CN213740203U - Liquid storage device and clothes treatment device - Google Patents

Abstract

The utility model provides a stock solution device and clothing processing apparatus, wherein, the stock solution device includes: a liquid storage tank; the first overflowing component is arranged on the side wall of the liquid storage tank and comprises a first overflowing opening, and the first overflowing opening is located in the liquid storage tank and is lower than a preset liquid level of the liquid storage tank. The utility model provides a stock solution device, the first mouth that overflows of the first part that overflows of design is less than and predetermines the liquid level for the play liquid position of stock solution device is compared in the obvious reduction of correlation technique, and can guarantee that the liquid of liquid reserve tank bottom can directly flow through first part that overflows, avoids using intercommunication transition parts such as the pipe that absorbs water, and then has simplified the overall structure of stock solution device.

Description

Liquid storage device and clothes treatment device

Technical Field

The utility model relates to a life electrical apparatus technical field particularly, relates to a stock solution device and clothing processing apparatus.

Background

In the related art, as shown in fig. 1, liquid outlet valve 106 ' is disposed at the middle of liquid storage tank 102 ', and in order to ensure that the liquid in liquid storage chamber 104 ' is completely discharged, a suction pipe 108 ' is usually disposed in liquid storage chamber 104 ', and one end of suction pipe 108 ' is connected to liquid outlet valve 106 ', and the other end of suction pipe 108 ' is in contact with the lower position of the bottom of liquid storage tank 102 '. The above-described structure is complicated, and particularly, the transparent tank 102 'is not aesthetically pleasing due to the arrangement of the suction pipe 108'.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least.

Therefore, the utility model discloses the first aspect provides a stock solution device.

A second aspect of the present invention provides a laundry treating apparatus.

The utility model discloses the first aspect provides a stock solution device, include: a liquid storage tank; the first overflowing component is arranged on the side wall of the liquid storage tank and comprises a first overflowing opening, and the first overflowing opening is located in the liquid storage tank and is lower than a preset liquid level of the liquid storage tank.

The utility model provides a stock solution device includes liquid reserve tank and the first part that overflows. Wherein, the liquid storage tank can store liquid; the first overflowing component is arranged on the side wall of the liquid storage tank and comprises a first overflowing opening, and the first overflowing opening is lower than a preset liquid level of the liquid storage tank. Particularly, the utility model provides a stock solution device, the first mouth that overflows of the first part of design is less than and predetermines the liquid level for stock solution device's play liquid position is compared in the obvious reduction of correlation technique, and can guarantee that the liquid of stock solution tank bottom can directly flow through first part that overflows, avoids using intercommunication transition parts such as suction tube, and then has simplified stock solution device's overall structure. Especially under the condition of using transparent liquid reserve tank, avoid because of setting up the drawback that intercommunication transition parts such as suction tube brought, obviously promoted stock solution device's aesthetic measure.

The utility model provides a stock solution device reduces the position that sets up of first overflowing parts, especially optimizes to the position that sets up of first overflowing mouth for the inside whole liquid of liquid reserve tank all can directly discharge through first overflowing parts, avoids using intercommunication transition parts such as the pipe that absorbs water, has simplified stock solution device's structure, has promoted stock solution device's aesthetic property simultaneously.

It should be noted here that the predetermined liquid level of the liquid storage tank is designed in advance for the beginning of product design, and it is guaranteed that the inner liquid level of the liquid storage tank is above the predetermined liquid level in the working process of the liquid storage device, and then the liquid storage tank can supply liquid for the outside through the first overflowing part. Specifically, the preset liquid level can be a preset value or a preset range, and a person skilled in the art can reasonably design specific preset liquid level data according to requirements, and the preset liquid level is reduced during design, so that only as much liquid as possible in the liquid storage tank can flow out through the first overflowing part.

According to the utility model discloses above-mentioned technical scheme's stock solution device can also have following additional technical characteristics:

in the above technical solution, the first overcurrent component includes: the first valve body is arranged on the side wall of the liquid storage tank, and the first overflowing opening is arranged on one side, facing the bottom wall of the liquid storage tank, of the first valve body; the first valve port is arranged on the first valve body and communicated with the first overflowing port; and the first valve core is arranged in the first valve body and is configured to be used for conducting or disconnecting the first overflowing port and the first valve port.

In this technical scheme, first flow passage part still includes first valve body, first valve port and first case. Wherein, first valve body is connected with the lateral wall of liquid reserve tank, and first mouth that overflows sets up on first valve body to be located one side of first valve body orientation liquid reserve tank diapire, guarantee that first mouth that overflows is close to the diapire setting of liquid reserve tank more, and then has guaranteed that more liquid accessible in the liquid reserve tank flow through the first part that overflows. In addition, the first valve body is also provided with a first valve port, and the first valve port is ensured to be communicated with the first overflowing port; the first valve body is also internally provided with a first valve core, and the first overflowing port and the first valve port are communicated or disconnected through the first valve core.

In addition, the first overflowing component is a normally closed component, and the first valve core breaks communication between the first overflowing opening and the first valve port under the condition that no external force drives the first overflowing component. When the first overflowing component is used, the first valve core is driven by external force to conduct the first overflowing port and the first valve port, and at the moment, liquid in the liquid storage tank can be sucked out through the first overflowing component.

