CN216848574U - Humidity control device of temperature control system - Google Patents

Abstract

The utility model discloses a humidity control device of a temperature control system, the temperature control system is provided with an air outlet and a water pan for collecting condensed water, the water pan is provided with a water outlet, the temperature control system also comprises a discharge pipe and also comprises: the liquid storage tank is provided with a cavity, the liquid storage tank is provided with a liquid inlet communicated with the cavity, the liquid inlet is communicated with the water outlet, and a liquid storage cavity is arranged in the cavity; the separation wall is arranged in the cavity, extends upwards from the bottom of the liquid storage tank and divides the liquid storage cavity into a filter cavity and a purified water cavity in the horizontal direction, an overflow water level is formed at the top of the separation wall, and the filter cavity is communicated with the liquid inlet; the filter element is arranged on the top of the partition wall and separates the filter cavity from the purified water cavity; the atomizing piece, it set up in the air outlet, and atomizing piece intercommunication water purification chamber. It can realize recycle to the comdenstion water, and carries out filtration purification to the comdenstion water, can utilize the comdenstion water to atomize the humidification indoor to make indoor comparatively comfortable humidity that keeps.

Description

Humidity control device of temperature control system

Technical Field

The utility model relates to the technical field of humidity control, in particular to a humidity control device of a temperature control system.

Background

Temperature control systems, such as air conditioners, refrigerators, and the like, produce condensed water during use. The air conditioner is to lower the temperature of indoor air, so that water vapor in the indoor air is liquefied under the action of cold air to form condensed water, and the condensed water is collected by a water pan and then is discharged from a discharge pipe of the air conditioner. According to statistics, one air conditioner can generate 15 liters of condensed water in normal operation every day, the pollution degree of the condensed water is low, the water quality is good, the pH value is neutral, the condensed water is soft water, and the recycling of the condensed water is always a concern of people. In the case of indoor use, after the air conditioner is used for a long time, the humidity in the room is continuously reduced along with the change of water vapor in the air into condensed water and the condensed water is discharged, so that discomfort of indoor users is easily caused.

Therefore, how to utilize the condensed water of the temperature control system and maintain the humidity in the room is a problem that needs to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a humidity control device of a temperature control system, which can recycle condensed water, filter and purify the condensed water, and atomize and humidify the indoor space by using the condensed water, so that the indoor space can keep more comfortable humidity.

In order to achieve the above object, the present invention provides a humidity control device of a temperature control system, the temperature control system has an air outlet and a water pan for collecting condensed water, the water pan has a water outlet, the temperature control system further includes a discharge pipe, and further includes: the liquid storage tank is provided with a cavity, the liquid storage tank is provided with a liquid inlet communicated with the cavity, the liquid inlet is communicated with the water outlet, and a liquid storage cavity is arranged in the cavity; the separation wall is arranged in the cavity, extends upwards from the bottom of the liquid storage tank and divides the liquid storage chamber into a filter chamber and a purified water chamber in the horizontal direction, an overflow water level is formed at the top of the separation wall, and the filter chamber is communicated with the liquid inlet; a filter element disposed on top of the separation wall, the filter element separating the filter chamber and the purified water chamber; the atomizing piece, it set up in the air outlet, just atomizing piece intercommunication the water purification chamber.

In a preferred implementation manner of the humidity control device of the temperature control system, an overflow drain hole communicated with the filter cavity is formed in the side wall of the liquid storage tank, the lower edge of the overflow drain hole is flush with the overflow water level, and the overflow drain hole is communicated with the discharge pipe.

In a preferred implementation of the humidity control device of the temperature control system, the top of the liquid storage tank extends downwards to form a stop wall, the stop wall extends downwards into the filter cavity, the stop wall divides the cavity into a liquid inlet chamber and a communication chamber except the liquid storage cavity, the liquid inlet chamber is communicated with the liquid inlet and the filter cavity, the communication chamber is communicated with the filter cavity and the water purification cavity, and the filter element is arranged in the communication chamber.

