阅读说明：本技术 冷凝容器及衣物处理设备 (Condensation container and clothes treatment equipment ) 是由 颜灵智 谢红伟 王翠莲 于 2021-09-13 设计创作，主要内容包括：本发明属于冷凝技术领域,具体涉及一种冷凝容器及衣物处理设备。本发明旨在解决冷凝容器及其内的冷凝介质的温度波动大的问题。本发明的冷凝容器内形成有用于储存冷凝介质的介质腔,冷凝容器的上部和下部分别设有连通介质腔的介质进口和介质出口,介质腔内设置有用于控制介质进口通断的液位控制阀；液位控制阀在介质腔内的液位达到预设液位时关闭并在介质腔内的液位低于预设液位时开启,介质出口处设置有用于控制介质出口通断的压力控制阀,压力控制阀在受到的压力不小于预设压力时开启并在受到的压力小于预设压力时关闭。通过上述设置,冷凝时,介质腔一直处于对其内的冷凝介质进行少量动态更替的状态,冷凝容器的温度波动小,冷凝效果更为均衡。(The invention belongs to the technical field of condensation, and particularly relates to a condensation container and clothes treatment equipment. The invention aims to solve the problem that the temperature fluctuation of a condensation container and a condensation medium in the condensation container is large. A medium cavity for storing a condensing medium is formed in a condensing container, a medium inlet and a medium outlet which are communicated with the medium cavity are respectively formed in the upper part and the lower part of the condensing container, and a liquid level control valve for controlling the connection and disconnection of the medium inlet is arranged in the medium cavity; the liquid level control valve is closed when the liquid level in the medium cavity reaches a preset liquid level and is opened when the liquid level in the medium cavity is lower than the preset liquid level, a pressure control valve used for controlling the on-off of the medium outlet is arranged at the medium outlet, and the pressure control valve is opened when the pressure received by the pressure control valve is not less than the preset pressure and is closed when the pressure received by the pressure control valve is less than the preset pressure. Through the arrangement, during condensation, the medium cavity is always in a state of carrying out small-amount dynamic replacement on the condensing medium in the medium cavity, the temperature fluctuation of the condensing container is small, and the condensing effect is more balanced.)

1. A condensation container is characterized in that a medium cavity for storing a condensation medium is formed in the condensation container, and the upper part and the lower part of the condensation container are respectively provided with a medium inlet and a medium outlet which are communicated with the medium cavity;

a liquid level control valve for controlling the on-off of the medium inlet is arranged in the medium cavity; the liquid level control valve is closed when the liquid level in the medium cavity reaches a preset liquid level and is opened when the liquid level in the medium cavity is lower than the preset liquid level;

a pressure control valve for controlling the on-off of the medium outlet is arranged at the medium outlet; the pressure control valve is opened when the pressure received by the pressure control valve is not less than the preset pressure and is closed when the pressure received by the pressure control valve is less than the preset pressure;

when the preset pressure is equal to the pressure applied to the pressure control valve when the liquid level control valve and the pressure control valve are both closed and the temperature in the medium cavity is equal to the preset temperature; and when the liquid level control valve is switched from the opening state to the closing state, the pressure applied to the pressure control valve is smaller than the preset pressure.

2. A condensation container according to claim 1, wherein the level control valve comprises a float, a guide sleeve and a first blocking member, the guide sleeve is fastened to the inner wall of the medium chamber, the float is slidably connected to the guide sleeve, the float can slide up and down along the guide sleeve, the first blocking member is fastened to the top of the float, the first blocking member is located right below the medium inlet, and the float is configured to drive the first blocking member to move between blocking the medium inlet and moving away from the medium inlet.

3. A condensation container according to claim 2, wherein a rigid straight rod is fastened to the center of the top surface of the float, the guide sleeve is sleeved outside the rigid straight rod and is slidably connected with the rigid straight rod, the rigid straight rod can slide up and down along the guide sleeve, and the float is slidably connected with the guide sleeve through the rigid straight rod;

the first plugging piece is fixedly connected with the rigid straight rod, and the first plugging piece is arranged above the guide sleeve.

4. A condensation container according to claim 3, wherein the level control valve further comprises a second blocking member disposed at the top end of the rigid straight rod, and the float is further adapted to move the second blocking member between blocking the liquid injection port and being away from the liquid injection port, wherein the liquid injection port is disposed outside the condensation container and directly above the medium inlet;

the first blocking piece is an elastic sealing sleeve, the elastic sealing sleeve is sleeved on the outer wall of the rigid straight rod, the lower end of the elastic sealing sleeve is fixedly connected with the outer wall of the rigid straight rod, the elastic sealing sleeve is arranged below the second blocking piece, and the upper end of the elastic sealing sleeve is used for blocking the medium inlet.

5. A condensation vessel according to claim 4, characterized in that the second closure is an elastic conical closure with its small end facing upwards.

6. A condensation vessel according to claim 2, wherein the top wall of the medium chamber comprises a level area, the medium inlet being provided in said level area.

7. A condensation container according to claim 2, wherein a striker is fastened to the bottom end of the float, said striker being located directly above the medium outlet;

the striker increases the pressure to which the pressure control valve is subjected in response to the lowering of the float to drive the pressure control valve to open the medium outlet; the striker further reduces the pressure to which the pressure control valve is exposed in response to the float floating to actuate the pressure control valve to close the media outlet;

the opening degree of the pressure control valve when the pressure control valve is opened is smaller than that of the liquid level control valve when the liquid level control valve is opened;

and when the liquid level in the medium cavity is lower than the preset liquid level, the pressure borne by the pressure control valve is higher than the preset pressure.

8. A condenser vessel according to claim 7, wherein the pressure control valve comprises a plurality of resilient, openable and closable valves disposed circumferentially along the medium outlet;

when the pressure is not less than the preset pressure, the elastic valves are opened; when the pressure is less than the preset pressure, the elastic valves are closed;

the firing pin comprises a rod part and a ball head, the upper end of the rod part is fixedly connected with the bottom end of the floater, the lower end of the rod part is fixedly connected with the ball head, and the ball head is used for squeezing one or more elastic valves when the floater descends so as to open the elastic valves.

9. A laundry treating apparatus, comprising the condensation vessel of any one of claims 1 to 8;

a water replenishing pipe and a drying system are arranged in the clothes treatment equipment, a clothes taking and placing opening communicated with a clothes drying cavity is formed in the side wall of the clothes treatment equipment, a sealing door is arranged at the clothes taking and placing opening, the condensing container is arranged on the sealing door and is arranged on one side of the sealing door, which faces the clothes drying cavity, and the drying system is used for drying clothes in the clothes drying cavity;

the medium inlet is communicated with the water replenishing pipe, and the medium outlet is communicated with a drain pipe of the clothes treatment equipment.

