CN220205933U - Dehumidifier sealing plate drainage structure and dehumidifier - Google Patents

Abstract

The utility model relates to a dehumidifier sealing plate drainage structure and a dehumidifier. The utility model relates to a dehumidifier sealing plate drainage structure, which comprises a water receiving tank main body and a sealing plate which is connected with the top of the water receiving tank main body in a sealing way; the middle part of the sealing plate is provided with a water inlet; two ends of the water receiving tank main body are respectively provided with a water outlet; and water outlets at two ends of the water receiving tank body are respectively surrounded by the end parts of the water receiving tank body and the end parts of the sealing plate to form a pressure gentle region. The utility model relates to a sealing plate drainage structure of a dehumidifier, which is arranged at the bottom of a heat exchanger of the dehumidifier. When the dehumidifier is in dehumidification, negative pressure can be generated inside the dehumidifier, the pressure influence of the internal negative pressure on the water outlet can be slowed down on the one hand by the dehumidifier sealing plate drainage structure, the discharge of water is prevented from being influenced by the internal negative pressure too much, and meanwhile, the wind of the external environment can be prevented from entering the dehumidifier sealing plate drainage structure to influence the dehumidification effect of the dehumidifier.

Description

Dehumidifier sealing plate drainage structure and dehumidifier

Technical Field

The utility model relates to the technical field of dehumidifiers, in particular to a dehumidifier sealing plate drainage structure and a dehumidifier.

Background

The dehumidifier is a device capable of reducing air humidity and is widely applied to swimming pipes and other places needing dehumidification. In the process of reducing the air humidity, the dehumidifier converts water vapor in the air into liquid water through the heat exchanger.

Chinese patent CN210463546U discloses a heat exchanger module and dehumidifier; in the working process of the dehumidifier, negative pressure is easy to form in the dehumidifier due to the flow of air; the water draining structure at the bottom of the heat exchanger of the dehumidifier is easy to be in a relative negative pressure state due to the influence of negative pressure in the dehumidifier, so that the generated liquid water cannot be smoothly drained from the water draining port, and meanwhile, the water draining port is in the relative negative pressure state, so that external wind is easy to enter the dehumidifier, and the dehumidification effect of the dehumidifier is influenced.

Disclosure of Invention

Accordingly, an object of the present utility model is to provide a dehumidifier sealing plate drainage structure and a dehumidifier, which can smoothly drain liquid water generated during dehumidification of the dehumidifier and prevent wind channeling.

A dehumidifier sealing plate drainage structure comprises a water receiving tank main body and a sealing plate which is in sealing connection with the top of the water receiving tank main body; the middle part of the sealing plate is provided with a water inlet; two ends of the water receiving tank main body are respectively provided with a water outlet; and water outlets at two ends of the water receiving tank body are respectively surrounded by the end parts of the water receiving tank body and the end parts of the sealing plate to form a pressure gentle region.

The beneficial effect of this scheme is:

the sealing plate drainage structure of the dehumidifier is arranged at the bottom of a heat exchanger of the dehumidifier, and condensed water generated by the heat exchanger enters the water receiving tank main body through the water inlet of the sealing plate and flows out from the water outlets at two ends of the water receiving tank main body. When the dehumidifier performs dehumidification, negative pressure is generated in the dehumidifier, and due to the arrangement of the sealing plate, the water outlets at the two ends of the water receiving tank main body are respectively surrounded by the end parts of the water receiving tank main body and the end parts of the sealing plate to form a pressure gentle region; on one hand, the influence of negative pressure in the dehumidifier on the pressure at the water outlet of the water draining structure of the sealing plate of the dehumidifier can be slowed down, the discharge of water is prevented from being influenced by excessive negative pressure in the water draining structure of the sealing plate of the dehumidifier, and meanwhile, the influence of wind of the external environment on the dehumidification effect of the dehumidifier can be prevented from being caused by the wind entering the water draining structure of the sealing plate of the dehumidifier; in addition, due to the arrangement of the sealing plate, the sealing performance of the drainage structure of the sealing plate of the dehumidifier is better, and the generated condensed water can be prevented from splashing into the dehumidifier from the upper part of the water receiving tank body.

The utility model also provides a dehumidifier, which comprises a heat exchanger module; the heat exchanger module includes a module housing; an intermediate baffle is arranged in the module shell and divides the interior of the module shell into at least two layers up and down; each layer of the upper side and the lower side of the middle partition plate is respectively provided with an evaporator, a condenser and a surface cooler in sequence;

the bottom of the evaporator of each layer is provided with any one of the dehumidifier sealing plate drainage structures.

