CN114413464A - Water collector subassembly and mobile air conditioner - Google Patents

Abstract

The invention discloses a water pan assembly and a mobile air conditioner. The water collector subassembly includes: the water receiving tray is characterized in that a drainage groove and water leakage holes distributed on two sides of the drainage groove are formed in the tray bottom of the water receiving tray, and a water inlet is formed in the bottom of the drainage groove; and the water retaining cover is covered above the water inlet of the drainage groove, and the top view projection of the edge of the water retaining cover falls in the drainage groove.

Description

Water collector subassembly and mobile air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to a water pan assembly and a mobile air conditioner.

Background

In the prior art, the condensed water of the mobile air conditioner is pumped by the water pumping motor and then evaporated by the fan, and the condenser can be cooled by the condensed water in the process to improve the operation efficiency of the whole machine. However, the blades of the water beating motor are arranged between the two rows of condensers, most of the beaten condensed water directly falls off without hitting the condensers, and the efficiency is very low. And when the mobile machine condenser is in an L shape, the condensed water kicked up by the water kicking motor can not radiate the other side of the L shape, and the operation efficiency of the whole machine is seriously influenced.

In the prior art, a water pump is usually adopted to pump condensed water and then spray the condensed water onto a condenser through an opening on a water receiving disc on a partition wall in a moving machine, the method can effectively improve the heat dissipation of the condenser so as to improve the operation efficiency of the whole machine and the consumption of the condensed water, but the method has higher cost and relatively complex control.

Disclosure of Invention

In view of the above, the invention discloses a water pan assembly and a mobile air conditioner, which are used for at least solving the problems of poor effect and high cost when the existing air conditioner utilizes condensed water to cool a condenser.

In order to achieve the above object, the invention adopts the following technical scheme:

the invention discloses a water pan component in a first aspect, which comprises:

the water receiving tray is characterized in that a drainage groove and water leakage holes distributed on two sides of the drainage groove are formed in the tray bottom of the water receiving tray, and a water inlet is formed in the bottom of the drainage groove;

and the water retaining cover is covered above the water inlet of the drainage groove, and the top view projection of the edge of the water retaining cover falls in the drainage groove.

Further optionally, the drainage groove comprises:

the first outer wall and the second outer wall are oppositely arranged;

the first inner wall and the second inner wall are oppositely arranged;

a first trough bottom connected between the first outer wall and the first inner wall;

a second groove bottom connected between the second outer wall and the second inner wall;

a first sub-drainage groove with an upward opening is formed by the first outer wall, the first inner wall and the first groove bottom in a surrounding manner;

a second sub-drainage groove with an upward opening is formed by the second outer wall, the second inner wall and the bottom of the second groove;

the first inner wall and the second inner wall are oppositely arranged and form a water inlet gap, and the water inlet gap forms the water inlet;

the first inner wall is formed by inclining the first groove bottom to the water inlet and matching with the first groove bottom to form a first drainage wall;

the second inner wall is formed by inclining the second groove bottom to the water inlet and matching with the second groove bottom to form a second drainage wall;

the water retaining cover stretches over the water inlet;

the top view projection of the edge of one side of the water retaining cover falls in the first sub-drainage groove, and the top view projection of the edge of the other side of the water retaining cover falls in the second sub-drainage groove.

Further optionally, the water retaining cover is in an inverted V shape;

the lower wall surface of the first inner wall forms a first drainage surface and the lower wall surface of the second inner wall forms a second drainage surface, and the first drainage surface and the second drainage surface are oppositely arranged to form an inverted V-shaped flow guide channel communicated with the water inlet.

Further optionally, the water deflector cover comprises:

the first baffle wall is arranged opposite to the wall body of the first drainage wall, and the lower wall surface of the first baffle wall forms a first drainage surface so as to guide the condensed water entering from the water inlet to the first groove bottom of the drainage groove;

and the second retaining wall is opposite to the wall body of the second drainage wall, and a second drainage surface is formed on the lower wall surface of the second retaining wall so as to guide the condensed water entering from the water inlet to the second groove bottom of the drainage groove.

Further optionally, a lower end of the first retaining wall extends toward the first trough bottom; the lower end of the second blocking wall extends towards the bottom of the second groove; the upper end of the first blocking wall and the upper end of the second blocking wall are connected together to form a shape with a narrow upper part and a wide lower part.

