed at the first outlet, and the first sealing element 115 can be interposed between the first valve element 112 and the first valve body 113, so that when the first valve element 112 is located at the first outlet, the first sealing element 115 can ensure sealing performance at the first outlet, and prevent water leakage in the first diversion channel 111. Specifically, the first seal 115 is a gasket.

Further, the first seal 115 is interference fit with the first valve body 113. The first seal 115 is an interference fit with the first mount 101.

In this embodiment, the first sealing element 115 is in interference fit with the first valve body 113, and the first sealing element 115 is also in interference fit with the first mounting seat 101, so that on one hand, reliable sealing performance can be ensured among the first sealing element, the first valve body and the first mounting seat, and potential safety hazards caused by water leakage can be prevented; on the other hand, the reliable connection performance among the three can be realized.

Example two

On the basis of the foregoing embodiments, as shown in fig. 1 and fig. 2, the present embodiment specifically describes the structure of the ejection member 130, and further, the first mounting seat 101 includes an avoidance opening. The knock-out member 130 includes a knock-out pin 132, a fitting groove, and a knock-out sealing part 133. The push rod 132 forms a communication cavity 131, one end of the push rod 132 can contact with the valve core of one water inlet valve, and the other end of the push rod 132 passes through the avoiding port to contact with the valve core of the other water inlet valve. The fitting groove is provided on the outer wall of the jack 132. The ejection sealing portion 133 is disposed in the assembly groove, and the ejection sealing portion 133 is in interference fit with the first mounting seat 101.

In this embodiment, the push rod 132 forms the communication chamber 131, and the push rod 132 is a cylinder. One end of the push rod 132 can contact with a valve core of one inlet valve, and the other end of the push rod 132 passes through the avoiding opening to protrude out of the outer surface of the first mounting seat 101, thereby facilitating positioning and assembling. The other end of the push rod 132 can contact with the valve core of another water inlet valve, that is, the two ends of the push rod 132 respectively push up the valve cores of different water inlet valves, so that each valve core leaves from the flow guide opening of the flow guide channel, and further the communication cavity 131 is communicated with the flow guide channel, thereby realizing the water inlet function. Further, still be equipped with the assembly groove on the outer wall of ejector pin 132, the assembly groove is used for installing and backs down sealing 133, through making the internal surface interference fit of backing down sealing 133 and first mount pad 101 to realize the sealing performance of first mount pad 101, prevent that external impurity dust etc. from dodging the inside that gets into first mount pad 101 in the mouth.

Further, as shown in fig. 3, the top opening member 130 further includes a flow-through opening 134, the flow-through opening 134 is opened at an end portion of the top opening member 130, and the flow-through opening 134 can communicate the communication cavity 131 and the flow-guiding channel.

In this embodiment, the end of the top opening member 130 is provided with a flow passage port 134, and the flow passage port 134 can communicate the communication cavity 131 and the flow guide channel. A portion of the end of the ejector 130 is recessed toward the center of the ejector 130 to form a flow port 134. Specifically, the flow openings 134 are symmetrically arranged at the end of the ejection member 130, so that when the ejection member 130 is pressed, the stress on the ejection member 130 can be distributed more uniformly, and thus the acting force can be better transmitted to the valve core, so that the valve core can move smoothly. Specifically, one end of the top opening part 130, which is in contact with the valve core, is provided with at least two flow ports 134, and the at least two flow ports 134 are symmetrically arranged at the end part of the top opening part 130.

Further, the ejection member 130 further includes a limiting portion, the limiting portion is disposed on an outer wall of the ejector 132, and the limiting portion can contact with an inner wall surface of the first mounting seat 101.

In this embodiment, the ejector 130 further includes a limiting portion, which is provided on an outer wall of the ejector 132 and can contact with an inner wall surface of the first mounting seat 101. When the ejecting member 130 is not subjected to the external pressure, the ejector rod 132 is subjected to the elastic force of the first elastic member 114 in the water inlet valve installed on the first installation seat 101, through the transmission of the valve core in the water inlet valve, the ejector rod 132 has the movement tendency away from the first installation seat 101 under the acting force, and the limiting part is lapped on the inner wall surface of the first installation seat 101, so that the ejecting member 130 is in a stress balance state, that is, the ejecting member 130 cannot be separated from the first installation seat 101, that is, the limiting part is in contact with the first installation seat 101, and the ejecting member 130 can be prevented from being subjected to the acting force of the first elastic member 114 only.