The dehumidifier disclosed by the utility model is divided into at least two layers, and the bottom of the evaporator of each layer is provided with any one of the sealing plate drainage structures of the dehumidifier, so that the sealing plate drainage structures of the dehumidifier at the bottom of the evaporator can provide good sealing performance and good drainage effect when each layer works independently or jointly.

Further, the dehumidifier sealing plate drain structure of the evaporator bottom of each layer positioned on the upper side of the intermediate partition plate is denoted as a first dehumidifier sealing plate drain structure; the first dehumidifier sealing plate drainage structure comprises a first water receiving tank main body and a first sealing plate which is connected with the top of the first water receiving tank main body in a sealing way; the first water receiving tank main body is arranged above the middle partition plate; the middle part of the first sealing plate is provided with a first water inlet, and two ends of the first water receiving tank main body are respectively provided with a first water outlet; and a first water outlet at two ends of the bottom of the first water receiving tank body is respectively surrounded by the end part of the first water receiving tank body and the end part of the first sealing plate to form a first pressure gentle region.

Further, the first dehumidifier sealing plate drainage structure is in a hollow cuboid shape; the first water receiving tank main body comprises a first water receiving tank bottom plate and a first water receiving tank frame arranged on the periphery of the first water receiving tank bottom plate; the two ends of the first water receiving tank bottom plate are respectively provided with the first water outlet.

Further, the dehumidifier sealing plate drainage structure at the bottom of the evaporator at the lowest layer is marked as a second dehumidifier sealing plate drainage structure; the second dehumidifier sealing plate drainage structure comprises a second water receiving tank main body and a second sealing plate which is connected with the top of the second water receiving tank main body in a sealing way; the second water receiving tank main body is embedded at the bottom of the module shell; the middle part of the second sealing plate is provided with a second water inlet, and two ends of the second water receiving tank main body are respectively provided with a second water outlet; and a second water outlet at two ends of the second water receiving tank main body is respectively surrounded by the end part of the second water receiving tank main body and the end part of the second sealing plate to form a second pressure gentle region.

Further, the second dehumidifier sealing plate drainage structure is in a hollow isosceles trapezoid prism shape; the second water receiving tank main body comprises a second water receiving tank bottom plate and a second water receiving tank frame arranged on the periphery of the second water receiving tank bottom plate; the width between two sides of the second sealing plate is larger than the width between two sides of the second water receiving tank bottom plate; the second water receiving tank frame comprises two first frame plates and two second frame plates; the top ends and the bottom ends of the two first frame plates are respectively and vertically connected with the same ends of the second sealing plate and the second water receiving tank bottom plate; the bottoms of the two first frame plates are provided with the second water outlets; the top and the bottom of the second frame plate are respectively connected with the same side of the second sealing plate and the second water receiving tank bottom plate, and the second sealing plate is connected downwards in an inclined way to the second water receiving tank bottom plate.

Further, the opening direction of the first water outlet at the two ends of the first water receiving tank bottom plate is vertically downward; interfaces are respectively arranged at two ends of the second sealing plate; the first water outlet at two ends of the first water receiving tank bottom plate is communicated with the connectors at two ends of the second sealing plate through water receiving pipes respectively.

Further, the opening direction of the second water outlet is horizontally outward.

Further, the module housing includes a module frame and module panels disposed on a number of sides of the module frame; the module shell also comprises a module base, and the module frame is arranged above the module base; the upper part of the second water receiving tank main body is embedded in the module panel at the bottom of the module shell, and the lower part of the second water receiving tank main body is positioned in the module base.

Further, an installation space is respectively arranged between the evaporator and the condenser and between the condenser and the surface cooler on the same layer, and two sides of the installation space are provided with middle connection fixing plates.