In addition, under the condition that the liquid storage tank is only provided with the first overflowing component, the first overflowing component can be used as a liquid outlet component and a liquid inlet component. That is, the liquid in the liquid storage tank can be discharged through the first flow passage member, and the liquid can be supplied to the liquid storage tank through the first flow passage member.

In any of the above technical solutions, the first valve body penetrates through a sidewall of the liquid storage tank, and the first valve port is located outside the liquid storage tank.

In this technical scheme, first valve body runs through the lateral wall setting in the liquid reserve tank to partly be located the inside of liquid reserve tank, partly is located the outside of liquid reserve tank. Wherein, with first mouth design that overflows lies in the inside partial wall of liquid reserve tank at first valve body to the diapire one side setting towards the liquid reserve tank guarantees that the liquid accessible of liquid reserve tank bottom overflows the mouth and enters into inside the valve body. The first valve port is designed on the partial wall surface of the first valve body, which is positioned outside the liquid storage tank, so that an external pipeline is conveniently connected and communicated with the first valve port, and then the liquid entering the valve body flows out.

In any one of the above technical solutions, the liquid storage device further includes: the second overflows the part, sets up on the liquid reserve tank, and the second overflows the diapire that the part is kept away from the liquid reserve tank in comparison with first overflow part.

In this technical scheme, the stock solution device still includes the second excessive flow component. The second overflowing component is arranged on the liquid storage box and is far away from the bottom wall of the liquid storage box compared with the first overflowing component. That is, the second overflowing part and the first overflowing part are simultaneously arranged on the side wall of the liquid storage tank, and the second overflowing part is positioned above the first overflowing part.

Particularly, based on the cooperation of the first overflowing component and the second overflowing component, the liquid storage device can be used for simultaneously feeding liquid and discharging liquid. Specifically, the first overflowing component can be used as a liquid outlet component, and the second overflowing component can be used as a liquid inlet component. That is, in the using process, the liquid can be supplemented into the liquid storage tank through the second overflowing component, and meanwhile, the liquid in the liquid storage tank can be discharged through the first overflowing component. And, because first overflowing parts sets up the bottom at the liquid reserve tank, guaranteed that whole liquid in the liquid reserve tank all can directly be discharged smoothly, through having avoided using connection transition parts such as suction tube, simplified liquid storage device's structure, promoted liquid storage device's aesthetic property simultaneously.

In any one of the above technical solutions, the second overcurrent component includes: the second valve body is arranged on the side wall of the liquid storage tank; the second overflowing port is arranged on the second valve body and is positioned in the liquid storage tank; the second valve port is arranged on the second valve body and communicated with the second overflowing port; and the second valve core is arranged in the second valve body and is configured to be used for connecting or disconnecting the second flow passing port and the second valve port.

In this technical scheme, the second flow passage part includes second valve body, second valve port, second flow passage and second case. Wherein, the second valve body is connected with the lateral wall of liquid reserve tank, and second overflow mouth and second valve mouth set up on the second valve body to intercommunication each other. The second overflowing port is communicated with the inside of the liquid storage tank, the second valve port is communicated with the external environment, and the second valve core is movably arranged in the second valve body and can be communicated with the second overflowing port and the second valve port or disconnected from the second overflowing port and the second valve port. In particular, the second overflow opening may be provided at a side of the second valve body facing the bottom wall of the tank, i.e. at the lowest of the second overflow openings.

In addition, the second overflowing component is a normally closed component, and the second valve core cuts off the communication between the second overflowing port and the second valve port under the condition of no external force driving. When the second overflowing component is used, the second valve core is driven by external force to conduct the second overflowing port and the second valve port, and at the moment, external liquid can flow into the liquid storage tank through the second overflowing component.

In any of the above technical solutions, a distance between the bottom end of the first flow port and the inner bottom wall of the liquid storage tank is greater than 0mm and less than or equal to 10 mm.

In the technical scheme, the distance between the bottom end of the first overflowing opening and the inner bottom wall of the liquid storage tank is larger than 0mm and smaller than or equal to 10 mm. That is, the utility model discloses set up the position to first overflow mouth and optimize for first overflow mouth obviously reduces at the position of the lateral wall of liquid reserve tank. Like this, in the stock solution device use for the play liquid position of liquid reserve tank obviously reduces, and then makes the inside a large amount of even whole liquid of liquid reserve tank all directly through first overflow mouthful discharge, has guaranteed the play liquid performance of liquid reserve tank on the one hand, and on the other hand has avoided using intercommunication transition parts such as the pipe that absorbs water, makes the aesthetic measure of liquid reserve tank device obtain obvious promotion.

Specifically, the distance between the bottom end of the first overflow port and the inner bottom wall of the reservoir may be 1mm, 2mm, 3mm, 4mm, 5mm, 6mm, 7mm, 8mm, 9mm, 10mm, etc., without being limited thereto.

In any one of the above technical solutions, the liquid storage device further includes: the air inlet part is arranged on the liquid storage tank and communicated with the liquid storage tank; and the air outlet part is arranged on the liquid storage tank and communicated with the liquid storage tank.

In the technical scheme, the liquid storage device further comprises an air inlet part and an air outlet part. Wherein, portion of admitting air and portion of discharging liquid all set up on the liquid reserve tank, and in the stock solution device use, the portion of giving vent to anger is mutually supported with the portion of admitting air, can guarantee that the inside atmospheric pressure of liquid reserve tank is balanced.