10. The laundry treating apparatus according to claim 9, wherein the sealing door includes a door rim, an outer housing, and an inner housing;

the door ring is installed at the clothes taking and placing opening in an openable and closable manner;

the outer cover is arranged on the surface of the door ring facing the outer side of the clothes treatment equipment, and the outer cover is an anti-scald cover;

the inner shell is basin-shaped and extends into the clothes taking and placing opening, the inner shell is made of stainless steel materials, and the basin opening of the inner shell is fixedly connected with the surface of the door ring facing the clothes drying cavity;

the door ring, the outer cover and the inner shell define the medium cavity, and the medium inlet and the medium outlet are arranged on the peripheral wall of the inner shell;

and/or the presence of a gas in the gas,

the water outlet end of the water replenishing pipe is arranged on the inner wall of the clothes taking and placing port and is arranged right above the medium inlet at intervals, the water outlet end of the water replenishing pipe is used as a liquid injection port for injecting water into the medium inlet, the opening degree of the medium inlet is larger than that of the liquid injection port, when the liquid level in the medium cavity reaches the preset liquid level, the elastic sleeve of the liquid level control valve blocks the medium inlet, and the elastic cone of the liquid level control valve blocks the water outlet end of the water replenishing pipe.

Technical Field

The invention belongs to the technical field of condensation, and particularly relates to a condensation container and clothes treatment equipment.

Background

Condensation refers to the condensation of a gas or liquid upon cooling. In production and life, the moisture in the gas is often removed by condensation. The condensation container is a device which is used for containing water or other heat-absorbing condensation media to condense the damp and hot air flowing through the surface of the condensation container, and further to separate out the moisture in the gas.

Among the prior art, be equipped with inlet and the liquid outlet rather than the medium chamber intercommunication in the condensing container, inlet and liquid outlet department set up the feed liquor valve respectively and go out the liquid valve, after the condensation medium endotherm in the medium intracavity, the temperature can rise, treat after the temperature of condensation medium rises to the take the altitude, can't condense the moist hot air on condensing container surface again, at this moment, need open out the liquid valve, discharge the condensation medium of medium intracavity high temperature, and open the feed liquor valve, add microthermal condensation medium to the medium intracavity again, so that can continue to carry out the condensation.

The existing condensing container is difficult to control the opening and closing time of the liquid inlet valve and the liquid outlet valve, the low-temperature condensing medium is added again after the medium cavity is emptied, the temperature fluctuation of the condensing container and the condensing medium in the condensing container is large, and the using effect is influenced.

Disclosure of Invention

In order to solve the problems in the prior art, namely, to solve the problem that the temperature fluctuation of the condensation container and the condensation medium in the condensation container is large and the use effect is influenced, the invention provides the condensation container, wherein a medium cavity for storing the condensation medium is formed in the condensation container, and the upper part and the lower part of the condensation container are respectively provided with a medium inlet and a medium outlet which are communicated with the medium cavity.

A liquid level control valve for controlling the on-off of the medium inlet is arranged in the medium cavity; the liquid level control valve is closed when the liquid level in the medium cavity reaches a preset liquid level and is opened when the liquid level in the medium cavity is lower than the preset liquid level.

A pressure control valve for controlling the on-off of the medium outlet is arranged at the medium outlet; the pressure control valve opens when the pressure is not less than a preset pressure and closes when the pressure is less than the preset pressure.

When the preset pressure is equal to the pressure applied to the pressure control valve when the liquid level control valve and the pressure control valve are both closed and the temperature in the medium cavity is equal to the preset temperature; when the liquid level control valve is switched from the opening state to the closing state, the pressure applied to the pressure control valve is smaller than the preset pressure.

In above-mentioned condensation container's preferred technical scheme, the liquid level control valve includes float, uide bushing and first shutoff piece, and the uide bushing fastening is connected on the inner wall in medium chamber, and float and uide bushing sliding connection, float can follow the uide bushing and slide from top to bottom, and the top fastening of float is connected with first shutoff piece, and first shutoff piece is located under the medium import, and the float is used for driving first shutoff piece and moves between shutoff medium import and keeping away from the medium import.

In the preferred technical scheme of the condensation container, the rigid straight rod is fixedly connected to the center of the top surface of the floater, the guide sleeve is sleeved outside the rigid straight rod and is in sliding connection with the rigid straight rod, the rigid straight rod can slide up and down along the guide sleeve, and the floater is in sliding connection with the guide sleeve through the rigid straight rod.

The first plugging piece is fixedly connected with the rigid straight rod, and the first plugging piece is arranged above the guide sleeve.

In the preferred technical scheme of the above condensation container, the liquid level control valve further comprises a second plugging piece, the second plugging piece is arranged at the top end of the rigid straight rod, the float is further used for driving the second plugging piece to move between the plugging liquid injection port and the far-away liquid injection port, and the liquid injection port is arranged outside the condensation container and is positioned right above the medium inlet.

The first blocking piece is an elastic sealing sleeve, the elastic sealing sleeve is sleeved on the outer wall of the rigid straight rod, the lower end of the elastic sealing sleeve is fixedly connected with the outer wall of the rigid straight rod, the elastic sealing sleeve is arranged below the second blocking piece, and the upper end of the elastic sealing sleeve is used for blocking the medium inlet.

In the preferable technical scheme of the condensation container, the second blocking piece is an elastic conical block with a small end facing upwards.

In a preferred embodiment of the above condensation vessel, the top wall of the medium chamber comprises a horizontal surface area, and the medium inlet is provided in the horizontal surface area.

In a preferred embodiment of the above condensation container, a striker is fastened to a bottom end of the float, and the striker is located directly above the medium outlet.

The striker increases the pressure to which the pressure control valve is subjected in response to a drop of the float to actuate the pressure control valve to open the media outlet; the firing pin also responds to the floating of the floater to reduce the pressure on the pressure control valve so as to drive the pressure control valve to close the medium outlet, the opening degree of the pressure control valve when the pressure control valve is opened is smaller than that when the liquid level control valve is opened, and the pressure on the pressure control valve when the liquid level in the medium cavity is lower than the preset liquid level is larger than the preset pressure.

In a preferred embodiment of the above-described condensation vessel, the pressure control valve includes a plurality of openable and closable elastic valves provided along a circumferential direction of the medium outlet.