For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic view of a dehumidifier according to the present utility model;

FIG. 2 is a schematic view of the structure of the heat exchanger module in an exploded state;

FIG. 3 is a front view of the internal structure of the heat exchanger module (without intermediate connection fixing plates);

FIG. 4 is a schematic view of the structure of the first dehumidifier sealing plate drain structure and intermediate separator;

FIG. 5 is a schematic view of the structure of the first water receiving tank body;

FIG. 6 is a schematic view of a second dehumidifier sealing plate drain structure embedded in a panel;

FIG. 7 is an enlarged schematic view of FIG. 6 at A;

in the figure: 10. a return air module; 11. an air return inlet; 20. a new exhaust module; 21. a fresh air inlet; 22. an exhaust air outlet; 30. a heat exchanger module; 31. an evaporator; 32. a condenser; 33. a surface cooler; 34. a middle partition plate; 35. a first dehumidifier sealing plate drainage structure; 351. a first water receiving tank body; 3510. a first drain port; 3511 a first water receiving trough bottom plate; 3512 a first water receiving trough rim; 352. a first sealing plate; 3520. a first water inlet; 36. a second dehumidifier sealing plate drainage structure; 361. a second water receiving tank body; 3610. a second drain port; 3611 a second water receiving tank bottom plate; 3612 a second water receiving tank frame; 36121. a first frame plate; 36122. a second frame plate; 362. a second sealing plate; 3620. a second water inlet; 3621. an interface; 37. an installation space; 38. the middle is connected with a fixed plate; 40. an air supply module; 50. a module housing; 51. a module frame; 52. a module panel; 53. and a module base.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

The utility model provides a dehumidifier sealing plate drainage structure, which comprises a water receiving tank main body 351 and a sealing plate 352 which is connected with the top of the water receiving tank main body 351 in a sealing way; the middle part of the sealing plate 352 is provided with a water inlet; two ends of the water receiving tank main body 351 are respectively provided with a water outlet 3510; and the water discharge ports 3510 at the two ends of the water receiving tank body 351 are respectively surrounded by the end parts of the water receiving tank body 351 and the end parts of the sealing plate 352 to form a pressure gentle region.

Referring to fig. 1 and 3, the present utility model provides a dehumidifier, which includes a return air module 10, a fresh air module 20, a heat exchanger module 30, and an air supply module 40 sequentially disposed, wherein the fresh air module 20 includes an air exhaust system and a fresh air system, the heat exchanger module 300 includes an evaporator 31, a condenser 32, and a surface cooler 33, the return air module 10, the fresh air module 20, the heat exchanger module 30, and the air supply module 40 each have a module housing 50, and adjacent module housings 50 are connected in a sealing manner.

The return air module 10 has return air intake 11, and the new module of airing exhaust 20 has new trend cavity and the cavity of airing exhaust, be provided with new trend air intake 21 on the new trend cavity, be provided with the air outlet 22 of airing exhaust on the cavity of airing exhaust, new trend air intake 21 department is provided with the fresh air blast gate, the air outlet 22 department of airing exhaust is provided with the blast gate. An adjusting air valve (not shown) is arranged between the fresh air cavity and the exhaust cavity, the adjusting air valve is a manual air valve, and the fresh air valve and the exhaust air valve are electric air valves. The manual air valve and the electric air valve are arranged in a linkage way, and the air discharge quantity and the fresh air quantity are controlled by adjusting the sizes of the manual air valve and the electric air valve. When the manual air valve is regulated to be closed, the air exhaust electric air valve is fully opened, return air is exhausted from the air outlet, meanwhile, the fresh air valve is electrically fully opened, and due to isolation of the manual air valve, the return air fan can suck fresh air from the fresh air inlet 21, so that indoor fresh air introduction is realized; when the manual air valve is adjusted to be opened, the air exhaust air valve is closed, and part of return air enters the fresh air cavity and is mixed with fresh air and then is sent to the heat exchanger module 30 for dehumidification and heating.

The heat exchanger module 30 includes a module housing 50; an intermediate partition 34 is arranged in the module shell, and the interior of the module shell is divided into an upper layer and a lower layer by the intermediate partition 34; each layer of the upper and lower sides of the middle partition plate 34 is respectively provided with an evaporator 31, a condenser 32 and a surface cooler 33 in sequence; the bottom of the evaporator 31 of each layer is provided with any one of the above-mentioned dehumidifier sealing plate drainage structures.