Specifically, when outside liquid enters into the liquid reserve tank inside, the inside gaseous accessible of liquid reserve tank portion of giving vent to anger flows, guarantees that the inside atmospheric pressure of liquid reserve tank is balanced, guarantees that outside liquid can enter into in the liquid reserve tank. When the liquid storage tank is flowed out to the inside liquid of liquid storage tank, the gaseous accessible air inlet of external environment enters into inside the liquid storage tank, guarantees that the inside atmospheric pressure of liquid storage tank is balanced, guarantees that the inside liquid of liquid storage tank can flow out.

In any of the above technical solutions, the air inlet portion is far away from the bottom wall of the liquid storage tank compared with the first overflowing part.

In this technical scheme, the distance between air inlet portion and the liquid reserve tank bottom wall will be greater than the distance between first overflowing part and the liquid reserve tank bottom wall. That is, the air intake portion is disposed higher than the first overflowing member in the height direction of the reservoir. The structure that has guaranteed air inlet portion and first overcurrent component on the one hand can not interfere, has guaranteed that first overcurrent component can be in lower position, and on the other hand has guaranteed that the liquid reserve tank can be from the lower first component flowing back that overflows in position, admits air through the higher air inlet portion in position, has avoided entering into the bubble in the liquid reserve tank to the disturbance of bottom liquid, and then makes the liquid in the liquid reserve tank can be as much as possible through first overcurrent component discharge.

In any one of the above technical solutions, the air outlet portion is far away from the bottom wall of the liquid storage tank compared with the air inlet portion.

In this technical scheme, the distance between portion of giving vent to anger and the liquid reserve tank diapire will be greater than the distance between portion of admitting air and the liquid reserve tank diapire. That is, the air outlet portion is disposed higher than the air inlet portion in the height direction of the reservoir tank. The air outlet part is arranged at a higher position, so that the liquid inside the liquid storage tank can be effectively prevented from flowing out, and the liquid leakage phenomenon of the liquid storage tank is further avoided.

Specifically, the air inlet part and the liquid outlet part are arranged on the liquid storage tank, and the air outlet part is ensured to be positioned above the air inlet part and is preferably positioned on the top wall of the liquid storage tank or is arranged at the position of the side wall close to the top wall.

In any of the above technical solutions, the air intake part is a check valve; and/or the air outlet part is a one-way valve.

In this technical scheme, the portion of admitting air is the check valve, and then guarantees that the inside liquid of liquid reserve tank can not flow through the portion of admitting air.

In this technical scheme, the portion of giving vent to anger is the check valve, and then guarantees that the external gas can not get into the liquid reserve tank through the portion of giving vent to anger. In addition, the portion of giving vent to anger will set up at the top of liquid reserve tank to guarantee that the liquid level in the liquid reserve tank is less than the portion setting of giving vent to anger, avoid the liquid in the liquid reserve tank to flow through the portion of giving vent to anger.

In any of the above technical solutions, the liquid storage tank includes: the first flow passage component is arranged on the box body; the cover body is connected with the box body and forms a liquid storage cavity together with the box body.

In this technical scheme, the liquid reserve tank includes box and lid. Wherein, the box body is connected with the cover body and forms a liquid storage cavity. The first overflowing component and the second overflowing component can be arranged on the box body and also can be arranged on the cover body. Specifically, the first overflowing component and the second overflowing component are arranged on the side wall of the box body and communicated with the liquid storage cavity.

A second aspect of the present invention provides a laundry treating apparatus, comprising: a body; according to the liquid storage device adopting any technical scheme, the liquid storage device is detachably connected with the body.

The utility model provides a clothes treatment device, including the body and the stock solution device as above-mentioned arbitrary technical scheme. Therefore, the clothes treatment device provided by the utility model has all the advantages of the liquid storage device, and the liquid storage device is not discussed one by one.

Particularly, the liquid storage device is detachably connected with the body, so that the use by a user is facilitated. Especially, under the condition that the liquid storage device is only provided with the first overflowing component, a user can conveniently add liquid after detaching the liquid storage device.

According to the utility model discloses above-mentioned technical scheme's clothing processing apparatus can also have following additional technical characterstic:

in the above technical solution, the laundry treating apparatus further includes: the jacking component is arranged on the body, and the jacking component opens the first overflowing component and the second overflowing component of the liquid storage device based on the fact that the liquid storage device is installed on the body.

In this technical solution, the laundry treating apparatus further includes a jack-up member. The jacking component is arranged on the body and matched with the first overflowing component and the second overflowing component. When the liquid storage device is installed on the body, the jacking component can open the first overflowing component and the second overflowing component to ensure the liquid to flow.

Specifically, the liquid storage device is only provided with a first overflowing component, and when the liquid storage device is installed on the body, the jacking component jacks up the first valve core and conducts the first overflowing opening and the first valve port. At this time, the liquid in the liquid storage tank can flow out through the first overflowing opening.

Specifically, the liquid storage device is provided with a first overflowing component and a second overflowing component, when the liquid storage device is installed on the body, the jacking component jacks up the first valve core and opens the first overflowing opening, and the jacking component jacks up the second valve core and conducts the second overflowing opening and the second valve opening. At this moment, inside outside liquid accessible second overflows the mouth and enters into the liquid reserve tank, the liquid in the liquid reserve tank can flow out through first overflowing mouth.