When the pressure is not less than the preset pressure, the elastic valves are opened; when the pressure is less than the preset pressure, the plurality of elastic valves are closed.

The firing pin comprises a rod part and a ball head, the upper end of the rod part is fixedly connected with the bottom end of the floater, the lower end of the rod part is fixedly connected with the ball head, and the ball head is used for extruding one or more elastic valves to open the elastic valves when the floater descends.

The invention also provides a clothes treatment device which comprises the condensing container.

Dispose moisturizing pipe and drying system in the clothing treatment facility, be equipped with the clothing of intercommunication clothing stoving chamber on the lateral wall of clothing treatment facility and get and put the mouth, the clothing is got and is put a mouthful department and dispose sealing door, on condensing vessel located sealing door, and condensing vessel locates one side of sealing door towards clothing stoving chamber, and drying system is used for drying the clothing of clothing stoving intracavity.

The medium inlet is communicated with the water replenishing pipe, and the medium outlet is communicated with the water discharging pipe of the clothes treatment equipment.

In above-mentioned clothing treatment facility's preferred technical scheme, sealing door includes the door circle, dustcoat and inner shell, the door circle can open and shut and install and get a mouthful department at the clothing, the surface of door circle towards the clothing treatment facility outside is located to the dustcoat, the dustcoat is for preventing scalding the cover, the inner shell is the basin form and stretches into the clothing and get in the mouth, the inner shell is made by stainless steel material, the basin mouth and the door circle of inner shell are towards the fixed surface in clothing stoving chamber and are connected, the door circle, the medium chamber is injectd with the inner shell to the dustcoat, medium import and medium export are all located on the perisporium of inner shell.

And/or the water outlet end of the water replenishing pipe is arranged on the inner wall of the clothes taking and placing port and is arranged right above the medium inlet at intervals, the water outlet end of the water replenishing pipe is used as a liquid injection port for injecting water into the medium inlet, the opening degree of the medium inlet is larger than that of the liquid injection port, when the liquid level in the medium cavity reaches a preset liquid level, the elastic sleeve of the liquid level control valve blocks the medium inlet, and the elastic cone of the liquid level control valve blocks the water outlet end of the water replenishing pipe.

The condensing container comprises a liquid level control valve and a pressure control valve, wherein the liquid level control valve is arranged in a medium cavity of the condensing container and used for controlling the on-off of a medium inlet, the pressure control valve is arranged at a medium outlet and used for controlling the on-off of the medium outlet, the liquid level control valve is closed when the liquid level in the medium cavity reaches a preset liquid level and is opened when the liquid level in the medium cavity is lower than the preset liquid level, the pressure control valve is opened when the pressure received by the pressure control valve is not less than the preset pressure and is closed when the pressure received by the pressure control valve is less than the preset pressure, the preset pressure is equal to the pressure received by the pressure control valve when the liquid level control valve and the pressure control valve are both closed, and the temperature in the medium cavity is equal to the preset temperature.

Through the arrangement, when condensation is carried out, a condensation medium is added into the medium cavity through the medium inlet, the liquid level of the condensation medium added into the medium cavity reaches a preset liquid level, the liquid level control valve is closed, the pressure received by the pressure control valve is smaller than the preset pressure, the pressure control valve is also closed, gas or liquid on the surface of a condensation container is condensed by absorbing heat through the condensation medium stored in the medium cavity, the condensation medium in the medium cavity absorbs heat, the temperature and the pressure in the closed medium cavity are synchronously increased, when the temperature in the medium cavity is increased to the preset temperature, the pressure in the medium cavity is equal to the preset pressure, the pressure control valve is opened, the condensation medium in the medium cavity is discharged through the medium outlet, the liquid level in the medium cavity is reduced by the preset liquid level while the condensation medium in the medium cavity is discharged through the medium outlet, the liquid level control valve is opened, and the condensation medium with lower external temperature is injected into the medium cavity through the medium inlet, the medium cavity is decompressed when the liquid level control valve is opened, after the condensing medium with lower external temperature flows into the medium cavity, on one hand, the condensing medium is mixed with the original condensing medium in the medium cavity to reduce the temperature in the medium cavity, on the other hand, the liquid level in the medium cavity rises, after the liquid level reaches the preset liquid level, the liquid level control valve is closed again, at the moment, the pressure applied to the pressure control valve is smaller than the preset pressure and is also in a closed state, the medium cavity becomes a closed cavity again, and the pressure control valve is opened again until the temperature in the medium cavity rises to the preset temperature, and the steps are repeated. When the condensing medium in the medium cavity is replaced, the pressure control valve and the liquid level control valve are synchronously opened for a short time. And after a small amount of high-temperature condensing medium is discharged from the medium cavity and a corresponding small amount of low-temperature condensing medium is supplemented, the pressure control valve and the liquid level control valve are closed again. The quantity of the condensing medium in the medium cavity that replaces at every turn is few, the temperature fluctuation in the medium cavity is little, at the in-process of whole condensation, the condensing medium in the medium cavity is in the state that a small amount of developments were replaced always, the temperature in the medium cavity is undulant near the minizone of predetermineeing the temperature, the condensation effect is more balanced, also can not cause the condensation to break, and in some equipment that need carry out the recovery to the heat of the gas of condensation container outside or liquid, the heat loss of the gas of condensation container outside or liquid that reducible condensation caused.

Drawings

Preferred embodiments of a laundry treating apparatus of the present invention are described below with reference to the accompanying drawings. The attached drawings are as follows:

FIG. 1 is a schematic view of a condensing vessel according to an embodiment of the present invention, wherein the liquid level in the medium chamber is lower than a predetermined level;

FIG. 2 is a schematic view of the condensing vessel according to the embodiment of the present invention, when the liquid level in the medium chamber reaches a predetermined level;

FIG. 3 is a schematic view of a pressure control valve and a media outlet of an embodiment of the proposed condensation vessel;

FIG. 4 is a top view of a pressure control valve of an embodiment of the proposed condensing vessel;

FIG. 5 is a schematic view of the liquid level in the medium chamber being lower than a preset level in an embodiment of the proposed laundry treating apparatus of the present invention;

FIG. 6 is a schematic view of the liquid level in the medium chamber reaching a preset level in an embodiment of the proposed laundry treating apparatus of the present invention;

fig. 7 is a schematic view of a water separator of an embodiment of a laundry treating apparatus according to the present invention.