Further, the limiting part comprises at least one limiting boss, the at least one limiting boss is arranged on the ejector rod 132, and the one limiting boss and the ejector rod 132 form an assembling groove.

In this embodiment, the stopper portion includes at least one stopper boss, one stopper boss is disposed on the ejector 132, one stopper boss and the ejector 132 form an assembly groove, and the sealing portion of the ejector 132 is disposed in the assembly groove. The limiting boss can be used for positioning and installing the sealing part of the ejector rod 132, the stress balance of the ejector rod 132 can be realized, and the limiting boss can be in contact with the inner surface of the first mounting seat 101, so that the ejection piece 130 is prevented from being only under the action force of the first elastic piece 114, and the ejection piece 130 is in a stress balance state.

EXAMPLE III

On the basis of the foregoing embodiments, the present embodiment describes the components cooperating with the push-open member 130, and specifically, as shown in fig. 1 and 2, the inlet valve further includes a second inlet valve 120, and the second mounting seat 102 is detachably disposed on the first mounting seat 101. The second inlet valve 120 is disposed on the second mounting seat 102, the second inlet valve 120 has a second diversion channel 121, the second inlet valve 120 includes a second valve core 122, the second valve core 122 is movably disposed in the second diversion channel 121, the second valve core 122 can close a second diversion port (second inlet) of the second diversion channel 121, and the top opening member 130 can contact with the second valve core 122 and lift the second valve core 122 to communicate the second diversion channel 121 and the communication cavity 131.

In this embodiment, when the water inlet valve assembly 100 is applied to a clothes treating apparatus, the first mounting seat 101 is a base of the clothes treating apparatus, and the second mounting seat 102 is a handle of the clothes treating apparatus, and the handle is detachably disposed on the base. The second water inlet valve 120 is disposed on the second mount 102. Specifically, the second mounting seat 102 has a second mounting cavity, and at least a portion of the second water inlet valve 120 is disposed in the second mounting cavity, so that the second water inlet valve 120 is protected in all directions, the second water inlet valve 120 is prevented from being damaged by the external environment, the service life of the second water inlet valve 120 is prolonged, and the overall appearance and beauty of the laundry treating apparatus can be improved. The second water inlet valve 120 has a second diversion channel 121, and the second water inlet valve 120 further includes a second water inlet (a second diversion port) and a second water outlet, both of which are communicated with the second diversion channel 121. The second inlet valve 120 further includes a second valve core 122, the second valve core 122 is movably disposed in the second diversion channel 121, the second valve core 122 is capable of blocking the second inlet, and the second valve core 122 is also capable of being away from the second inlet to achieve communication between the second diversion channel 121 and other channels. When the second mounting seat 102 moves towards the first mounting seat 101, the ejection member 130 contacts the second valve core 122, and the ejection member 130 ejects the second valve core 122, that is, the second valve core 122 is ejected from the second water inlet to the center of the second flow guide channel 121, so that the second flow guide channel 121 and the communication cavity 131 inside the ejection member 130 are communicated, and water in the communication cavity 131 can enter the second flow guide channel 121.

Further, as shown in fig. 1 and 2, the second inlet valve 120 further includes a second valve body 123 and a second elastic member 124, the second valve body 123 is connected to the second mounting seat 102, and the second valve body 123 forms a second guide passage 121 and a second inlet. The second elastic element 124 is disposed between the second valve body 123 and the second valve core 122 in a compressed manner, and the second elastic element 124 rebounds to drive the second valve core 122, the ejection element 130 and the first valve core 112 to move so as to communicate the second flow guide channel 121, the communication cavity 131 and the first flow guide channel 111.