In a preferred embodiment of the humidity control device of the temperature control system, the filter element is disposed between the stop wall and the partition wall.

In a preferred implementation mode of the humidity control device of the temperature control system, the bottom of the stop wall is positioned on the lower side of the overflow water level, a dust filtering piece is arranged between the stop wall and the side wall of the liquid storage tank in the filtering cavity, and the dust filtering piece is positioned on the lower side of the overflow water level.

In a preferred implementation mode of the humidity control device of the temperature control system, the liquid storage tank further comprises a liquid outlet pipe respectively communicated with the filter cavity and the water purification cavity, the liquid outlet pipe is communicated with the discharge pipe, and the humidity control device further comprises a control valve capable of controlling the opening and closing states of the liquid outlet pipe.

In a preferred implementation manner of the humidity control device of the temperature control system, the control valve is a normally open type electromagnetic valve.

In a preferred implementation mode of the temperature control system humidity control device, the liquid storage tank further comprises a cover body, the cover body covers the liquid storage tank and can be sealed in the communicating chamber, and the liquid pumping pipe of the atomization piece penetrates through the cover body to be communicated with the water purification cavity.

In a preferred implementation manner of the humidity control device of the temperature control system, the humidity control device further comprises a humidity detector connected with the atomizing element.

The application provides a temperature control system humidity control device, its beneficial effect lies in: it can realize recycle to the comdenstion water, and carries out filtration purification to the comdenstion water, and can utilize the comdenstion water to carry out the humidification of atomizing indoor to make indoor comparatively comfortable humidity that keeps.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic cross-sectional view illustrating a humidity control device of a temperature control system according to an embodiment of the present disclosure.

Description of the reference numerals:

the water receiving tray 10, the water outlet 11, the discharge pipe 20, the liquid storage tank 30, the cavity 31, the liquid inlet chamber 311, the communication chamber 312, the liquid inlet 32, the liquid storage chamber 33, the filter chamber 331, the purified water chamber 332, the overflow drain hole 34, the stop wall 35, the partition wall 40, the overflow water level 41, the filter element 50, the atomizing element 60, the liquid suction pipe 61, the dust filter element 70, the liquid outlet pipe 80, the control valve 90, the cover body 100 and the humidity detector 110.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings.

It should be noted that 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 thus the scope of the present invention is not limited by the specific embodiments disclosed below.

In the description of the present invention, it is to be understood that the terms "central," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like are used in the indicated orientations and positional relationships based on the drawings for ease of description and simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting.

Descriptions in this specification as relating to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to any indicated technical feature or quantity. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

The utility model provides a humidity control device of a temperature control system, the temperature control system is provided with an air outlet and a water pan 10 for collecting condensed water, as shown in fig. 1, the water pan 10 is provided with a water outlet 11, the temperature control system further comprises a discharge pipe 20, and the humidity control device further comprises: the liquid storage tank 30 is provided with a cavity 31, the liquid storage tank 30 is provided with a liquid inlet 32 communicated with the cavity 31, the liquid inlet 32 is communicated with the water outlet 11, and a liquid storage cavity 33 is arranged in the cavity 31; a partition wall 40 disposed in the cavity 31, wherein the partition wall 40 extends upward from the bottom of the liquid storage tank 30, the partition wall 40 divides the liquid storage chamber 33 into a filter chamber 331 and a purified water chamber 332 in the horizontal direction, an overflow water level 41 is formed at the top of the partition wall 40, and the filter chamber 331 is communicated with the liquid inlet 32; a filter element 50 disposed on top of the partition wall 40, the filter element 50 partitioning the filter chamber 331 and the purified water chamber 332; the atomizing piece 60 is arranged at the air outlet, and the atomizing piece 60 is communicated with the water purifying cavity 332.