In the drawings: 100. a condensing vessel; 110. a media chamber; 120. a media inlet; 130. a media outlet; 140. a horizontal plane area; 150. a liquid injection port; 200. a liquid level control valve; 210. a float; 220. a rigid straight rod; 230. a guide sleeve; 240. a first blocking member; 250. a second blocking member; 300. a pressure control valve; 310. an elastic valve; 400. a striker; 410. a rod portion; 420. a ball head; 510. a water replenishing pipe; 520. a drying system; 521. a condenser; 522. an air duct; 523. a fan heating module; 524. a water inlet pipe; 530. a clothes taking and placing opening; 540. a clothes drying chamber; 541. an inner cavity; 542. an outer cavity; 550. a sealing door; 551. a door ring; 552. an inner shell; 560. a drain pipe; 561. draining pump; 571. an inner barrel; 572. an outer cylinder; 580. a seal ring; 600. a water separator; 610. a water storage cavity; 620. a water inlet; 630. and a water diversion port.

Detailed Description

First, it should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications.

Next, it should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "inside", "outside", and the like are based on the direction or positional relationship shown in the drawings, which are merely for convenience of description, and do not indicate or imply that a device or a member must have a specific orientation, be configured in a specific orientation, and operate, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The existing condensing container usually adopts a whole replacing mode when the high-temperature condensing medium in the medium cavity is replaced, namely the high-temperature condensing medium in the medium cavity is completely discharged, and then the low-temperature condensing medium is injected into the medium cavity again. Therefore, the temperature fluctuation in the medium cavity is large, and the use effect is influenced. In addition, when the mode of replacing all the condensing mediums is adopted, after all the condensing mediums in the medium cavity are discharged, if the injected condensing mediums are not supplemented in time, the interruption of condensation can be caused. In addition, for some equipment which needs to recover the heat of the gas or the liquid outside the condensation container, after the condensation medium is completely replaced, the temperature of the condensation container is low, and a large amount of heat loss of the gas or the liquid outside the condensation container can be caused.

In order to solve the problems, the inventor of the invention sets a liquid level control valve for controlling the on-off of a medium inlet in a medium cavity of a condensation container and sets a pressure control valve for controlling the on-off of a medium outlet in a medium outlet of the condensation container, so that the liquid level control valve is closed when the liquid level in the medium cavity reaches a preset liquid level and is opened when the liquid level in the medium cavity is lower than the preset liquid level, and the pressure control valve is opened when the pressure is not less than the preset pressure and is closed when the pressure is less than the preset pressure.

When condensation is carried out, a condensing medium is added into the medium cavity through the medium inlet, the liquid level of the condensing medium added into the medium cavity reaches a preset liquid level, the liquid level control valve is closed, the pressure applied to the pressure control valve is smaller than the preset pressure, the pressure control valve is also closed, and the medium cavity is in a closed state. After the medium in the medium cavity absorbs heat, the temperature and the pressure in the closed medium cavity are synchronously increased, when the temperature in the medium cavity is increased to a preset temperature, the pressure in the medium cavity is equal to the preset pressure, the pressure control valve is opened, the condensed medium in the medium cavity is discharged through the medium outlet, the liquid level in the medium cavity is reduced from the preset liquid level while the condensed medium in the medium cavity is discharged through the medium outlet, the liquid level control valve is opened, the condensed medium with lower external temperature is injected into the medium cavity through the medium inlet, the medium cavity is decompressed while the liquid level control valve is opened, after the condensed medium with lower external temperature flows into the medium cavity, on one hand, the condensed medium is mixed with the original condensed medium in the medium cavity, the temperature in the medium cavity is reduced, on the other hand, the liquid level in the medium cavity is increased, after the liquid level reaches the preset liquid level, the liquid level control valve is closed again, at the moment, the pressure control valve is under the condition that the pressure is smaller than the preset pressure and is also in a closed state, the medium cavity becomes a closed cavity again until the temperature in the medium cavity is raised to the preset temperature, the pressure control valve is opened again, and the steps are repeated.

When the condensing medium in the medium cavity is replaced, the pressure control valve and the liquid level control valve are synchronously opened for a short time, and after a small amount of high-temperature condensing medium is discharged from the medium cavity and a corresponding small amount of low-temperature condensing medium is supplemented, the pressure control valve and the liquid level control valve are closed again. The quantity of the condensing medium in the medium cavity that replaces at every turn is few, and the temperature fluctuation in the medium cavity is little, and at the in-process of whole condensation, the condensing medium in the medium cavity is in the state that a small amount of developments were replaced always, and the temperature in the medium cavity is undulant near the minizone of predetermineeing the temperature, and the condensation effect is more balanced, can not cause the condensation to break off yet, and the heat loss of the outside gas of condensation container or liquid that reducible condensation caused.

The preferred embodiments of the condensing container and the laundry treating apparatus according to the present invention will be described with reference to the accompanying drawings.

Fig. 1 is a schematic view of an embodiment of the proposed condensation vessel when the liquid level in the medium chamber is below a preset level, and fig. 2 is a schematic view of an embodiment of the proposed condensation vessel when the liquid level in the medium chamber reaches the preset level.

As shown in fig. 1 and 2, in the embodiment of the condensation container of the present invention, a medium chamber 110 for storing a condensation medium is formed in the condensation container 100, and a medium inlet 120 and a medium outlet 130 communicating with the medium chamber 110 are respectively formed at an upper portion and a lower portion of the condensation container 100.

A liquid level control valve 200 for controlling the on-off of the medium inlet 120 is arranged in the medium cavity 110; the liquid level control valve 200 is closed when the liquid level in the medium chamber 110 reaches a preset level and is opened when the liquid level in the medium chamber 110 is lower than the preset level.

A pressure control valve 300 for controlling the on-off of the medium outlet 130 is arranged at the medium outlet 130; the pressure control valve 300 is opened when the pressure received is not less than the preset pressure and is closed when the pressure received is less than the preset pressure.

Wherein the preset pressure is equal to the pressure to which the pressure control valve 300 is subjected when the liquid level control valve 200 and the pressure control valve 300 are both closed and the temperature in the medium chamber 110 is equal to the preset temperature; the pressure to which the pressure control valve 300 is subjected when the liquid level control valve 200 is switched from the open state to the closed state is smaller than the preset pressure.

It will be appreciated that the predetermined temperature is greater than the temperature of the condensing medium filling the medium chamber 110.