In this embodiment, the second inlet valve 120 further comprises a second valve body 123, the second valve body 123 being connected to the second mounting block 102. Specifically, the second valve body 123 is fixedly connected to the second mounting seat 102. It is worth mentioning that a part of the second mounting seat 102 extends towards the inside of the second mounting cavity to form a second mounting position, and the second valve body 123 is mounted on the second mounting position, and specifically, the second mounting position may be a limit table. The limiting table is provided with a mounting groove, and the second valve body 123 is provided with a limiting part adapted to the mounting groove. After the second valve body 123 extends into the limiting table, the limiting member is clamped in the mounting groove, so that the second valve body 123 is reliably connected with the second mounting seat 102. The second valve body 123 can be conveniently positioned and mounted by arranging the second mounting position, and deviation in the mounting process is prevented. Specifically, the second valve body 123 forms a second flow channel, a second water outlet, and a second water inlet, from which water flows into the second guide channel 121 and then can flow out through the second water outlet. The second spool 122 is disposed in the second pilot passage 121, and a second elastic member 124 is disposed between the second spool 122 and the second valve body 123, the second elastic member 124 being in a compressed state. The second valve core 122 is always subjected to the force provided by the second elastic member 124 to move towards the second water inlet, that is, when the ejection member 130 is not in contact with the second valve core 122, the second valve core 122 is always located at the second water inlet under the action of the second elastic member 124, so that the second diversion passage 121 is blocked to prevent water leakage. When the opening member 130 contacts the second valve element 122, the opening member 130 drives the second valve element 122 to move so as to compress the second elastic member 124, when the second elastic member 124 reaches the compression limit under the action of the ejection member 130, the second elastic member 124 generates a rebound force moving toward the ejection member 130, under the action of the elastic force, the second valve spool 122 and the ejection member 130 move towards the first valve spool 112 again, at this time, under the action of the second elastic member 124, the second valve spool 122, the ejection member 130 and the first valve spool 112 move towards the first elastic member 114, the first elastic member 114 is compressed, at this time, the first valve spool 112 leaves the first water outlet position, the second valve spool 122 leaves the second water inlet position, that is, the first flow guide channel 111, the communicating chamber 131 and the second flow guide channel 121 are in a conduction state, and at this time, water communication between the first mount 101 and the second mount 102 can be achieved. When the first mounting seat 101 and the second mounting seat 102 are separated, the first valve core 112 returns to the first water outlet position under the action of the first elastic member 114, the second valve core 122 returns to the second water inlet position under the action of the second elastic member 124, the first flow guide channel 111, the communicating cavity 131 and the second flow guide channel 121 are in a non-conducting state, and the first water inlet valve 110 and the second water inlet valve 120 both achieve a water sealing function.

Further, as shown in fig. 1 and 2, the second inlet valve 120 further includes a second sealing member 125 fitted to the second valve body 123 and located at the second inlet port, and the second sealing member 125 can contact the second valve spool 122.

In this embodiment, the second inlet valve 120 further includes a second sealing element 125 disposed at the second inlet, and the second sealing element 125 can be sandwiched between the second valve core 122 and the second valve body 123, so that when the second valve core 122 is located at the second inlet, the second sealing element 125 can ensure the sealing performance at the second outlet, and prevent the water flow in the second diversion channel 121 from leaking. Specifically, the second seal 125 is a gasket.

Example four

According to a second aspect of the present invention, there is provided a laundry treating apparatus comprising a water inlet valve assembly 100 provided in any of the above designs.

The utility model provides a clothes treating device, including the water intaking valve assembly 100 that any above-mentioned design provided, consequently have all beneficial effects of this water intaking valve assembly 100, no longer describe herein.

Further, the laundry treating device includes a base including one of the first and

second mounts

101 and 101 of the water inlet valve assembly 100. The laundry treating apparatus further includes a fitting, which is a water tank or a hand grip, detachably provided on the base, the hand grip including the other of the first and second mounting

seats

101 and 102 of the water inlet valve assembly 100.

It is worth mentioning that the base comprises a first water tank, and the first water tank is communicated with the first diversion channel 111. The hand-held portion includes a second water tank that communicates with the second guide passage 121. When the first inlet valve 110 and the second inlet valve 120 are communicated through the opening 130, the flows of the water in the first and second tanks can be communicated with each other.