The heat exchanger module 30 of the dehumidifier of the utility model is divided into two layers, the bottom of the evaporator 30 of each layer is provided with the dehumidifier sealing plate drainage structure 35, so that the dehumidifier sealing plate drainage structure 35 at the bottom of the evaporator 31 can provide good sealing performance and good drainage effect when each layer works independently or jointly. The evaporator 31, the condenser 32 and the surface cooler 33 are integrated into a whole, fresh air and return air are intensively treated, and the fresh air and the return air enter the condenser 32 for heating after being dehumidified by the evaporator 31 and then are heated or refrigerated by the surface cooler 33 so as to meet the indoor temperature requirement. The heat exchange air duct adopts independent separation design, and the upper layer and the lower layer of the heat exchanger module 30 form an upper air duct cavity and a lower air duct cavity, so that a refrigerant pipeline in the heat exchanger is also divided into an upper part and a lower part, the upper heat exchanger pipeline and the lower heat exchanger pipeline are independent from each other, the mutual influence of the system is smaller, the air treatment is more uniform, and the unit evaporation, condensation and surface cooling heat exchange effects are more ensured.

For convenience of distinction, the dehumidifier sealing plate drain structure of the evaporator bottom 31 at the upper layer above the intermediate separator 34 is denoted as a first dehumidifier sealing plate drain structure 35; the first dehumidifier sealing plate drainage structure 35 comprises a first water receiving tank main body 351 and a first sealing plate 352 which is connected with the top of the first water receiving tank main body 351 in a sealing way; the first water receiving tank body 351 is arranged above the middle partition plate; a first water inlet 3520 is formed in the middle of the first sealing plate 352, and first water outlets 3510 are formed at two ends of the first water receiving tank main body 351 respectively; at the first water outlet 3510 at the two ends of the first water receiving tank body 351, a first pressure smoothing area is formed by enclosing the end of the first water receiving tank body 351 and the end of the first sealing plate 352.

As a preferred embodiment, the first dehumidifier sealing plate drainage structure 35 has a hollow rectangular parallelepiped shape; the first water receiving tank body 351 includes a first water receiving tank bottom plate 3511 and a first water receiving tank frame 3512 provided on a peripheral portion of the first water receiving tank bottom plate 3511; the two ends of the first water receiving tank bottom plate 3511 are respectively provided with the first water outlet 3510.

The dehumidifier sealing plate drain structure at the bottom of the evaporator 31 at the lowest level is denoted as a second dehumidifier sealing plate drain structure 36; the second dehumidifier sealing plate drainage structure 36 comprises a second water receiving tank main body 361 and a second sealing plate 362 which is connected with the top of the second water receiving tank main body 361 in a sealing way; the second water receiving tank body 361 is embedded in the bottom of the module housing 500; a second water inlet 3620 is formed in the middle of the second sealing plate 362, and second water outlets 3610 are formed at two ends of the second water receiving tank body 361 respectively; a second water drain port 3610 of the second water receiving tank body 3610 is surrounded by an end portion of the second water receiving tank body 361 and an end portion of the second sealing plate 362 to form a second pressure smoothing region.

As a preferred embodiment, the second dehumidifier sealing plate drain structure 36 is in the shape of a hollow isosceles trapezoid prism; the second water receiving tank body 361 includes a second water receiving tank bottom plate 3611 and a second water receiving tank frame 3612 provided on a peripheral portion of the second water receiving tank bottom plate 3611; a width between both sides of the second sealing plate 362 is greater than a width between both sides of the second water receiving tank bottom plate 3611; the second water receiving tank frame 3612 includes two first frame plates 36121 and two second frame plates 36122; the top ends and the bottom ends of the two first frame plates 36122 are respectively and vertically connected with the same ends of the second sealing plate 362 and the second water receiving tank bottom plate 3611; the bottoms of the two first frame plates 36121 are provided with the second water outlet 3610; the top and bottom ends of the second frame plate 36122 are respectively connected to the same side of the second sealing plate 362 and the second water receiving tank bottom plate 3611, and are connected by the second sealing plate 362 obliquely downward to the second water receiving tank bottom plate 3611.

To further enhance the water draining effect of the heat exchanger module, as a preferred embodiment, the opening direction of the first water draining opening 3610 at both ends of the first water receiving tub bottom 3511 is vertically downward; interfaces 3621 are respectively arranged at two ends of the second sealing plate 362; the first drain ports 3510 at both ends of the first water receiving tank bottom plate 3511 are respectively communicated with the connectors 3621 at both ends of the second sealing plate 362 through water receiving pipes (not shown). The water receiving pipe is used for communicating the first dehumidifier sealing plate drainage structure 35 with the second dehumidifier sealing plate drainage structure 36, so that water generated by the upper-layer evaporator 31 flows into the second dehumidifier sealing plate drainage structure 36 and is discharged from the second water outlet together with water generated by the lower-layer evaporator 31, in addition, due to the arrangement of the water receiving pipe, the water outlet communicated with the external environment of the whole heat exchanger module 30 is reduced, and wind of the external environment is further reduced from entering the dehumidifier from the water outlet.