The outlet 11 department through the water collector 10 collecting the comdenstion water sets up liquid storage pot 30, can concentrate the collection to the comdenstion water of collecting in the water collector 10, and the comdenstion water of collecting in with water purification chamber 332 through the atomizing piece 60 of connecting water purification chamber 332 passes through the water pump and pumps and atomize, thereby the comdenstion water after will atomizing in air outlet department of air conditioner follows the wind that the air outlet blew off again and gets into indoorly, thereby realize the collection of comdenstion water and recycle, make full use of the comdenstion water to a certain extent, and then increase indoor humidity, can compensate the humidity reduction that causes because vapor condensation, and the comdenstion water after the atomizing is followed the wind energy of air outlet and can be more even scatter in indoorly, make whole indoor all can keep better humidity.

Meanwhile, the liquid storage cavity 33 is divided into the filter cavity 331 and the water purification cavity 332 by the partition wall 40 arranged in the liquid storage tank 30, the overflow water level 41 is formed at the top of the partition wall 40, the condensed water enters the filter cavity 331 through the liquid inlet 32 and then only reaches the overflow water level 41 to cross the partition wall 40 to enter the water purification cavity 332, the filter element 50 is arranged between the filter cavity 331 and the water purification cavity 332 to filter the condensed water entering the water purification cavity 332, so that dust and impurities in the condensed water are blocked by the filter element 50, the condensed water in the water purification cavity 332 is cleaner purified water, and therefore the water purification pump in the water purification cavity 332 is pumped indoors to increase the humidity without causing adverse effects on users.

The reservoir 33 is divided into the filter cavity 331 and the purified water cavity 332 by the partition wall 40, the filter cavity 331 and the purified water cavity 332 are not directly communicated with each other, and as the atomized member 60 pumps out the condensed water in the purified water cavity 332, the water level in the purified water cavity 332 may be lower than the overflow water level 41, so that the water level in the filter cavity 331 will flow into the purified water cavity 332 through the strainer 50 when being higher than the overflow water level 41, and since the water in the purified water cavity 332 is pumped out, it is necessary to prevent the condensed water from flowing between the filter cavity 331 and the purified water cavity 332, because the water flowing may scatter impurities, dust and the like at the strainer 50, and thus the water quality of the purified water cavity 332 is affected by the water flowing into the purified water cavity 332, and by separating the filter cavity 331 and the purified water cavity 332, the condensed water in the purified water cavity 332 can maintain a relatively pure water quality.

In a preferred implementation manner of the humidity control apparatus of the temperature control system, an overflow drain hole 34 communicating with the filter chamber 331 is formed in a side wall of the liquid storage tank 30, a lower edge of the overflow drain hole 34 is flush with the overflow water level 41, and the overflow drain hole 34 communicates with the discharge pipe 20. Referring to fig. 1, when the level of the condensed water in the filter cavity 331 reaches the overflow level 41, a portion of the water enters the purified water cavity 332 through the filter element 50 for use, and the other portion of the water is discharged from the overflow drain hole 34, so that the discharged water can flush out dust, impurities, etc. floating on the overflow level 41, especially when the atomizing element 60 is not in operation, the water in the filter cavity 331 continuously enters the purified water cavity 332, so that the level of the water in the purified water cavity 332 reaches the overflow level 41, and at this time, the condensed water entering the filter cavity 331 from the liquid inlet 32 does not enter the purified water cavity 332 again, but is discharged from the overflow drain hole 34 to the drain pipe 20, so as to discharge the excess condensed water, so that a certain amount of water is retained in the liquid storage cavity 33, and at the same time, too much water accumulation does not occur.