Further, the second water tank can supply water to the hand-held part so that the hand-held part can generate steam, thereby enabling an operation of ironing the laundry, etc. through the hand-held part. The base and the hand-held part can be separated, namely, the operation of ironing clothes and the like can be realized by independently picking up the hand-held part, and the operation is convenient. Second water tank detachably is connected with handheld portion, and first water tank on the base can be for the second water tank automatic water supply on the handheld portion, ensures that it is sufficient that handheld portion can be used long, promotes user's use and experiences. Specifically, when needing for the moisturizing of second water tank, pull down the second water tank by handheld portion, and communicate the first water tank in second water tank and the base, can make in the water of first water tank can automatic injection second water tank, thereby realize the automatic water supply of second water tank, make the moisturizing process of second water tank simple, only need to install the second water tank and can realize the moisturizing process of first water tank automatic water injection to the second water tank in the assigned position, manual operation steps have been reduced, it needs frequent for the second water tank water supply to have solved the user, the problem that the use experience is poor, and, can utilize the clearance of user's arrangement clothing, place the second water tank on the base and carry out automatic water supply, water supply latency has been saved, user's use experience has been promoted greatly.

It can be understood that because the user need take up handheld portion for a long time and iron articles such as clothing, consequently, the weight of handheld portion should not be overweight, the capacity of second water tank should not be too big, but, if the capacity of second water tank is little then need add water in order to solve the many problems of clothing that need carry out processing procedure such as ironing many times in the second water tank, need among the relevant art after the manual second water tank of dismantling, open the water filling port of second water tank through the manual work to moisturizing in to the second water tank, the process of moisturizing is complicated, the operation is slow, user's operation experience and work efficiency have seriously been influenced. And the embodiment of the utility model provides a clothing processing apparatus, through pulling down the second water tank by handheld portion, and communicate the first water tank in second water tank and the base, can make in the water of first water tank can automatic injection second water tank, thereby realize the automatic water supply of second water tank, make the moisturizing process of second water tank simple, only need to install the second water tank and can realize the moisturizing process of first water tank automatic water injection to the second water tank in the assigned position, the manual operation step has been reduced, it needs frequent for the second water tank to add water to have solved the user, the problem that use experience is poor, and, can utilize the clearance of user's arrangement clothing, place the second water tank and carry out automatic water supply on the base, water supply latency has been saved, user's use experience has been promoted greatly.

It will be appreciated that the water in the first tank may be poured into the second tank via a water pumping device (e.g. a water pump), or the second tank may be mounted at a lower position of the first tank so that the water in the first tank flows down into the second tank due to gravity, thereby achieving automatic water replenishment of the second tank.

Further, the laundry treating apparatus further includes a water pump disposed on the base or the first water tank, the first water pump being for injecting water in the first water tank into the second water tank.

In this embodiment, a water pump is disposed on the first water tank or the base, and the water pump is configured to provide power for water in the first water tank, so that the water pump can inject water in the first water tank into the second water tank, and the first water pump can provide power for water in the first water tank, so that the position of the first water inlet valve 110 in the water inlet valve assembly 100 is not limited, and the water pump can be arbitrarily selected to be disposed on the first water tank according to the actual structure of a product, or disposed on the base, so that water in the first water tank can be completely pumped by the water pump, and the problem that bacteria are bred due to the fact that water in the first water tank is left in the first water tank for a long time is avoided.

Further, the laundry treating apparatus further includes: and the first ventilation valve is arranged on the first water tank. And the second vent valve is arranged on the second water tank.

In this embodiment, it is further described that a first vent valve is disposed on the first water tank, and the first vent valve can balance the air pressure inside and outside the first water tank, so as to ensure that automatic water replenishment of the first water tank can be realized. Furthermore, a second air vent valve is arranged on the second water tank, the second air vent valve can play a role in balancing air pressure inside and outside the second water tank, and automatic water supplement of the first water tank can be guaranteed.