As a preferred embodiment, the second drain opening 3610 is horizontally outward in opening direction.

As a preferred embodiment, the module case 50 includes a module frame 51 and module panels 52 provided on several sides of the module frame 51; the module housing 50 further includes a module base 53, and the module frame 51 is disposed above the module base 53; the upper part of the second water receiving tank body 361 is embedded in the module panel 52 at the bottom of the module housing 50, and the lower part is located in the module base 53.

As a preferred embodiment, an installation space 37 is provided between the evaporator 31 and the condenser 32 and between the condenser 32 and the surface cooler 33, and intermediate connection fixing plates 38 are provided on both sides of the installation space 37.

As a preferred embodiment, the distance between the two ends of the first water inlet 3520 on the first sealing plate 352 and the two ends of the first sealing plate 352 which are close to each other is 1/7-1/10 of the length of the first sealing plate 352. The distance between the two ends of the first water inlet 3620 on the second sealing plate 362 and the two ends of the second sealing plate 362, which are close to each other, is 1/7-1/10 of the length of the second sealing plate 352. By the arrangement, on one hand, the openings of the first water inlet 3520 and the second water inlet 3620 can be larger, and condensed water generated by the evaporator 31 can quickly enter the first dehumidifier sealing plate drainage structure 35 and the first dehumidifier sealing plate drainage structure 36; on the other hand, there may be a suitable distance between the two ends of the first water inlet 3520 and the second water inlet 3620 and the two ends of the first sealing plate 352 and the second sealing plate 62, that is, there may be a suitable length of the ends of the first sealing plate 352 and the second sealing plate 362, so that they may be respectively surrounded into a first pressure flat region and a second pressure flat region, and negative pressure generated inside the dehumidifier may be prevented from affecting water discharge.

In this scheme return air enters into the return air module through setting up in the return air intake 11 at return air module 10 top, enter into the new module of airing exhaust through setting up the vent in the bottom position of return air module towards new air exhaust module 20 one side, part is discharged by the air outlet 22 that airs exhaust that sets up at the cavity top of airing exhaust, another part enters into the new trend cavity through the governing valve and mixes the back with the new trend that gets into by the new trend air intake and enters into heat exchanger module 30 from the middle part, divide into two at least ways after entering into heat exchanger module 30, get into respectively and carry out the heat exchange in upper and lower two-layer, get into in the air supply module 40 jointly after the heat exchange is accomplished, be discharged by air supply module 400 top.

The beneficial effect of this scheme is:

the sealing plate drainage structure of the dehumidifier is arranged at the bottom of a heat exchanger of the dehumidifier, and condensed water generated by the heat exchanger enters the water receiving tank main body through the water inlet of the sealing plate and flows out from the water outlets at two ends of the water receiving tank main body. When the dehumidifier performs dehumidification, negative pressure is generated in the dehumidifier, and due to the arrangement of the sealing plate, the water outlets at the two ends of the water receiving tank main body are respectively surrounded by the end parts of the water receiving tank main body and the end parts of the sealing plate to form a pressure gentle region; on one hand, the influence of negative pressure in the dehumidifier on the pressure at the water outlet of the water draining structure of the sealing plate of the dehumidifier can be slowed down, the discharge of water is prevented from being influenced by excessive negative pressure in the water draining structure of the sealing plate of the dehumidifier, and meanwhile, the influence of wind of the external environment on the dehumidification effect of the dehumidifier can be prevented from being caused by the wind entering the water draining structure of the sealing plate of the dehumidifier; in addition, due to the arrangement of the sealing plate, the sealing performance of the drainage structure of the sealing plate of the dehumidifier is better, and the generated condensed water can be prevented from splashing into the dehumidifier from the upper part of the water receiving tank body.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the spirit of the utility model, and the utility model is intended to encompass such modifications and improvements.

Claims (10)

1. The utility model provides a dehumidifier sealing plate drainage structures which characterized in that: comprises a water receiving tank main body and a sealing plate which is connected with the top of the water receiving tank main body in a sealing way; the middle part of the sealing plate is provided with a water inlet; two ends of the water receiving tank main body are respectively provided with a water outlet; and water outlets at two ends of the water receiving tank body are respectively surrounded by the end parts of the water receiving tank body and the end parts of the sealing plate to form a pressure gentle region.