In any one of the above technical solutions, the laundry treating apparatus further includes: the steam generator is arranged on the body; the liquid outlet pipe is communicated with the steam generator and the first flow passage component; a driving part configured to be adapted to drive the liquid within the tank to the steam generator.

In the technical scheme, the clothes treatment device further comprises a steam generator, a liquid outlet pipe and a driving part. Wherein, steam generator sets up on the body, and the drain pipe is linked together with steam generator and first overflowing parts, and the driver part uses with the drain pipe cooperation to can pass through the drain pipe pump sending to steam generator inside with the liquid in the liquid reserve tank under the running state, make the inside liquid of entering into steam generator be heated and become the steam blowout.

In any one of the above technical solutions, the laundry treating apparatus further includes: and the liquid supply pipe is communicated with the second overflowing part and is configured to supply liquid to the liquid storage tank.

In this technical solution, the laundry treating apparatus further includes a liquid supply pipe. Wherein, the liquid supply pipe is arranged on the body and can provide liquid for the liquid storage tank. Specifically, can be this internal liquid supply tank, the feed pipe communicates in liquid supply tank and liquid reserve tank, and then provides liquid for the liquid reserve tank, also can be the external water source of feed pipe, and then provides liquid for the liquid reserve tank.

In any of the above technical solutions, the utility model provides a clothes treatment device is a garment steamer.

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 is a schematic structural view of a liquid storage device in the related art.

Wherein, the corresponding relation between the reference numbers and the part names in fig. 1 is:

102 'reservoir, 104' reservoir, 106 'outlet valve, 108' suction tube.

FIG. 2 is a schematic structural diagram of a liquid storage device according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a liquid storage device according to another embodiment of the present invention;

fig. 4 is a schematic structural view of a laundry treating apparatus according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 2 to 4 is:

100 liquid storage device, 102 liquid storage tank, 104 liquid storage cavity, 106 first overflowing part, 108 first valve body, 110 first overflowing port, 112 first valve core, 114 second overflowing part, 116 second valve body, 118 second overflowing port, 120 second valve core, 122 gas inlet part, 124 gas outlet part, 126 box body, 128 cover body, 130 first valve port, 132 second valve port, 200 body, 202 steam generator, 204 liquid outlet pipe, 206 driving part and 208 liquid supply pipe.

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 liquid storage device and a laundry treating device provided according to some embodiments of the present invention will be described below with reference to fig. 2 to 4.

The first embodiment is as follows:

as shown in fig. 2, a first embodiment of the present invention provides a liquid storage device 100, including: a reservoir 102 and a first flow pass component 106.

Wherein, the liquid storage tank 102 can store liquid; the first flow pass component 106 is disposed on a sidewall of the tank 102, and the first flow pass component 106 includes a first flow pass port 110, which is lower than a predetermined level setting of the tank 102 at the first flow pass port 110.

It should be noted that the preset liquid level of the liquid storage tank 102 is pre-designed for the beginning of product design, so as to ensure that the liquid level inside the liquid storage tank 102 is above the preset liquid level during the operation of the liquid storage apparatus 100, and further ensure that the liquid storage tank 102 can supply liquid to the outside through the first flow-through component 106. Specifically, the preset liquid level may be a preset value or a preset range, and a person skilled in the art may reasonably design specific preset liquid level data according to needs, and the preset liquid level should be reduced during the design, so as to ensure that only as much liquid in the liquid storage tank 102 may flow out through the first overflowing part 106.

In particular, as shown in fig. 2, in the liquid storage device 100 of the present embodiment, the first flow-through port 110 of the first flow-through component 106 is designed to be lower than a preset liquid level, so that the liquid outlet position of the liquid storage device 100 is significantly reduced compared to the related art, and it can be ensured that the liquid at the bottom of the liquid storage tank 102 can directly flow out through the first flow-through component 106, thereby avoiding the use of a suction pipe and other communication transition components, and further simplifying the overall structure of the liquid storage device 100. Especially, under the condition of using the transparent liquid storage tank 102, the defect caused by arranging a communicating transition part such as a suction pipe and the like is avoided, and the aesthetic degree of the liquid storage device 100 is obviously improved.

In addition, in the present embodiment, as shown in fig. 2, the first flow passage component 106 can be used as a liquid outlet component as well as a liquid inlet component. That is, when the liquid storage device 100 is in a use state, the liquid in the liquid storage tank 102 flows out through the first flow passage member 106; when the liquid storage apparatus 100 is in a state of adding liquid, external liquid is added to the inside of the liquid storage tank 102 through the first multi-fluid retaining member.

In this embodiment, further, as shown in fig. 2, the first flow passage component 106 further includes a first valve body 108, a first port 130, and a first valve spool 112. Wherein, first valve body 108 is connected with the lateral wall of liquid reserve tank 102, and first overflow mouth 110 sets up on first valve body 108 to be located one side of first valve body 108 towards the liquid reserve tank 102 diapire, guarantee that first overflow mouth 110 is closer to the diapire setting of liquid reserve tank 102, and then guaranteed that more liquid accessible in the liquid reserve tank 102 flows through first overflow part 106. In addition, the first valve body 108 is further provided with a first port 130, and the first port 130 is ensured to be communicated with the first flow passing port 110; the first valve body 108 is further provided with a first valve spool 112, and the first flow passage 110 is communicated with the first port 130 through the first valve spool 112, or the first flow passage 110 is disconnected from the first port 130.