A second aspect of the present invention discloses a mobile air conditioner, including: any preceding water collector subassembly.

Further optionally, the mobile air conditioner further comprises:

a housing;

the double-row condenser is arranged in the shell and comprises an inner side condenser and an outer side condenser, the inner side condenser and the outer side condenser are arranged in the vertical direction and are parallel to each other, and the double-row condenser is arranged in a bending mode around two adjacent side walls of the shell;

an evaporator located above the dual-row condenser;

the middle partition wall is arranged between the double-row condenser and the evaporator; the water pan is arranged on the middle partition wall, and the drainage groove of the water pan is positioned above the condenser gap formed between the inner side condenser and the outer side condenser.

Further optionally, the mobile air conditioner further comprises:

the chassis water receiving tray is arranged at the bottom of the double-row condenser and is used for collecting condensed water generated by the double-row condenser;

the subassembly of fetching water, the subassembly of fetching water includes: the water beating fan blade is arranged above the chassis water pan and positioned between the inner condenser and the outer condenser and is used for beating condensed water in the chassis water pan to a water inlet of the water pan and the double-row condenser; and the water beating motor is used for providing driving force for the water beating fan blades.

Further optionally, the hole that leaks of drainage groove one side corresponds and is located inboard condenser top, and the hole that leaks of opposite side corresponds and is located outside condenser top.

Further optionally, the extending direction of the drainage groove is consistent with the extending direction of the water retaining cover, and the drainage groove and the water retaining cover both extend along the bending direction of the double-row condenser.

Further optionally, a lower side of the first drainage wall of the drainage groove extends above the outside condenser, and a second drainage wall of the drainage groove extends above the inside condenser.

Has the advantages that: the invention provides a water pan assembly which can be arranged above a condenser of a mobile air conditioner, water is pumped by a water pumping mechanism of the air conditioner, the water can be received above and guided to the corresponding condenser, the water pumping efficiency of a water pumping motor is improved without extra cost and by a simple control structure, and the water pan assembly is particularly suitable for the air conditioner with the condenser having a bending structure and provided with a set of water pumping impellers.

Drawings

The above and other objects, features and advantages of the present disclosure will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings. The drawings described below are merely exemplary embodiments of the present disclosure, and other drawings may be derived by those skilled in the art without inventive effort.

FIG. 1 is a schematic view of a water pan assembly and a middle partition wall according to an embodiment;

FIG. 2 is a schematic view of an embodiment of a water pan assembly and a middle partition wall;

FIG. 3 shows a schematic cross-sectional view of a drip tray of an embodiment;

fig. 4 shows a partial enlarged view of fig. 3.

1. A water pan; 10. a drainage groove; 11. a first drainage wall; 111. a first tank bottom; 112. a first inner wall; 12. a second drainage wall; 121. the bottom of the second groove; 122. a second inner wall; 13. a water inlet; 14. a water leakage hole; 15. a first outer wall; 16. a second outer wall; 2. a water retaining cover; 21. a first retaining wall; 22. a second retaining wall; 3. a middle partition wall; 41. an inside condenser; 42. an outside condenser; 51. an inside evaporator; 52. an outer evaporator.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terminology used in the embodiments of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the examples of the present invention and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and "a" and "an" generally include at least two, but do not exclude at least one, unless the context clearly dictates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

Present current mobile air conditioner, its for realizing the make full use of to the comdenstion water, beat it and lower the temperature to the condenser after to the condenser, but because the condenser structure is great, often adopt crooked arrangement mode in the casing, beat the mechanism and can only beat water the cooling to partial condenser when beating water this moment, will cause cost increase if set up a plurality of mechanisms of beating water to the air conditioner inner structure that makes complicates. The water collector component can well solve the problems, and after the water collector component is arranged on an air conditioner, the water collecting efficiency of the water collecting mechanism can be ensured, the cooling efficiency of a condenser is improved, the cost can be saved, and the internal structure of the mobile air conditioner is simplified.

To further illustrate the technical solution of the present invention, the following specific examples are provided as shown in fig. 1 to 4.