2. A dehumidifier, characterized in that: comprises a heat exchanger module; the heat exchanger module includes a module housing; an intermediate baffle is arranged in the module shell and divides the interior of the module shell into at least two layers up and down; each layer of the upper side and the lower side of the middle partition plate is respectively provided with an evaporator, a condenser and a surface cooler in sequence;

the bottom of the evaporator of each layer is provided with a dehumidifier sealing plate drain structure as defined in claim 1.

3. A dehumidifier as claimed in claim 2, wherein: the dehumidifier sealing plate drainage structure of the bottom of the evaporator of each layer positioned on the upper side of the middle partition plate is marked as a first dehumidifier sealing plate drainage structure; the first dehumidifier sealing plate drainage structure comprises a first water receiving tank main body and a first sealing plate which is connected with the top of the first water receiving tank main body in a sealing way; the first water receiving tank main body is arranged above the middle partition plate; the middle part of the first sealing plate is provided with a first water inlet, and two ends of the first water receiving tank main body are respectively provided with a first water outlet; and a first water outlet at two ends of the first water receiving tank main body is respectively surrounded by the end part of the first water receiving tank main body and the end part of the first sealing plate to form a first pressure gentle region.

4. A dehumidifier according to claim 3, wherein: the first dehumidifier sealing plate drainage structure is in a hollow cuboid shape; the first water receiving tank main body comprises a first water receiving tank bottom plate and a first water receiving tank frame arranged on the periphery of the first water receiving tank bottom plate; the two ends of the first water receiving tank bottom plate are respectively provided with the first water outlet.

5. The dehumidifier of claim 4, wherein: the dehumidifier sealing plate drainage structure positioned at the bottom of the evaporator at the lowest layer is marked as a second dehumidifier sealing plate drainage structure; the second dehumidifier sealing plate drainage structure comprises a second water receiving tank main body and a second sealing plate which is connected with the top of the second water receiving tank main body in a sealing way; the second water receiving tank main body is embedded at the bottom of the module shell; the middle part of the second sealing plate is provided with a second water inlet, and two ends of the second water receiving tank main body are respectively provided with a second water outlet; and a second water outlet at two ends of the second water receiving tank main body is respectively surrounded by the end part of the second water receiving tank main body and the end part of the second sealing plate to form a second pressure gentle region.

6. A dehumidifier as claimed in claim 5, wherein: the second dehumidifier sealing plate drainage structure is in a hollow isosceles trapezoid prism shape; the second water receiving tank main body comprises a second water receiving tank bottom plate and a second water receiving tank frame arranged on the periphery of the second water receiving tank bottom plate; the width between two sides of the second sealing plate is larger than the width between two sides of the second water receiving tank bottom plate; the second water receiving tank frame comprises two first frame plates and two second frame plates; the top ends and the bottom ends of the two first frame plates are respectively and vertically connected with the same ends of the second sealing plate and the second water receiving tank bottom plate; the bottoms of the two first frame plates are provided with the second water outlets; the top and the bottom of the second frame plate are respectively connected with the same side of the second sealing plate and the second water receiving tank bottom plate, and the second sealing plate is connected downwards in an inclined way to the second water receiving tank bottom plate.

7. The dehumidifier of claim 6, wherein: the opening direction of the first water outlet at the two ends of the first water receiving tank bottom plate is vertically downward; interfaces are respectively arranged at two ends of the second sealing plate; the first water outlet at two ends of the first water receiving tank bottom plate is communicated with the connectors at two ends of the second sealing plate through water receiving pipes respectively.

8. The dehumidifier of claim 6, wherein: the opening direction of the second water outlet is horizontally outwards.

9. The dehumidifier of claim 6, wherein: the module housing comprises a module frame and module panels arranged on a plurality of faces of the module frame; the module shell also comprises a module base, and the module frame is arranged above the module base; the upper part of the second water receiving tank main body is embedded in the module panel at the bottom of the module shell, and the lower part of the second water receiving tank main body is positioned in the module base.

10. The dehumidifier of claim 6, wherein: and mounting spaces are respectively arranged between the evaporator and the condenser and between the condenser and the surface cooler on the same layer, and middle connecting fixing plates are arranged on two sides of the mounting space.