It should be noted that, the first vent valve and the second vent valve may be waterproof vent valves, so that water in the first water tank and the second water tank may be prevented from flowing out, and the internal and external air pressures of the first water tank and the second water tank may be balanced. It is to be understood that, although the embodiment of the present invention has been described by taking the waterproof and breathable valve as an example, other manners may be adopted by those skilled in the art to achieve the waterproof and breathable effects of the first water tank and the second water tank, for example, through holes are provided on the first water tank and the second water tank, and a waterproof and breathable film is provided at the through holes, which may also achieve the above-mentioned effects of preventing water from flowing out and balancing the internal and external air pressures, which is also an embodiment of the present invention, and these manners and other realizable manners are obvious to those skilled in the art.

Further, the inlet valve assembly 100 includes a first mounting 101, a first inlet valve 110, and a kicker 130. The first inlet valve 110 is disposed on the first mounting seat 101, the first inlet valve 110 has a first diversion channel 111, the first inlet valve 110 includes a first valve core 112, the first valve core 112 is movably disposed in the first diversion channel 111, and the first valve core 112 is capable of blocking a first outlet of the first diversion channel 111. The ejection member 130 is movably disposed between the first mounting seat 101 and the first valve core 112, the ejection member 130 has a communicating cavity 131, and the ejection member 130 can be pressed to drive the first valve core 112 to move so as to communicate the first flow guide channel 111 and the communicating cavity 131.

The present invention provides a water inlet valve assembly 100 comprising a first mounting block 101, a first water inlet valve 110 and a knock-out member 130. The first mounting 101 is for mounting the first inlet valve 110 and the kicker 130. When the inlet valve assembly 100 is applied to a laundry treating apparatus, the first mounting seat 101 may be a base of the laundry treating apparatus, and the first inlet valve 110 and the knock-out member 130 are disposed on the base. The first inlet valve 110 is disposed on the first mount 101. It is noted that the first inlet valve 110 is fixedly mounted on the first mounting base 101. Specifically, the first mounting seat 101 has a first mounting cavity, and at least a portion of the first water inlet valve 110 is disposed in the first mounting cavity, so that the first water inlet valve 110 is protected in all directions, the first water inlet valve 110 is prevented from being damaged by the external environment, the service life of the first water inlet valve 110 is prolonged, and the overall appearance and aesthetic feeling of the laundry treating apparatus can be improved. The first inlet valve 110 has a first diversion channel 111, and the first inlet valve 110 further includes a first inlet and a first outlet, both of which are communicated with the first diversion channel 111. The first inlet valve 110 further includes a first valve core 112, the first valve core 112 is movably disposed in the first diversion channel 111, the first valve core 112 is capable of blocking the first outlet, and the first valve core 112 is also capable of being away from the first outlet to achieve communication between the first diversion channel 111 and other channels. The water inlet valve assembly 100 further comprises an ejecting member 130, the ejecting member 130 is movably disposed on the first mounting seat 101, and when the ejecting member 130 is not pressed, the first valve core 112 blocks the first water outlet, that is, the water inlet valve assembly 100 is in a non-conducting state, that is, the water inlet valve assembly 100 achieves a water sealing function. When the ejecting member 130 is pressed, the end of the ejecting member 130 contacts the first valve core 112 and drives the first valve core 112 to be away from the first water outlet, so that the first flow guide channel 111 is communicated with the communicating cavity 131 of the ejecting member 130, thereby realizing communication. The embodiment of the utility model provides a water intaking valve assembly 100, through the first case 112 in the first water intaking valve 110 and the mating reaction of piece 130 that backs down, when backing down piece 130 is not pressurized, first case 112 can the shutoff first delivery port so that intercommunication chamber 131 and first water conservancy diversion passageway 111 do not communicate, realize sealing the water function to avoid leaking any safety problem that probably arouses, in addition, aforementioned water intaking valve assembly 100 still has simple structure, advantage that application scope is wider. In particular, the water inlet valve assembly 100 may be applied to a laundry treating apparatus, such as a garment steamer. The inlet valve assembly 100 may also be used in air treatment devices such as humidifiers, humidifying air conditioning fans, and the like. It should be noted that the ejector 130 is protruded from the first mounting seat 101, so that the positioning and installation of other components (the second mounting seat 102) and the first mounting seat 101 can be facilitated.