In the above embodiment, before the condensed medium is injected into the medium chamber 110, the liquid level control valve 200 is opened, the condensed medium is injected into the medium chamber 110 through the medium inlet 120, the liquid level in the medium chamber 110 gradually rises along with the injection of the condensed medium until the liquid level in the medium chamber 110 reaches the preset liquid level, the liquid level control valve 200 is switched from the open state to the closed state, at this time, the pressure control valve 300 is closed, and the medium chamber 110 forms a closed chamber. As the condensing medium in the medium chamber 110 absorbs heat, the temperature and the pressure in the medium chamber 110 increase synchronously, when the temperature in the medium chamber 110 reaches a preset temperature, the pressure reaches a preset pressure synchronously, at this time, the pressure control valve 300 is opened, the condensing medium in the medium chamber 110 is discharged from the medium outlet 130, so that the liquid level in the medium chamber 110 decreases, the liquid level control valve 200 is opened, the high pressure in the closed medium chamber 110 is released, meanwhile, the externally supplemented condensing medium with a lower temperature is injected into the medium chamber 110 from the medium inlet 120, the condensing medium newly injected into the medium chamber 110 decreases the temperature in the medium chamber 110, the liquid level increases, and after the preset liquid level is reached, the liquid level control valve 200 is closed again, so that the replacement of the condensing medium is completed.

Thus, the amount of the condensing medium in the medium cavity 110 which is replaced every time is small, the temperature fluctuation in the medium cavity 110 is small, the condensing medium in the medium cavity 110 is always in a small amount of dynamic replacement state in the whole condensing process, the temperature in the medium cavity 110 fluctuates in a small range near the preset temperature, the condensing effect is more balanced, the interruption of condensation cannot be caused, and the heat loss of the gas or the liquid outside the condensing container 100 caused by condensation can be reduced.

In some examples, the media inlet 120 is disposed at the top of the media chamber 110, such that the amount of condensed media stored in the media chamber 110 is increased, the temperature fluctuation of the condensed media is reduced, and the condensing effect is more stable.

In some examples, the media outlet 130 is provided at the bottom of the media chamber 110. In this manner, the condensed medium in the medium chamber 110 is easily exhausted after the condensation is finished.

In some possible embodiments, the liquid level control valve 200 includes a float 210, a guide sleeve 230, and a first blocking member 240, the guide sleeve 230 is tightly connected to the inner wall of the medium chamber 110, the float 210 is slidably connected to the guide sleeve 230, the float 210 can slide up and down along the guide sleeve 230, the top of the float 210 is tightly connected to the first blocking member 240, the first blocking member 240 is disposed right below the medium inlet 120, and the float 210 is configured to drive the first blocking member 240 to move between blocking the medium inlet 120 and away from the medium inlet 120.

It can be understood that the float 210 is made of a low-density material, the density of the float 210 is much less than that of the condensed medium injected into the medium chamber 110, and the float 210 can drive the first blocking member 240 to float up and down along with the variation of the liquid level in the medium chamber 110.

With such arrangement, as the liquid level in the medium cavity 110 rises, the floater 210 drives the first blocking piece 240 to rise, and after the liquid level in the medium cavity 110 reaches a preset liquid level, the first blocking piece 240 completes blocking the medium inlet 120 right above the first blocking piece; after the liquid level in the medium cavity 110 is lowered, the float 210 drives the first blocking piece 240 to be lowered, so that the first blocking piece 240 is far away from the medium inlet 120, the medium inlet 120 is communicated, and the guide sleeve 230 can ensure that the float 210 and the first blocking piece 240 move in the up-and-down direction, thereby ensuring that the first blocking piece 240 can accurately block the medium inlet 120.

In some examples, the guide sleeve 230 is securely attached to the inner wall of the media chamber 110 by a connection bracket. Thus, the float 210, the first blocking piece 240, the medium inlet 120 and the like can be arranged at positions closer to the middle of the medium cavity 110, the arrangement is more flexible, and the influence of the inner wall of the medium cavity 110 on the floating of the float 210 can be avoided.

In some possible embodiments, a rigid straight rod 220 is fixedly connected to the center of the top surface of the float 210, the guide sleeve 230 is sleeved outside the rigid straight rod 220 and slidably connected with the rigid straight rod 220, the rigid straight rod 220 can slide up and down along the guide sleeve 230, the float 210 is slidably connected with the guide sleeve 230 through the rigid straight rod 220, the first blocking piece 240 is fixedly connected with the rigid straight rod 220, and the first blocking piece 240 is disposed above the guide sleeve 230.

So set up, can make the liquid level in the medium chamber 110 keep certain distance with in the first shutoff piece 240, after first shutoff piece 240 shutoff medium import 120, leave certain space in the medium chamber 110, the pressure that produces after the gaseous intensification in the space is big, does benefit to making opening of pressure control valve 300.

In some possible embodiments, the liquid level control valve 200 further comprises a second blocking member 250, the second blocking member 250 is disposed at the top end of the rigid straight rod 220, and the float 210 is further configured to move the second blocking member 250 between blocking the liquid filling port 150 and being away from the liquid filling port 150, wherein the liquid filling port 150 is disposed outside the condensation container 100 and directly above the medium inlet port 120.

It can be understood that the float 210 drives the first blocking piece 240 and the second blocking piece 250 to move synchronously, and the first blocking piece 240 blocks the medium inlet 120 while the second blocking piece 250 blocks the liquid injection port 150.

By such arrangement, when the condensing container 100 is externally provided with the liquid injection port 150 for injecting the condensing medium into the medium cavity 110, the medium inlet 120 and the liquid injection port 150 are synchronously communicated or disconnected, so that the condensing medium can be prevented from flowing out from the liquid injection port 150 after the medium inlet 120 is disconnected.

In some possible embodiments, the first blocking member 240 is an elastic sleeve, the elastic sleeve is sleeved on the outer wall of the rigid straight rod 220, the lower end of the elastic sleeve is fixedly connected with the outer wall of the rigid straight rod 220, the elastic sleeve is disposed below the second blocking member 250, and the upper end of the elastic sleeve is used for blocking the medium inlet 120.

For example, the elastic cuff may be a rubber sleeve.

So set up, do benefit to when first shutoff piece 240 blocks up medium import 120 second shutoff piece 250 blocks up annotates liquid mouth 150, can reduce the distance precision of first shutoff piece 240 and second shutoff piece 250, the production of being convenient for, and can improve the shutoff effect to medium import 120 and notes liquid mouth 150.

In some possible embodiments, the second blocking member 250 is an elastic cone with its small end facing upwards.

With such an arrangement, the liquid inlet 150 is effectively blocked, and the liquid inlet 150 is also easily opened when the float 210 is lowered.

In some possible embodiments, the top wall of the media chamber 110 includes a level area 140, and the media inlet 120 is disposed in the level area 140. So set up, do benefit to first shutoff piece 240 and horizontal plane area 140 cooperation, make the disconnection of medium import 120, can improve the shutoff effect to medium import 120.