Example 1

As shown in fig. 1 to 4, in this embodiment, a water tray assembly is provided, which includes:

the water receiving tray 1 is characterized in that a drainage groove 10 and water leakage holes 14 distributed on two sides of the drainage groove 10 are formed in the tray bottom of the water receiving tray 1, and a water inlet 13 is formed in the bottom of the drainage groove 10;

the water retaining cover 2 is covered above the drainage groove 10 and keeps a preset distance with the water inlet 13, and the water retaining cover 2 is used for guiding the condensed water which is pumped to the water retaining cover 2 through the water inlet 13 to the drainage groove 10.

After the water retaining cover is covered above the water inlet of the drainage groove, the top view projection of the edge of the water retaining cover falls into the drainage groove.

The water pan assembly in this embodiment can be installed on mobile air conditioner, if design in the middle bulkhead department, utilize this water pan assembly can carry out the water conservancy diversion with the comdenstion water that the mechanism of beating water was beaten, carries out homodisperse on the whole upper portion of condenser, can wholly cool down the heat dissipation to the condenser. This structure makes the efficiency of fetching water the structure, receives the comdenstion water, then the intensive dispersion is cooled down to it on the condenser.

In some alternatives, the drainage slots comprise: the first outer wall and the second outer wall are oppositely arranged; the first inner wall and the second inner wall are oppositely arranged; a first trough bottom connected between the first outer wall and the first inner wall; a second groove bottom connected between the second outer wall and the second inner wall; a first sub-drainage groove with an upward opening is defined by the first outer wall, the first inner wall and the first groove bottom; a second sub-drainage groove with an upward opening is formed by the second outer wall, the second inner wall and the bottom of the second groove; the first inner wall and the second inner wall are oppositely arranged to form a water inlet gap, and a water inlet is formed by the water inlet gap;

a water inlet; the first inner wall forms a first drainage wall by the inclined water inlet of the first groove bottom and matching with the first groove bottom; the second inner wall forms a second drainage wall by the inclined water inlet of the second groove bottom and matching with the second groove bottom; the water retaining cover stretches over the water inlet; the top view projection of the edge of one side of the water retaining cover falls in the first sub-drainage groove, and the top view projection of the edge of the other side of the water retaining cover falls in the second sub-drainage groove.

The structure of the drainage groove is described below with reference to the accompanying drawings. As shown in fig. 4, preferably, the drainage groove 10 includes: extend and mutual parallel arrangement's first outer wall 15 and second outer wall 16 towards predetermineeing the direction, wherein first outer wall 15 and the cooperation of second outer wall 16 enclose the lateral wall that goes out drainage groove 10 at the bottom of the dish of water collector 1.

The groove bottom of the drainage groove 10 in this embodiment comprises:

first drainage wall 11, first drainage wall 11 includes: a first groove bottom 111 and a first inner wall 112, wherein the first groove bottom 111 forms the left groove bottom of the drainage groove 10 and is connected with the first outer wall 15; the lower side of the first inner wall 112 is connected with the first groove bottom 111, and the upper side of the first inner wall 112 is obliquely arranged towards the oblique upper part far away from the first outer wall 15;

a second flow-directing wall 12, the second flow-directing wall 12 comprising: a second groove bottom 121 and a second inner wall 122, wherein the second groove bottom 121 forms the right groove bottom of the drainage groove 10 and is connected with the second outer wall 16; the lower side of the second inner wall 122 is connected with the second groove bottom 121, and the upper side of the second inner wall 122 is obliquely arranged towards the oblique upper part far away from the second outer wall 16;

wherein, the cooperation forms into the water clearance between the topside of first inner wall 112 and the topside of second inner wall 122, is formed by this water clearance of intaking water inlet 13.

In this embodiment, since both the first inner wall 112 and the second inner wall 122 have a certain inclination angle, the first inner wall 112, the first groove bottom 111, and the first outer wall 15 are fitted in the left groove forming the drainage groove 10 on the left side, and the second inner wall 122, the second groove bottom 121, and the second outer wall 16 are fitted in the right groove forming the drainage groove 10 on the right side. In addition, first drainage wall 11 and second drainage wall 12 can also reserve after the cooperation and predetermine the width and form water inlet 13, and at this moment, the accessible air conditioner is beaten water the water that the structure was beaten and is got rid of to this water inlet 13 department, can be with comdenstion water conservancy diversion left tank bottom and/or right tank bottom after contacting water retaining cover 2.

As shown in FIG. 4, first inner wall 112 and second inner wall 122 cooperate to define a V-shaped portion in the middle of drainage channel 10, the top of which is open.