In addition, as shown in fig. 2, the first flow passage component 106 is a normally closed component, and the first valve spool 112 disconnects the first flow passage port 110 from the first valve port 130 under the condition of no external force actuation. When the first flow passage component 106 is in use, the first valve element 112 is driven by an external force to communicate the first flow passage port 110 and the first valve port 130, and at this time, the liquid in the tank 102 can be sucked out through the first flow passage component 106.

In addition, when only the first flow passage member 106 is provided in the tank 102, the first flow passage member 106 can be used as a liquid outlet member or a liquid inlet member. That is, the liquid in the liquid storage tank 102 can be discharged through the first flow passage member 106, and the liquid can be replenished into the liquid storage tank 102 through the first flow passage member 106.

In this embodiment, further, as shown in fig. 2, the first valve body 108 is disposed through a sidewall of the tank 102, and a portion is located inside the tank 102 and a portion is located outside the tank 102. The first flow port 110 is designed on a part of the wall surface of the first valve body 108 inside the liquid storage tank 102, and is arranged towards one side of the bottom wall of the liquid storage tank 102, so that the liquid at the bottom of the liquid storage tank 102 can enter the inside of the valve body through the first flow port 110. The first port 130 is designed on a portion of the wall surface of the first valve body 108 outside the tank 102, so that an external pipeline can be connected and communicated with the first port 130, and thus the liquid entering the interior of the valve body can flow out.

Example two:

as shown in fig. 3, a second embodiment of the present invention provides a liquid storage device, including: a reservoir 102, a first flow pass component 106, and a second flow pass component 114.

Wherein, the liquid storage tank 102 can store liquid; the first flow pass component 106 is disposed on a sidewall of the tank 102, and the first flow pass component 106 includes a first flow pass port 110, which is lower than a predetermined level setting of the tank 102 at the first flow pass port 110.

It should be noted that the preset liquid level of the liquid storage tank 102 is pre-designed for the beginning of product design, so as to ensure that the liquid level inside the liquid storage tank 102 is above the preset liquid level during the operation of the liquid storage apparatus 100, and further ensure that the liquid storage tank 102 can supply liquid to the outside through the first flow-through component 106. Specifically, the preset liquid level may be a preset value or a preset range, and a person skilled in the art may reasonably design specific preset liquid level data according to needs, and the preset liquid level should be reduced during the design, so as to ensure that only as much liquid in the liquid storage tank 102 may flow out through the first overflowing part 106.

In addition, as shown in fig. 3, the liquid storage device 100 further includes a second flow-passing component 114, and the second flow-passing component 114 is disposed on the liquid storage tank 102 and is farther from the bottom wall of the liquid storage tank 102 than the first flow-passing component 106. That is, the second flow passing component 114 and the first flow passing component 106 are simultaneously disposed on the side wall of the tank 102, and the second flow passing component 114 is located above the first flow passing component 106.

That is, in this embodiment, as shown in fig. 3, the cooperation of the first flow-passing component 106 and the second flow-passing component 114 can enable the liquid storage device to simultaneously feed liquid and discharge liquid. Specifically, the first flow passage component 106 can be used as a liquid outlet component, and the second flow passage component 114 can be used as a liquid inlet component. That is, during use, liquid in the tank 102 can be replenished through the second flow pass component 114, while liquid in the tank 102 can be drained through the first flow pass component 106. In addition, the first overflowing part 106 is arranged at the bottom of the liquid storage tank 102, so that all liquid in the liquid storage tank 102 can be directly and smoothly discharged, the structure of the liquid storage device is simplified by avoiding the use of connecting transition parts such as a water suction pipe, and meanwhile, the attractiveness of the liquid storage device is improved.

In this embodiment, further, as shown in FIG. 3, the second flow passage component 114 includes a second valve body 116, a second valve port 132, a second flow passage port 118, and a second valve spool 120. Wherein the second valve body 116 is connected to a sidewall of the reservoir 102, and a second flow port 118 and a second valve port 132 communicating with each other are provided on the second valve body 116. The second flow port 118 is connected to the interior of the tank 102, the second valve port 132 is connected to the external environment, and the second valve spool 120 is movably disposed in the second valve body 116 and can connect the second flow port 118 and the second valve port 132 and disconnect the second flow port 118 and the second valve port 132. Specifically, the second overflow port 118 may be disposed at a side of the second valve body 116 facing the bottom wall of the tank 102, that is, at the lowest position of the second overflow port 118.

Further, as shown in FIG. 3, the second flow passage component 114 is a normally closed component, and the second spool 120 disconnects the second flow passage port 118 from the second valve port 132 in the absence of an external force. During the use of the second flow passage component 114, the second valve spool 120 is driven by an external force to communicate the second flow passage port 118 and the second valve port 132, so that the external fluid can flow into the tank 102 through the second flow passage component 114.

Example three:

as shown in fig. 2 and 3, a third embodiment of the present invention provides a liquid storage device, including: the reservoir 102, the vent member, the first flow pass component 106, and/or the second flow pass component 114; an inlet portion 122 and an outlet portion 124.