In some possible embodiments, a striker 400 is fastened to the bottom end of the float 210, the striker 400 is located directly above the media outlet 130, and the striker 400 increases the pressure applied to the pressure control valve 300 in response to the lowering of the float 210 to actuate the pressure control valve 300 to open the media outlet 130; the striker 400 also reduces the pressure to which the pressure control valve 300 is subjected in response to the float 210 rising to drive the pressure control valve 300 to close the medium outlet 130, the opening degree of the pressure control valve 300 when opened is smaller than that of the liquid level control valve 200 when opened, and the pressure to which the pressure control valve 300 is subjected when the liquid level in the medium chamber 110 is lower than the preset liquid level is larger than the preset pressure.

With such an arrangement, when the condensed medium in the medium chamber 110 needs to be discharged, the striker 400 can open the pressure control valve 300 to facilitate the discharge of the condensed medium from the medium outlet 130, and the opening degree of the pressure control valve 300 when being opened is smaller than the opening degree of the liquid level control valve 200 when being opened, so as to ensure that the liquid level in the medium chamber 110 can be raised by the condensed medium injected through the medium inlet 120 when the pressure control valve 300 and the liquid level control valve 200 are simultaneously opened.

For example, when the condensation is about to end, the condensation medium is stopped from being filled into the medium inlet 120, after the pressure in the sealed medium chamber 110 is greater than the preset pressure, the pressure control valve 300 is opened, the condensation medium in the medium chamber 110 begins to be discharged, the liquid level in the medium chamber 110 is lowered, the striker 400 keeps the pressure control valve 300 open, the float 210 does not float again because no new condensation medium is filled, the striker 400 is always in a state of keeping the pressure control valve 300 open, and the condensation medium in the medium chamber 110 can be exhausted after the condensation is finished.

Of course, in other examples, the striker 400 may not be disposed at the bottom of the float 210, and the pressure control valve 300 may be opened by applying pressure to the pressure control valve 300 through other structures or external pressure when water drainage is required. For example, after the condensation is completed, the pressure control valve 300 is forced from the medium outlet 130 to open the pressure control valve 300.

Fig. 3 is a schematic view of a pressure control valve and a medium outlet of an embodiment of the proposed condensation vessel, and fig. 4 is a top view of the pressure control valve of an embodiment of the proposed condensation vessel.

As shown in fig. 3, 4, in some possible embodiments, the pressure control valve 300 includes a plurality of openable and closable resilient valves 310 disposed circumferentially along the media outlet 130. When the pressure is not less than the preset pressure, the plurality of elastic valves 310 are opened; when the pressure is less than the preset pressure, the plurality of elastic valves 310 are closed.

So set up, when the pressure that elasticity valve 310 received was less than preset pressure, can guarantee sealing performance, after the pressure that elasticity valve 310 received was greater than preset pressure, elasticity valve 310 was extruded and is taken place deformation, produces the clearance between each elasticity valve 310, can make medium export 130 intercommunication, does benefit to according to the pressure switch medium export 130 in the medium chamber 110, and simple structure.

For example, the elastic valve 310 may be a rubber valve, and the pressure control valve 300 may be a rubber membrane with a cross-cut in the middle, and 4 elastic valves 310 are formed on four sides of the cross-cut.

In the embodiment provided with the striker 400, the striker 400 comprises a rod portion 410 and a ball head 420, wherein the upper end of the rod portion 410 is fixedly connected with the bottom end of the float 210, the lower end of the rod portion 410 is fixedly connected with the ball head 420, and the ball head 420 is used for pressing the one or more elastic valves 310 to open the plurality of elastic valves 310 when the float 210 descends.

By such an arrangement, the opening degree of the gaps between the plurality of elastic valves 310 can be increased, which is beneficial to improving the efficiency of discharging the condensed medium in the medium cavity 110.

Fig. 5 is a schematic view of an embodiment of the proposed laundry treating apparatus when a liquid level in the medium chamber is lower than a preset liquid level, and fig. 6 is a schematic view of an embodiment of the proposed laundry treating apparatus when the liquid level in the medium chamber reaches the preset liquid level. As shown in fig. 5 and fig. 6 in combination with fig. 1 to fig. 4, the embodiment of the laundry treating apparatus of the present invention specifically includes a condensing container 100, wherein the condensing container 100 is the condensing container 100 in any of the embodiments described above.

A water replenishing pipe 510 and a drying system 520 are arranged in the clothes treatment device, a clothes taking and placing opening 530 communicated with the clothes drying cavity 540 is arranged on the side wall of the clothes treatment device, a sealing door 550 is arranged at the clothes taking and placing opening 530, a condensing container 100 is arranged on the sealing door 550, the condensing container 100 is arranged on one side of the sealing door 550 facing the clothes drying cavity 540, and the drying system 520 is used for drying clothes in the clothes drying cavity 540.

The medium inlet 120 is communicated with the water replenishing pipe 510, and the medium outlet 130 is communicated with the water discharging pipe 560 of the laundry treating apparatus.

It is understood that the laundry processing apparatus may be a dryer, or may be various laundry processing apparatuses with drying function, such as a washing and drying machine.

In the above embodiment, the amount of the condensing medium in the medium chamber 110 that is replaced each time is small, the temperature fluctuation in the medium chamber 110 is small, the condensing medium in the medium chamber 110 is always in a small amount of dynamically replaced state in the whole condensing process, the temperature in the medium chamber 110 fluctuates in a small range around the preset temperature, the condensing effect is more balanced, the interruption of condensation is not caused, the heat loss of the gas in the clothes drying chamber 540 caused by condensation can be reduced, and the burden of the drying system 520 is reduced.

It is understood that both the air supply end and the air intake end of the drying system 520 are in communication with the laundry drying chamber 540. The drying system 520 comprises an air duct 522 and a fan heating module 523 arranged in the air duct 522, the fan heating module 523 comprises a fan and a heater, and an air supply end and an air inlet end of the air duct 522 are both communicated with the clothes drying cavity 540. The drying system 520 can be a condensing type drying system, or a hot air type drying system, when the drying system 520 is a condensing type drying system, the drying system 520 further includes a condenser 521, an air inlet end of the condenser 521 is used as an air inlet end of the drying system 520 to be communicated with the clothes drying cavity 540, an air outlet end of the condenser 521 is communicated with an air inlet end of the air duct 522, an water outlet end of the condenser 521 is communicated with a drain pipe 560 of the clothes processing equipment, and in addition, in order to realize water supply and drainage, a drain pump 561 can be arranged on the drain pipe 560.