Preferably, the first drainage wall 11 further comprises: the first lower drainage wall (not shown in the figure) is connected with the joint of the first tank bottom 111 and the first inner wall 112 and extends towards the obliquely lower direction along the inclined direction of the first inner wall 112, and the first lower drainage wall is used for guiding the condensed water pumped to the first inner wall 112 and the first lower drainage wall to the lower side of the water receiving tray 1; and/or the presence of a gas in the gas,

the second drainage wall 12 further comprises: and a second lower drainage wall (not shown in the figure) which is connected with the joint of the second groove bottom 121 and the second inner wall 122 and extends towards the oblique lower side along the oblique direction of the second inner wall 122, and the second lower drainage wall is used for guiding the condensed water which is pumped to the second inner wall 122 and the second lower drainage wall to the lower side of the water receiving tray 1.

The drainage wall in this embodiment can further utilize the comdenstion water of water conservancy diversion on the skew wall that sets up downwards after designing two drainage walls down, can utilize drainage wall down to extend certain length and correspond with the condenser, carries out the water conservancy diversion with the comdenstion water here, also sends to the condenser and cools down the heat transfer to it.

In some optional modes, the water retaining cover is in an inverted V shape; the lower wall surface of the first inner wall forms a first drainage surface and the lower wall surface of the second inner wall forms a second drainage surface, and the first drainage surface and the second drainage surface are oppositely arranged to form an inverted V-shaped flow guide channel communicated with the water inlet.

The structure of the water blocking cover is explained with reference to the attached drawings.

As shown in fig. 4, preferably, the water shield 2 includes: a first blocking wall 21 arranged opposite to the wall body of the first inner wall 112, wherein the lower wall surface of the first blocking wall 21 forms a first drainage surface to guide the condensed water entering through the water inlet 13 to the first groove bottom of the drainage groove 10; and a second blocking wall 22 disposed opposite to the wall body of the second inner wall 122, wherein a second drainage surface is formed on the lower wall surface of the second blocking wall 22 to guide the condensed water entering through the water inlet 13 to the second groove bottom of the drainage groove 10.

Preferably, the lower side of the wall body of the first blocking wall 21 extends toward the first groove bottom 111; the lower side of the wall body of the second retaining wall 22 extends toward the second groove bottom 121; the upper side of the first retaining wall 21 is connected to the upper side of the second retaining wall 22.

The water collector subassembly in this embodiment can be to getting rid of the comdenstion water that covers 2 to manger plate through water inlet 13 and collect and the water conservancy diversion, then discharge at the position of predetermineeing, arrange to the quotation of drainage groove 10 both sides on, then leak on the hole 14 leaks to the condenser downwards through the water leakage, realized the make full use of to the comdenstion water.

Example 2

As shown in fig. 1 to 4, in the present embodiment, there is provided a mobile air conditioner including: the water tray assembly of any one of embodiment 1. The mobile air conditioner in the embodiment mainly comprises a compressor, an evaporator, a condenser, a water-fetching motor, a middle partition wall 3 (on which the water-receiving tray assembly can be arranged), a fan system and the like.

Preferably, the mobile air conditioner further comprises: a housing; the double-row condenser is arranged in the shell and comprises an inner side condenser 41 and an outer side condenser 42, the inner side condenser 41 and the outer side condenser 42 are arranged in the vertical direction and are parallel to each other, and the double-row condenser is arranged in a bending mode around two adjacent side walls of the shell; the evaporator is positioned above the double-row condenser; the middle partition wall 3 is arranged between the double-row condenser and the evaporator; wherein the water pan is arranged on the middle partition wall 3, and the drainage groove 10 of the water pan 1 is positioned above the condenser gap formed between the inner side condenser 41 and the outer side condenser 42.

As shown in fig. 4, in one mode, the evaporator and the condenser are both of an L-shaped structure, that is, the evaporator and the condenser are arranged around the left side wall and the rear side wall in a plan view of the mobile air conditioner to form an L-shape. After the water pan assembly is arranged on the mobile air conditioner in the embodiment, the raised condensed water can be received and drained to the other side of the L-shaped condenser, so that the operation efficiency of the mobile air conditioner is improved, and the consumption of the condensed water is improved.