In addition to the first and second embodiments, as shown in fig. 2 and 3, the liquid storage device 100 further includes an air inlet 122 and an air outlet 124. Wherein, air inlet portion 122 and liquid outlet portion all set up on liquid reserve tank 102, and in the use of liquid storage device 100, air outlet portion 124 and air inlet portion 122 mutually support, can guarantee that the inside atmospheric pressure of liquid reserve tank 102 is balanced.

Specifically, when the external liquid enters the liquid storage tank 102, the gas inside the liquid storage tank 102 can flow out through the gas outlet portion 124, so as to ensure the internal pressure balance of the liquid storage tank 102 and ensure that the external liquid can enter the liquid storage tank 102. When the liquid in the liquid storage tank 102 flows out of the liquid storage tank 102, the gas in the external environment can enter the liquid storage tank 102 through the air inlet 122, so as to ensure the balance of the air pressure in the liquid storage tank 102 and ensure the liquid in the liquid storage tank 102 to flow out.

In this embodiment, as shown in fig. 2 and 3, the distance between the air inlet 122 and the bottom wall of the tank 102 is larger than the distance between the first flow passage member 106 and the bottom wall of the tank 102. That is, the air inlet portion 122 is disposed higher than the first flow passage member 106 in the height direction of the reservoir tank 102. On the one hand, the air inlet part 122 is guaranteed not to interfere with the structure of the first overflowing part 106, the first overflowing part 106 is guaranteed to be in a lower position, on the other hand, the liquid storage tank 102 is guaranteed to discharge liquid from the first overflowing part 106 with the lower position, air is introduced through the air inlet part 122 with the higher position, disturbance of bubbles entering the liquid storage tank 102 to bottom liquid is avoided, and then liquid in the liquid storage tank 102 can be discharged through the first overflowing part 106 as much as possible.

In an embodiment, when the external liquid enters the liquid storage tank 102, the gas inside the liquid storage tank 102 can flow out through the gas outlet 124, so as to ensure the balance of the internal pressure of the liquid storage tank 102 and ensure the external liquid can enter the liquid storage tank 102. When the liquid in the liquid storage tank 102 flows out of the liquid storage tank 102, the gas in the external environment can enter the liquid storage tank 102 through the air inlet 122, so as to ensure the balance of the air pressure in the liquid storage tank 102 and ensure the liquid in the liquid storage tank 102 to flow out.

In this embodiment, as shown in fig. 2 and 3, the air inlet 122 is a one-way valve, so as to ensure that the liquid in the tank 102 does not flow out through the air inlet 122.

In this embodiment, as shown in fig. 2 and 3, the air outlet 124 is a one-way valve, so as to ensure that the external air cannot enter the liquid storage tank 102 through the air outlet 124. In addition, the air outlet 124 is disposed at the top of the liquid storage tank 102, and it is ensured that the liquid level in the liquid storage tank 102 is lower than the air outlet 124, thereby preventing the liquid in the liquid storage tank 102 from flowing out through the air outlet 124.

In addition, the liquid storage device provided in this embodiment has all the advantages of the liquid storage device according to the first embodiment and the second embodiment, and the discussion is not repeated here.

In addition to the first, second and third embodiments, as shown in fig. 2 and 3, the liquid storage tank 102 includes a tank body 126 and a cover body 128. Wherein the housing 126 is coupled to the cover 128 and defines the reservoir 104. The first flow passage component 106 and the second flow passage component 114 can be arranged on the box body 126 or the cover body 128, and the first flow passage component 106 and the second flow passage component 114 are communicated with the liquid storage cavity 104.

In a particular embodiment, as shown in FIGS. 2 and 3, the first flow passage member 106 and the second flow passage member 114 are disposed on a side wall of the tank 126.

In a particular embodiment, as shown in fig. 2 and 3, the cover 128 is a transparent cover.

Example four:

as shown in fig. 4, a fourth embodiment of the present invention provides a laundry treating apparatus, including: a body 200 and a reservoir 100 as in any of the embodiments described above.

The clothes treatment device provided by the embodiment comprises the liquid storage device 100 of any one of the above embodiments. Therefore, all the advantages of the liquid storage device 100 are provided, and will not be discussed in detail.

In the embodiment, the liquid storage device 100 is detachably connected to the body 200, so that the user can use the liquid storage device conveniently. Particularly, in the case that the liquid storage device 100 is provided with only the first flow-passing member 106, it is convenient for a user to add liquid after detaching the liquid storage device 100.

In this embodiment, further, the laundry treating apparatus further includes a jack-up member. Wherein, the jacking component is arranged on the body 200 and is matched with the first flow passage component 106 and the second flow passage component 114. When the liquid storage device 100 is installed in the body 200, the jacking component can open the first flow passage component 106 and the second flow passage component 114, so as to ensure the liquid to flow.

In an embodiment, the liquid storage device 100 is provided with only the first flow passage component 106, and when the liquid storage device 100 is installed in the body 200, the jacking component jacks up the first valve spool 112 and opens the first flow passage port 110. At this time, the liquid in the tank 102 may flow out of the tank 102 through the first flow port 110.

In an embodiment, as shown in fig. 4, the liquid storage device 100 is provided with a first flow passage component 106 and a second flow passage component 114, when the liquid storage device 100 is installed in the body 200, the jacking component jacks up the first valve spool 112 and conducts the first flow passage port 110 and the first valve port 130, and the jacking component jacks up the second valve spool 120 and conducts the first flow passage port 118 and the first valve port 130. At this time, the external liquid may enter the interior of the tank 102 through the second flow port 118, and the liquid in the tank 102 may flow out of the tank 102 through the first flow port 110.