In addition, in the clothes processing equipment with drying function such as the existing dryer, washing and drying integrated machine, hot air is sent into the clothes drying cavity 540 by the drying system 520, the hot air dries the clothes in the clothes drying cavity 540, and the humidity of the air in the clothes drying cavity 540 is high, which causes the problems of low drying efficiency, long drying time, high energy consumption and the like. In addition, the sealing door 550 of the conventional clothes treating apparatus directly contacts with the hot air in the clothes drying chamber 540, and the sealing door 550 has a high temperature during the drying process, so that a user is easily scalded and the ambient temperature is easily increased greatly. If the drying system 520 employs a condensing type drying system, the condensing type drying system directly contacts with the humid air by continuously supplying condensing water to condense the humid air, so as to separate out moisture in the humid air, and then heats the condensed air, and sends the air back into the clothes drying cavity 540 to exchange heat with the clothes, so as to evaporate the moisture on the clothes. In the process of drying, in order to guarantee the condensation effect to the inspiratory air, condensing drying system need last, a large amount of condensation water that supplies, condensation water and humid air contact the back, directly flow in clothing processing apparatus's drain pipe 560 and discharge, the drying in-process water consumption is big, and water waste is serious, and because with condensation water direct contact during air condensation, condensing drying system sends into the humidity of the air in clothing stoving chamber 540 still very big. In addition, the air sucked by the condensing drying system is heated after being condensed by a large amount of condensation water, the heat loss of the sucked air is large, a heater of the condensing drying system needs to continuously operate above 1.8kW for a long time, and the energy consumption is high.

In the above embodiment, the condensation container 100 is disposed on the sealing door 550, the water supply pipe 510 is disposed in the clothes treatment apparatus, when drying is performed, the sealing door 550 is closed, cold water is supplied into the medium chamber 110 through the medium inlet 120 by the water supply pipe 510, and the condensation container 100 storing the cold water can condense air flowing through the surface of the condensation container 100 in the clothes drying chamber 540 to separate out moisture in the air. When the water in the medium chamber 110 absorbs heat to make the temperature in the medium chamber 110 reach the preset temperature, the water in the medium chamber 110 is automatically replaced, and the temperature of the condensation container 100 is always kept near the preset temperature.

Therefore, the condensing container 100 arranged on the sealing door 550 can condense the air in the clothes drying cavity 540, reduce the humidity of the air entering the clothes drying cavity 540, improve the drying efficiency, shorten the drying time and reduce the energy consumption. When the drying system 520 adopts a condensing type drying system, the condensing water supplied in the condensing type drying system condenses the sucked air and then directly discharges the condensed air, and the cold water supplied in the medium cavity 110 is remained in the medium cavity 110 to absorb heat and is replaced after being heated to a certain temperature, so that the utilization rate of the water supplied in the medium cavity 110 is higher, the amount of the condensing water supplied in the condensing type drying system can be reduced, and more water is saved. In addition, after the cold water in the condensation container 100 absorbs the heat at the sealing door 550, the phenomenon that the temperature of the sealing door 550 is too high, which causes scalding of users or causes the environmental temperature to rise remarkably can be avoided.

In the embodiment of the drying system 520 employing the condensing type drying system, since the amount of condensing water supplied into the condensing type drying system is reduced, the amount of heat in the air taken away by the flowing condensing water is reduced, and the amount of heat recovered by the air entering the condensing type drying system is large, the load of the heater in the condensing type drying system can be reduced and/or the temperature of the air fed into the clothes drying chamber 540 can be increased, thereby saving energy and/or improving drying efficiency. In addition, the air is condensed in two sections through the condensing type drying system and the condensing container 100 on the sealing door 550, so that the condensing path of the air is prolonged, and the condensing effect of the air is better.

In some possible embodiments, the sealing door 550 includes a door ring 551, an outer cover and an inner shell 552, the door ring 551 is openably and closably installed at the laundry taking and placing opening 530, the outer cover is disposed on the surface of the door ring 551 facing the outside of the laundry treating apparatus, the inner shell 552 has a basin shape and extends into the laundry taking and placing opening 530, the basin opening of the inner shell 552 is fixedly connected with the surface of the door ring 551 facing the laundry drying chamber 540, the door ring 551, the outer cover and the inner shell 552 define the medium chamber 110, and the medium inlet 120 and the medium outlet 130 are disposed on the peripheral wall of the inner shell 552.

With the arrangement, the condensation container 100 is directly formed on the sealing door 550, and other structures are not needed, so that the manufacturing is convenient, and the cost is low.

For example, the inner housing 552 is a large-mouthed, small-bottomed, upright tub-like structure, the tub bottom facing the laundry drying chamber 540.

In some examples, the enclosure is an anti-burn enclosure. In this way, the temperature outside the sealing door 550 can be minimized.

In some examples, the inner housing 552 is made of a stainless steel material. In this way, the condensation effect on the surface of the inner case 552 can be improved.

In some examples, one side of the door ring 551 may be hinged with a position corresponding to the laundry access opening 530. In this manner, opening and closing of the sealing door 550 is facilitated.

In some examples, such as a drum-type dryer or a washing and drying all-in-one machine, an outer drum 572 and an inner drum 571 are arranged in the clothes processing device, the inner drum 571 is rotatably arranged in the outer drum 572, a plurality of water passing holes are arranged on the inner drum 571, the clothes drying cavity 540 comprises an inner cavity 541 located in the inner drum 571 and an outer cavity 542 located between the outer drum 572 and the inner drum 571, the clothes taking and placing opening 530 is communicated with the inner cavity 541 and the outer cavity 542, clothes to be dried are contained in the inner drum 571, the bottom of the outer cavity 542 is provided with a water discharging opening communicated with a water discharging pipe 560, and the medium outlet 130 is communicated with the outer cavity 542.

By such arrangement, in the drying process, the inner barrel 571 can drive the clothes to be dried to rotate, so that the clothes are more fully contacted with hot air, and the drying efficiency is higher.

In some possible embodiments, the lower edge of the condensation vessel 100 is outside the inner cavity 541.

For example, in embodiments where the media chamber 110 is defined by the inner housing 552, the outer cover, and the door ring 551, the lower edge of the inner housing 552 is outside of the inner chamber 541.

With such an arrangement, the condensed water condensed on the surface of the condensation container 100 flows into the drain pipe 560 through the outer cavity 542 between the inner cylinder 571 and the outer cylinder 572, which is beneficial for discharging the condensed water condensed on the surface of the condensation container 100, and meanwhile, the condensed water is prevented from entering the inner cavity 541 to reduce the drying efficiency.