Preferably, the mobile air conditioner further comprises:

the chassis water receiving tray is arranged at the bottom of the double-row condenser and is used for collecting condensed water generated by the double-row condenser;

the subassembly of fetching water, the subassembly of fetching water includes: the water beating fan blade is arranged above the chassis water pan and is positioned between the inner condenser and the outer condenser and used for beating the condensed water in the chassis water pan to the water inlet 13 of the water pan and the double-row condenser; and the water beating motor is used for providing driving force for the water beating fan blades.

The hole 14 that leaks of drainage groove one side corresponds and is located inboard condenser top in this embodiment, and the hole 14 that leaks of opposite side corresponds and is located outside condenser top. Preferably, the extending direction of the drainage groove is consistent with the extending direction of the water-blocking cover 2, and both extend along the bending direction of the double-row condenser. Also L-shaped from a top view thereof. The lower lateral side of the first drainage wall of the drainage groove extends to the upper side of the condenser at the outer side, and the second drainage wall of the drainage groove extends to the upper side of the condenser at the inner side.

For cooperation condenser overall arrangement structure, this manger plate cover 2 is as the geing, preferably adopts L type geing, and its cross-section is the V type, makes the drainage groove of water collector subassembly become manger plate drainage groove, can be with the comdenstion water drainage to the side of not fetching water of water collector bottom L type condenser, and the side of not fetching water of water collector bottom L type is less than the side of fetching water so that the comdenstion water flows. The water beating side refers to the side where the water beating impeller is designed, and the non-water beating side refers to the side where water cannot be directly beaten through the water beating impeller after being bent.

In this embodiment, since the water pan assembly is designed above the condenser, it is preferable that: the evaporators are also designed into two rows, and consist of two single-row evaporators (an inner evaporator 51 and an outer evaporator 52); the middle partition wall 3 and the water collector component can adopt an integrated design and comprise an L-shaped water retaining cover 2 and an L-shaped drainage groove, the L-shaped water retaining cover 2 and the L-shaped drainage groove are respectively provided with a V-shaped part, and the L-shaped water retaining cover 2 and the V-shaped part of the L-shaped drainage groove are arranged between the two evaporators; the V-shaped part of the drainage groove is divided into a left part and a right part (one side is provided with a first inner wall 112, and the other side is provided with a second inner wall 122), so that the top end of the V-shaped part is provided with an opening (forming a water inlet 13); the section of the water retaining cover 2 is V-shaped, the water retaining cover 2 covers the V-shaped part of the drainage groove, and after the water retaining cover 2 is covered, a cavity (namely, the cavity is formed when the water retaining cover keeps a preset distance from the water inlet 13 of the drainage groove) is formed between the V-shaped part of the water retaining cover 2 and the V-shaped part of the drainage groove. The water beating motor is arranged between the two rows of condensers, and the water beating wind wheel is positioned on the same plane with the center of the water inlet 13 of the drainage groove.

The drainage groove at the bottom of the water receiving tray is utilized to drain the condensed water drained from the water retaining cover to the non-water-pumping side of the condenser, and the condensed water flows down along the top of the condenser through the water leakage hole 14. Specifically, when the water fetching motor fetches water, the condensed water is fetched, part of the condensed water can be directly fetched to the lower sides of the first drainage wall 11 and the second drainage wall 12, and the part of the condensed water can be drained to the condensers on the two sides to dissipate heat and be consumed for the whole water fetching machine. The other part of the condensed water can enter the cavity from the water inlet 13, the condensed water can be drained into the drainage groove from the drainage wall, the condensed water is drained to the non-water-beating side of the L-shaped condenser of the water pan through the drainage groove, and the condensed water is drained to the non-water-beating side of the L-shaped condenser generator below through the hole formed in the bottom of the non-water-beating side, so that the heat dissipation of the non-water-beating side of the L-shaped condenser is improved, and the operation efficiency of the whole machine and the consumption speed of the condensed water are improved.

Exemplary embodiments of the present disclosure are specifically illustrated and described above. It is to be understood that the present disclosure is not limited to the precise arrangements, instrumentalities, or instrumentalities described herein; on the contrary, the disclosure is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (11)

1. A water tray assembly, wherein the water tray assembly comprises:

the water receiving tray is characterized in that a drainage groove and water leakage holes distributed on two sides of the drainage groove are formed in the tray bottom of the water receiving tray, and a water inlet is formed in the bottom of the drainage groove;

and the water retaining cover is covered above the water inlet of the drainage groove, and the top view projection of the edge of the water retaining cover falls in the drainage groove.