Further, the second inlet valve 120 further includes a second valve body 123 and a second elastic member 124, the second valve body 123 is connected to the second mounting seat 102, and the second valve body 123 forms a second guide passage 121 and a second inlet. The second elastic element 124 is disposed between the second valve body 123 and the second valve core 122 in a compressed manner, and the second elastic element 124 rebounds to drive the second valve core 122, the ejection element 130 and the first valve core 112 to move so as to communicate the second flow guide channel 121, the communication cavity 131 and the first flow guide channel 111.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A fill valve assembly, comprising:

a first mounting seat;

the second mounting seat is detachably arranged on the first mounting seat;

one of the two water inlet valves is arranged on the first mounting seat, the other of the two water inlet valves is arranged on the second mounting seat, each water inlet valve is provided with a flow guide channel and a valve core movably arranged in the flow guide channel, and the valve core can block one flow guide port of the flow guide channel;

the top opening piece is movably arranged on the first mounting seat and provided with a communicating cavity, and the top opening piece can drive the valve core to be away from the flow guide opening so that the flow guide channel is communicated with the communicating cavity.

2. The fill valve assembly of claim 1,

the first mount includes an avoidance port;

the ejection member includes:

the top rod forms the communication cavity, one end of the top rod can be contacted with the valve core of one water inlet valve, and the other end of the top rod penetrates through the avoiding port to be contacted with the valve core of the other water inlet valve;

the assembling groove is arranged on the outer wall of the ejector rod;

and the jacking sealing part is arranged in the assembling groove and is in interference fit with the first mounting seat.

3. The fill valve assembly of claim 2, wherein the kicker further comprises:

and the overflowing opening is formed in the end part of the ejecting piece and can be communicated with the communicating cavity and the flow guide channel.

4. The fill valve assembly of claim 2, wherein the kicker further comprises:

the limiting part is arranged on the outer wall of the ejector rod and can be in contact with the inner wall surface of the first mounting seat.

5. The intake valve assembly of claim 4, wherein the stop portion comprises:

the at least one limiting boss is arranged on the ejector rod, and the at least one limiting boss and the ejector rod form the assembling groove.

6. The fill valve assembly of any of claims 1 to 5, wherein the fill valve comprises:

a first inlet valve disposed on the first mount, the first inlet valve having a first diversion channel, a first valve spool, and a first diversion port, the first inlet valve further comprising:

the first valve body is connected with the first mounting seat and forms the first flow guide channel and the first flow guide opening;

the first elastic piece is arranged between the first valve body and the first valve core in a compression mode;

and the first sealing piece is matched with the first valve body and is positioned at the first flow guide port, and the first sealing piece can be contacted with the first valve core.

7. The fill valve assembly of claim 6,

the first sealing element is in interference fit with the first valve body;

the first sealing element is in interference fit with the first mounting seat.

8. The fill valve assembly of claim 6, wherein the fill valve further comprises:

the second water inlet valve is arranged on the second mounting seat, the second water inlet valve is provided with a second flow guide channel, a second valve core and a second flow guide port, the jacking piece can be in contact with the second valve core and jacks the second valve core to conduct the second flow guide channel and the communication cavity, and the second water inlet valve further comprises:

the second valve body is connected with the second mounting seat and forms the second diversion channel and the second diversion port;

the second elastic piece is arranged between the second valve body and the second valve core in a compressed mode, and the second elastic piece can drive the second valve core, the jacking piece and the first valve core to move in a rebounding mode so as to conduct the second flow guide channel, the communicating cavity and the first flow guide channel.

9. The inlet valve assembly as recited in claim 8, wherein the second inlet valve further comprises:

and the second sealing element is matched with the second valve body and is positioned at the second flow guide port, and the second sealing element can be contacted with the second valve core.

10. A laundry treating apparatus, comprising:

the fill valve assembly of any of claims 1 to 9; and

a base including one of a first mount and a second mount of the inlet valve assembly;

the fitting piece is a water tank or a handheld portion, the fitting piece is detachably arranged on the base, and the fitting piece comprises the other one of the first mounting seat and the second mounting seat.