In some examples, the water outlet end of the condenser 521 of the condensing type drying system is disposed in the outer cavity 542 between the inner cylinder 571 and the outer cylinder 572, and is communicated with the drain pipe 560 through the outer cavity 542. So set up, the drainage is convenient, and can not influence the drying efficiency of clothing.

In some possible embodiments, the water outlet end of the water replenishing pipe 510 is disposed on the inner wall of the clothes taking and placing port 530, and is disposed at an interval right above the medium inlet 120, the water outlet end of the water replenishing pipe 510 serves as the liquid injecting port 150 for injecting water into the medium inlet 120, the opening degree of the medium inlet 120 is greater than that of the liquid injecting port 150, when the liquid level in the medium chamber 110 reaches a preset liquid level, the elastic sleeve of the liquid level control valve 200 blocks the medium inlet 120, and the elastic cone of the liquid level control valve 200 blocks the water outlet end of the water replenishing pipe 510.

It will be appreciated that the pour opening 150 is directed towards the media inlet 120 directly below it.

So set up, make things convenient for the setting and the switch of sealing door 550, annotate liquid mouth 150 to medium import 120 water injection convenience, efficient, anti-splash, and when the liquid level of liquid level control valve 200 in medium chamber 110 reached and predetermine the liquid level, the play water end of shutoff medium import 120 and moisturizing pipe 510 in step avoids moisturizing pipe 510 to continue to supply water after medium import 120 is shutoff, causes the waste of water and the water content increase in the clothing stoving chamber 540.

In some examples, a sealing ring 580 is disposed at the laundry loading/unloading port 530 to connect an outer wall of the laundry treating apparatus with a wall of the laundry drying chamber 540, the sealing ring 580 serves as an inner wall of the laundry loading/unloading port 530, and the water outlet end of the water replenishing pipe 510 penetrates the sealing ring 580 from top to bottom. In the embodiment having the inner tub 571 and the outer tub 572, the sealing ring 580 is provided between the outer tub 572 and the outer wall of the laundry treating apparatus, and the sealing ring 580 connects the outer tub 572 and the outer wall of the laundry treating apparatus. So configured, water at the laundry inlet 530 may flow into the outer cavity 542 along with the surface of the sealing ring 580.

Fig. 7 is a schematic view of a water separator of an embodiment of the proposed laundry treating apparatus. As shown in fig. 7 and fig. 5 and 6, in some possible embodiments, the laundry treating apparatus further includes a water separator 600, the drying system 520 is a condensation type drying system, a water storage cavity 610 is formed in the water separator 600, a water inlet 620 is formed in an upper portion of the water storage cavity 610, the water inlet 620 is used for communicating with a water supply apparatus, a water diversion port 630 is formed in a side wall of the water storage cavity 610, the water diversion port 630 is communicated with a water inlet end of the water replenishing pipe 510, a water inlet end of the water inlet pipe 524 of the condensation type drying system extends into the water storage cavity 610, a water inlet end of the water inlet pipe 524 of the condensation type drying system is communicated with the water storage cavity 610, a water inlet end of the water inlet pipe 524 of the condensation type drying system is above the water diversion port 630, and an area of the water inlet 620 is smaller than an area of the water inlet end of the water inlet pipe 524 of the condensation type drying system.

So set up, the water that supplies through water inlet 620 firstly carries out the pressure release in water storage chamber 610, and then supplies in moisturizing pipe 510 and condensing drying system's inlet tube 524 respectively, avoids moisturizing pipe 510 direct with the water piping connection, the pressure of the water of supplying is too big, causes moisturizing pipe 510's the play water end splash or the unable circumstances of being shutoff. When the water level in the water storage cavity 610 reaches the water inlet end of the water inlet pipe 524 of the condensing drying system, the water in the water storage cavity 610 flows into the water inlet end of the water inlet pipe 524 of the condensing drying system, and the water level in the water storage cavity 610 can be limited by the water inlet end of the water inlet pipe 524 of the condensing drying system, so that the pressure of the water entering the water replenishing pipe 510 can be limited. In the embodiment where the liquid level control valve 200 includes the float 210 and the second blocking member 250, the second blocking member 250 cannot block the water outlet end of the refill pipe 510 due to the buoyancy of the float 210, and at the same time, the size of the float 210 can be reduced. In addition, the area of the water inlet 620 is smaller than that of the water inlet end of the water inlet pipe 524 of the condensing type drying system, so that the excessive water can flow into the water inlet pipe 524 of the condensing type drying system.

In some possible embodiments, the water inlet end of the water inlet pipe 524 of the condensation type drying system faces upwards, and the downward projection of the water inlet 620 includes a first region within the range of the water inlet end of the water inlet pipe 524 of the condensation type drying system and a second region outside the range of the water inlet end of the water inlet pipe 524 of the condensation type drying system, and the area of the first region is larger than that of the second region.

So set up, the water that flows in through water inlet 620 mostly gets into condensing drying system's inlet tube 524, the part is stored in water storage chamber 610, and flow into moisturizing pipe 510 through water storage chamber 610, can be very big at the pressure that supplies water from water inlet 620, singly lean on when water storage chamber 610 pressure release ability is not enough, the end of intaking through condensing drying system's inlet tube 524 carries out the pressure release, the pressure release is effectual, can guarantee that the water pressure that flows into moisturizing pipe 510 is not more than the pressure that the water level of the inlet tube 524 of condensing drying system produced of water inlet end department.

In some possible embodiments, the air supply end of the drying system 520 is disposed at a side of the clothes drying cavity 540 where the clothes taking and placing opening 530 is disposed, the air supply end of the drying system 520 is disposed above the condensing container 100, the air supply direction of the air supply end of the drying system 520 is inclined downward and faces the clothes processing apparatus, and the condensing container 100 is on the air supply path of the air supply end of the drying system 520.

So set up, the hot-blast contact with the clothing after the condensation of the surface of condensation container 100 of the first process of the air supply end by drying system 520 send out, can improve condensation efficiency, and the air in the clothing stoving chamber 540 is drier, and the stoving effect is better.

In some possible embodiments, the air inlet end of the drying system 520 is disposed at a side of the clothes drying cavity 540 opposite to the clothes taking and placing opening 530, and the air inlet end of the drying system 520 is disposed at an upper portion of the clothes drying cavity 540. Therefore, the utilization efficiency of hot air is improved.

For example, the air inlet end and the water outlet end of the condenser 521 of the condensing type drying system are both communicated with the outer cavity 542 between the outer barrel 572 and the inner barrel 571 through an opening.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.