2. The drip tray assembly of claim 1, wherein the drainage channel comprises:

the first outer wall and the second outer wall are oppositely arranged;

the first inner wall and the second inner wall are oppositely arranged;

a first trough bottom connected between the first outer wall and the first inner wall;

a second groove bottom connected between the second outer wall and the second inner wall;

a first sub-drainage groove with an upward opening is formed by the first outer wall, the first inner wall and the first groove bottom in a surrounding manner;

a second sub-drainage groove with an upward opening is formed by the second outer wall, the second inner wall and the bottom of the second groove;

the first inner wall and the second inner wall are oppositely arranged and form a water inlet gap, and the water inlet gap forms the water inlet;

the first inner wall is formed by inclining the first groove bottom to the water inlet and matching with the first groove bottom to form a first drainage wall;

the second inner wall is formed by inclining the second groove bottom to the water inlet and matching with the second groove bottom to form a second drainage wall;

the water retaining cover stretches over the water inlet;

the top view projection of the edge of one side of the water retaining cover falls in the first sub-drainage groove, and the top view projection of the edge of the other side of the water retaining cover falls in the second sub-drainage groove.

3. The drip tray assembly of claim 2,

the water retaining cover is in an inverted V shape;

the lower wall surface of the first inner wall forms a first drainage surface and the lower wall surface of the second inner wall forms a second drainage surface, and the first drainage surface and the second drainage surface are oppositely arranged to form an inverted V-shaped flow guide channel communicated with the water inlet.

4. The water collector assembly of claim 3 wherein said water shield comprises:

the first baffle wall is arranged opposite to the wall body of the first drainage wall, and the lower wall surface of the first baffle wall forms a first drainage surface so as to guide the condensed water entering from the water inlet to the first groove bottom of the drainage groove;

and the second retaining wall is opposite to the wall body of the second drainage wall, and a second drainage surface is formed on the lower wall surface of the second retaining wall so as to guide the condensed water entering from the water inlet to the second groove bottom of the drainage groove.

5. The drip tray assembly of claim 4, wherein a lower end of said first baffle wall extends toward said first trough bottom; the lower end of the second blocking wall extends towards the bottom of the second groove; the upper end of the first blocking wall and the upper end of the second blocking wall are connected together to form a shape with a narrow upper part and a wide lower part.

6. A mobile air conditioner, characterized in that the mobile air conditioner comprises: a drip tray assembly according to any of claims 1 to 5.

7. The mobile air conditioner of claim 6, further comprising:

a housing;

the double-row condenser is arranged in the shell and comprises an inner side condenser and an outer side condenser, the inner side condenser and the outer side condenser are arranged in the vertical direction and are parallel to each other, and the double-row condenser is arranged in a bending mode around two adjacent side walls of the shell;

an evaporator located above the dual-row condenser;

the middle partition wall is arranged between the double-row condenser and the evaporator; the water pan is arranged on the middle partition wall, and the drainage groove of the water pan is positioned above the condenser gap formed between the inner side condenser and the outer side condenser.

8. The mobile air conditioner of claim 7, further comprising:

the chassis water receiving tray is arranged at the bottom of the double-row condenser and is used for collecting condensed water generated by the double-row condenser;

the subassembly of fetching water, the subassembly of fetching water includes: the water beating fan blade is arranged above the chassis water pan and positioned between the inner condenser and the outer condenser and is used for beating condensed water in the chassis water pan to a water inlet of the water pan and the double-row condenser; and the water beating motor is used for providing driving force for the water beating fan blades.

9. The mobile air conditioner as claimed in claim 8, wherein the water leakage hole at one side of the drainage groove is correspondingly positioned above the inner side condenser, and the water leakage hole at the other side is correspondingly positioned above the outer side condenser.

10. The mobile air conditioner of claim 8, wherein the extension direction of the drainage groove is identical to that of the water blocking cover, and both extend along the bending direction of the double-row condenser.

11. The mobile air conditioner of claim 8, wherein the lower side of the first drainage wall of the drainage groove extends above the outside condenser and the second drainage wall of the drainage groove extends above the inside condenser.

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