In a preferred implementation manner of the humidity control apparatus of temperature control system, the top of the liquid storage tank 30 extends downward to form a stop wall 35, as shown in fig. 1, the stop wall 35 extends downward into the filter cavity 331, the stop wall 35 divides the part of the cavity 31 except the liquid storage cavity 33 into a liquid inlet chamber 311 and a communication chamber 312, the liquid inlet chamber 311 is communicated with the liquid inlet 32 and the filter cavity 331, the communication chamber 312 is communicated with the filter cavity 331 and the purified water cavity 332, and the filter element 50 is disposed in the communication chamber 312. The liquid inlet 32 is separated from the purified water cavity 332 by the stop wall 35, so that the liquid entering the filter cavity 331 from the liquid inlet 32 is prevented from directly flowing or being splashed to the purified water cavity 332 to cause water pollution in the purified water cavity 332, the condensed water entering from the liquid inlet 32 enters the filter cavity 331 through the liquid inlet chamber 311, only the splashed or obvious flowing can be caused in the liquid inlet chamber 311, and the water in the filter cavity 331 is pushed to pass through the purified water cavity 332 of the communication chamber 312, and the water can be filtered through the filter element 50 arranged in the communication chamber 312.

In a preferred embodiment of the humidity control device of the temperature control system, the filter element 50 is disposed between the stop wall 35 and the partition wall 40. With continued reference to fig. 1, the filter element 50 may be disposed parallel to the bottom of the stop wall 35, and may stop the dust or impurities in the filter cavity 331 at the lower side of the stop wall 35, so that when the water in the filter cavity 331 flows, the dust or impurities may be carried to the overflow drain hole 34 and discharged out of the reservoir 33. The filter element 50 shown in the figure is disposed between the stop wall 35 and the partition wall 40 to more completely separate the filter cavity 331 and the clear water cavity 332, and the filter element 50 may be a filter net or other sponge with a filtering function, as long as the filtering function is achieved.

In a preferred implementation manner of the humidity control apparatus of the temperature control system, the bottom of the stop wall 35 is located below the overflow water level 41, a dust filter 70 is disposed in the filter cavity 331 between the stop wall 35 and the side wall of the liquid storage tank 30, and the dust filter 70 is located below the overflow water level 41. As shown in fig. 1, the dust filter 70 can perform a primary filtration of the condensed water at a position close to the overflow water level 41, and the secondary filtration through the filter element 50 after the primary filtration can achieve a better condensed water filtering effect. And the overflow water level 41 is formed at the upper side of the dust filter 70 to form a water flowing region at the upper side of the dust filter 70, so that dust or foreign substances shielded by the dust filter 70 are discharged from the overflow drain hole 34 by the impact of condensed water continuously entering and the flow of water.

In a preferred implementation manner of the humidity control device of the temperature control system, the liquid storage tank 30 further comprises a liquid outlet pipe 80 respectively communicating with the filter cavity 331 and the water purification cavity 332, the liquid outlet pipe 80 is communicated with the discharge pipe 20, and the humidity detection device further comprises a control valve 90 capable of controlling the open-close state of the liquid outlet pipe 80. Since the air conditioner is not used at all times, when the air conditioner is not operated, in order to prevent condensed water collected in the liquid storage tank 30 from deteriorating and breeding bacteria due to long-term storage, when the air conditioner is closed, the control valve 90 is opened, the condensed water in the filter cavity 331 and the purified water cavity 332 can be discharged through the liquid outlet pipe 80 and then discharged out of the air conditioner through the discharge pipe 20, and when the air conditioner is powered on, the control valve 90 closes the liquid storage tank 30, so that the filter cavity 331 and the purified water cavity 332 can collect the condensed water. Therefore, the condensed water can be collected in real time and atomized for use when the air conditioner is used, and the condensed water can be discharged when the air conditioner is not used, so that the condensed water is prevented from being stored for a long time and breeding bacteria.

Preferably, the control valve 90 is a normally open solenoid valve. Control valve 90 opens automatically when the air conditioner outage for drain pipe 80 switches on and drains, and control valve 90 can seal drain pipe 80 when the air conditioner circular telegram, realizes the collection of stock solution chamber 33 to the comdenstion water.