In this embodiment, further, as shown in fig. 4, the laundry treating apparatus further includes a steam generator 202, a drain pipe 204, and a driving part 206. The steam generator 202 is disposed on the body 200, the liquid outlet pipe 204 is communicated with the steam generator 202 and the first flow passage component 106, the driving component 206 is used in cooperation with the liquid outlet pipe 204, and the liquid in the liquid storage tank 102 can be pumped into the steam generator 202 through the liquid outlet pipe 204 in an operating state, so that the liquid entering the steam generator 202 is heated to become steam and is sprayed out.

In this embodiment, further, as shown in fig. 4, the laundry treating apparatus further includes a liquid supply pipe 208. Wherein the supply pipe 208 is disposed on the body 200 and can supply liquid to the tank 102. Specifically, a liquid supply tank may be built in the body 200, and the liquid supply pipe 208 is connected to the liquid supply tank and the liquid storage tank 102 to provide liquid for the liquid storage tank 102, or the liquid supply pipe 208 is externally connected to a water source to provide liquid for the liquid storage tank 102.

Alternatively, in some embodiments of the present invention, the first overflow vent 110 is below or at a predetermined minimum level of the tank 102. Thus, when the liquid storage tank 102 discharges water outwards along the first overflowing port 110, the liquid level in the liquid storage tank 102 can reach the preset lowest liquid level or be lower than the preset lowest liquid level, and the water is discharged more fully.

Alternatively, in some embodiments of the present invention, the first overflow port 110 is located at an upper side of the bottom wall of the tank 102 and is disposed near the bottom wall of the tank 102. Further, the distance L between the bottom end of the first overflow port 110 and the inner bottom surface of the reservoir 102 is 10mm or less. Further, the bottom end of the first flow port 110 is opposite to a portion of the bottom wall of the reservoir 102. The vertical distance L between the bottom end of the first overflow port 110 and the bottom wall of the opposite liquid storage tank 102 is less than or equal to 10 mm.

In any of the above embodiments, further, as shown in fig. 2 and 3, the distance between the bottom end of the first flow-through port and the inner bottom wall of the liquid storage tank is L, and 0mm < L ≦ 10mm is satisfied. That is, the present embodiment optimizes the position of the first overflow opening 110, so that the position of the first overflow opening 110 on the sidewall of the tank 102 is significantly reduced. Like this, in the stock solution device use for the play liquid position of liquid reserve tank 102 obviously reduces, and then makes the inside a large amount of even whole liquid of liquid reserve tank 102 all directly discharge through first overflow mouth 110, has guaranteed the play liquid performance of liquid reserve tank 102 on the one hand, and on the other hand has avoided using intercommunication transition parts such as suction pipe, makes the aesthetic measure of liquid reserve device obtain obvious promotion.

Specifically, the distance L between the bottom end of the first overflow port 110 and the inner bottom wall of the reservoir 102 may be 1mm, 2mm, 3mm, 4mm, 5mm, 6mm, 7mm, 8mm, 9mm, 10mm, etc., and is not particularly limited herein.

In an embodiment, the distance L between the bottom end of the first flow-through port 110 and the inner bottom wall of the reservoir 102 can be designed according to different use scenarios and use requirements, and it will be understood by those skilled in the art.

For example, when the liquid storage device adopts automatic water feeding, the first overflow port 110 is designed to be positioned at the upper side of the bottom wall of the liquid storage tank 102 and lower than the preset liquid level line inside the liquid storage tank 102, and the bottom end of the first overflow port 110 is guaranteed to be always lower than the liquid level inside the liquid storage tank 102.

For example, when the liquid storage device is applied to a handheld garment steamer, a user can continuously move the liquid storage device in the using process, so that the distance L between the bottom end of the first overflowing opening 110 and the inner bottom wall of the liquid storage box 102 can be set to be larger, and can be 6mm, 7mm, 8mm, 9mm, 10mm and the like.

For example, when the reservoir is applied to a non-hand-held garment steamer, the reservoir is generally in an undetermined placement position, and thus the distance L between the bottom end of the first overflow opening 110 and the inner bottom wall of the reservoir 102 may be set to be small, and may be 1mm, 2mm, 3mm, 4mm, 5mm, etc.

The first embodiment is as follows:

the liquid storage device that this embodiment provided includes: the box, lid, first overcurrent component, air inlet portion, portion of giving vent to anger.

Wherein, the air inlet part has the function of air inlet; the air outlet part has the function of air outlet; the first overflowing component has the functions of liquid inlet, liquid outlet and first overflowing opening plugging. Specifically, the first overflowing part is used as a liquid outlet part and a liquid inlet part.

The utility model provides a liquid storage device can be at the liquid in the suction liquid storage tank under the condition that does not have the pipe that absorbs water. Specifically, compared with the related art, in the embodiment, the first overflowing component is arranged at a lower position of the water level of the liquid storage tank in the working state, and the first overflowing port is formed at the lowest point of the water level of the first valve body. In addition, when the liquid amount in the liquid storage tank is insufficient, the liquid storage device can be disassembled and then liquid is supplemented into the liquid storage tank through the first overflowing part.