In a preferred implementation manner of the humidity control device of the temperature control system, the liquid storage tank 30 further includes a cover body 100, the cover body 100 covers the liquid storage tank 30 and can seal the communicating chamber 312, and the liquid suction pipe 61 of the atomizing element 60 penetrates through the cover body 100 to communicate with the water purifying cavity 332. By providing the cover body 100, the cover body 100 can be opened at intervals to clean the clean water chamber 332 and the filter chamber 331, and the filter member 50, the dust filter member 70, and the like can be cleaned or replaced.

In a preferred implementation of the humidity control device of the temperature control system, the humidity control device further includes the humidity detector 110 connected to the atomizing element 60. The humidity detector 110 may be disposed indoors, and the humidity in the room may be detected in real time by the humidity detector 110, so that whether the atomizing member 60 is turned on or not may be controlled according to the indoor humidity, thereby ensuring that the indoor humidity can be always maintained in a relatively suitable humidity range.

The technical solutions protected by the present invention are not limited to the above embodiments, and it should be noted that the combination of the technical solution of any embodiment and the technical solution of one or more other embodiments is within the protection scope of the present invention. Although the utility model has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements may be made based on the utility model. Accordingly, it is intended that all such modifications and alterations be included within the scope of this invention as defined in the appended claims.

Claims (9)

1. The utility model provides a temperature control system humidity control device, temperature control system has the air outlet and is used for collecting the water collector of comdenstion water, the water collector has the outlet, temperature control system still includes the delivery pipe, its characterized in that still includes:

the liquid storage tank is provided with a cavity, the liquid storage tank is provided with a liquid inlet communicated with the cavity, the liquid inlet is communicated with the water outlet, and a liquid storage cavity is arranged in the cavity;

the separation wall is arranged in the cavity, extends upwards from the bottom of the liquid storage tank and divides the liquid storage chamber into a filter chamber and a purified water chamber in the horizontal direction, an overflow water level is formed at the top of the separation wall, and the filter chamber is communicated with the liquid inlet;

A filter element disposed on top of the separation wall, the filter element separating the filter chamber and the purified water chamber;

the atomizing piece, it set up in the air outlet, just atomizing piece intercommunication the water purification chamber.

2. Temperature control system humidity control device according to claim 1,

the side wall of the liquid storage tank is provided with an overflow drain hole communicated with the filter cavity, the lower edge of the overflow drain hole is flush with the overflow water level, and the overflow drain hole is communicated with the discharge pipe.

3. Temperature control system humidity control device according to claim 1,

the top downwardly extending of liquid storage pot forms the backstop wall, the backstop wall stretches into downwards the filter chamber, the backstop wall will the cavity is except that the part outside the liquid storage chamber is separated for feed liquor room and intercommunication room, the feed liquor room intercommunication the feed liquor with the filter chamber, intercommunication room intercommunication the filter chamber with the water purification chamber, filter set up in the intercommunication room.

4. Temperature control system humidity control device according to claim 3,

the filter member is disposed between the stopper wall and the partition wall.

5. Temperature control system humidity control device according to claim 3,

the bottom of the stopping wall is located on the lower side of the overflow water level, a dust filtering piece is arranged between the stopping wall and the side wall of the liquid storage tank in the filtering cavity, and the dust filtering piece is located on the lower side of the overflow water level.

6. Temperature control system humidity control device according to claim 1,

the liquid storage pot still including communicate respectively the filter chamber with the drain pipe in water purification chamber, the drain pipe intercommunication the delivery pipe, humidity control device still includes the control valve that can control drain pipe open and close state.

7. The temperature-controlled system humidity control device of claim 6,

the control valve is a normally open type electromagnetic valve.

8. The temperature control system humidity control device of claim 3,

the liquid storage pot still includes the lid, the lid closes can seal during the liquid storage pot the intercommunication room, just the liquid suction pipe of atomizing spare passes the lid intercommunication the water purification chamber.

9. The temperature control system humidity control device of claim 1,

The humidity control device further comprises a humidity detector connected with the atomizing piece.

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