That is, in this embodiment, the first flow passage component can be used as both the liquid inlet component and the liquid outlet component.

In a specific embodiment, the reservoir is a water tank.

In a particular embodiment, the laundry treatment device is a garment steamer.

In a particular embodiment, further, the laundry treating device is a hand-held garment steamer.

The second embodiment is as follows:

as shown in fig. 4, the liquid storage device proposed in this embodiment includes: the flow passage comprises a box body 126, a cover body 128, a first flow passage component 106, a second flow passage component 114, an air inlet part 122 and an air outlet part 124.

The air inlet 122 has an air inlet function; the air outlet part 124 has the function of air outlet; the first flow-passing component 106 has the functions of discharging liquid and blocking the first flow-passing opening 110; the second flow passage component 114 has the functions of discharging liquid and blocking the second flow passage port 118. Specifically, the first overflowing part 106 is used as a liquid outlet part, and the second overflowing part 114 is used as a liquid inlet part.

The utility model provides a liquid storage device can be under the condition of no suction pipe the liquid in the clean-up liquid storage tank 102. Specifically, compared with the related art, the utility model discloses set up first overflow part 106 in the lower position of liquid reserve tank 102 operating condition water level to open first overflow mouth 110 at the water level minimum of first valve body 108, when first case 112 of first overflow part 106 was backed up, rivers got into first overflow part 106 through first overflow mouth 110, still can reach the mesh of inhaling the pure water.

That is, in this embodiment, as shown in fig. 4, the first flow-through component 106 is a liquid inlet component, the second flow-through component 114 is a liquid outlet component, and the liquid storage tank 102 can simultaneously supply liquid and discharge liquid.

In a particular embodiment, the reservoir 102 is a water tank.

In a particular embodiment, the laundry treatment device is a garment steamer.

In a particular embodiment, further, the laundry treating device is a hand-held garment steamer.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. 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 is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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 (15)

1. A liquid storage device, comprising:

a liquid storage tank;

the first overflow component is arranged on the side wall of the liquid storage tank and comprises a first overflow port, and the first overflow port is located in the liquid storage tank and is lower than a preset liquid level of the liquid storage tank.

2. The liquid storage device of claim 1, wherein the first flow-through component comprises:

the first valve body is arranged on the side wall of the liquid storage tank, and the first overflowing opening is arranged on one side, facing the bottom wall of the liquid storage tank, of the first valve body;

the first valve port is arranged on the first valve body and communicated with the first overflowing port;

the first valve core is arranged in the first valve body and is configured to be used for conducting or disconnecting the first overflowing opening and the first valve opening.

3. The liquid storage device of claim 2,

the first valve body penetrates through the side wall of the liquid storage tank, and the first valve port is located outside the liquid storage tank.

4. The liquid storage device of any one of claims 1 to 3, further comprising:

the second overflows the part, set up in on the liquid reserve tank, the second overflow the part compare in first overflow the part and keep away from the diapire of liquid reserve tank.

5. The liquid storage device according to claim 4, wherein the second flow-passing member includes:

the second valve body is arranged on the side wall of the liquid storage tank;

the second overflowing port is arranged on the second valve body and is positioned in the liquid storage tank;

the second valve port is arranged on the second valve body and communicated with the second overflowing port;

and the second valve core is arranged in the second valve body and is configured to be used for conducting or disconnecting the second overflowing port and the second valve port.

6. The liquid storage device of claim 5,

the second valve body penetrates through the side wall of the liquid storage tank, and the second valve port is located outside the liquid storage tank.

7. The liquid storage device of any one of claims 1 to 3,

the distance between the bottom end of the first overflowing opening and the inner bottom wall of the liquid storage box is larger than 0mm and smaller than or equal to 10 mm.

8. The liquid storage device of any one of claims 1 to 3, further comprising:

the air inlet part is arranged on the liquid storage tank and communicated with the liquid storage tank;

and the air outlet part is arranged on the liquid storage tank and communicated with the liquid storage tank.

9. The liquid storage device of claim 8,

the air inlet part is far away from the bottom wall of the liquid storage box compared with the first overflowing part; and/or

The air outlet part is far away from the bottom wall of the liquid storage box compared with the air inlet part.

10. The liquid storage device of claim 8,

the air inlet part is a one-way valve; and/or

The air outlet part is a one-way valve.

11. A liquid storage device according to any one of claims 1 to 3, wherein the tank comprises:

the first flow passage component is arranged on the box body;

the cover body is connected with the box body and forms a liquid storage cavity together with the box body.

12. A laundry treating apparatus, comprising:

a body;

a reservoir device as defined in any one of claims 1 to 11, being removably connectable to the body.

13. The laundry treating apparatus according to claim 12, further comprising:

the jacking component is arranged on the body, and based on the fact that the liquid storage device is installed on the body, the jacking component opens the first overflowing component and the second overflowing component of the liquid storage device.

14. The laundry treating apparatus according to claim 12, further comprising:

the steam generator is arranged on the body;

the liquid outlet pipe is communicated with the steam generator and the first flow passage component;

a driving part configured to be adapted to drive the liquid within the tank to the steam generator.

15. The laundry treating apparatus according to any one of claims 12 to 14, further comprising:

and the liquid supply pipe is communicated with the second overflowing part of the liquid storage device and is configured to supply liquid to the liquid storage tank.

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