CN216886178U

CN216886178U - Refrigeration component assembly of parking air conditioner

Info

Publication number: CN216886178U
Application number: CN202122992819.9U
Authority: CN
Inventors: 云利侠; 薛莉涛; 翟晓燕
Original assignee: Bergstrom Changzhou Air Conditioning System Co ltd
Current assignee: Bergstrom Changzhou Air Conditioning System Co ltd
Priority date: 2021-11-29
Filing date: 2021-11-29
Publication date: 2022-07-05
Anticipated expiration: 2031-11-29

Abstract

The utility model provides a refrigeration part assembly of parking air conditioner belongs to air conditioner spare part technical field. The box-shaped body bottom surface of box-shaped body in the water-collecting tray structure is set to include the first region and the second region that contact, and the first region has the water-collecting tank, and the lateral wall of water-collecting tray structure has the wash port that communicates with the water-collecting tank. The rivers that the evaporimeter condensation goes out flow into the lower water catch bowl of position more easily, effectively avoid fan wheel to receive the influence of comdenstion water, when reducing fan wheel and the required space of evaporimeter installation, guarantee evaporimeter and fan wheel's stable use. In addition, the box-shaped main body further comprises water guide rib plates distributed in the water collecting tank, the length direction of the water guide rib plates is parallel to the axial direction of the drain holes, a flow guide effect can be achieved on water flow, condensed water is enabled to enter the drain holes to be discharged, the occurrence of the situation that the condensed water is blown into a carriage due to overflow of the box-shaped main body is reduced, and the use safety of the parking air conditioner is improved.

Description

Refrigeration component assembly of parking air conditioner

Technical Field

The disclosure relates to the technical field of air conditioner parts, in particular to a refrigeration part assembly of a parking air conditioner.

Background

The parking air conditioner, which is one of the common interior devices of the automobile, may play a role in regulating the interior temperature of the automobile. The refrigeration part in the parking air conditioner at least comprises an evaporator, a fan impeller and a water collecting tray, the evaporator is used for refrigerating, the fan impeller in the parking air conditioner is used for blowing cold air in the evaporator into a compartment, and condensed water condensed by the evaporator flows into the water collecting tray and then flows out of the parking air conditioner or enters a condensed water circulating system through a pipeline.

In the related art, an evaporator, a fan impeller and a water collecting tray in the parking air conditioner are usually installed separately, and the evaporator and the fan impeller each correspond to one water collecting tray, so that more structures are required and the parking air conditioner occupies a larger volume; on the other hand, the water collecting tray has the risk that condensed water is blown into a carriage due to overflow, and finally the parking air conditioner is large in size and low in safety.

SUMMERY OF THE UTILITY MODEL

The embodiment of the disclosure provides a refrigeration component assembly of a parking air conditioner, which can reduce the volume occupied by the refrigeration component assembly of the parking air conditioner and improve the use safety of the refrigeration component assembly. The technical scheme is as follows:

the embodiment of the disclosure provides a refrigeration component assembly of a parking air conditioner, which comprises a water collecting tray structure, an evaporator and a fan impeller,

the water collecting tray structure comprises a box-shaped main body and at least two water guiding rib plates which are parallel to each other, the bottom surface of the box-shaped main body comprises a first area and a second area which are in contact with each other, the first area is provided with a water collecting tank, the side wall of the water collecting tray structure is provided with a drain hole communicated with the water collecting tank, the water guiding rib plates are uniformly distributed in the water collecting tank, the length direction of the water guiding rib plates is parallel to the axial direction of the drain hole,

the evaporator is connected with the side wall of the water collecting tray structure and is distributed at intervals with the water collecting tank, the orthographic projection of the evaporator on the bottom surface of the box-shaped main body is positioned in the first area,

the fan impeller is connected to a side wall of the box-like body that contacts the second region.

Optionally, the water collecting groove is a rectangular water collecting groove, and two ends of the water collecting groove respectively extend to the drainage holes on the two side walls of the box-shaped body.

Optionally, the length of the water guiding rib plate is smaller than that of the water collecting tank, the box-shaped main body is further provided with guide grooves, the guide grooves are distributed at two ends of at least one water guiding rib plate, and the at least one guide groove is communicated with the drain hole.

Optionally, the box-like body bottom surface further includes a third region located between the first region and the second region, the third region having a transition groove, a distance between a bottom surface of the transition groove and the second region being smaller than a distance between a bottom surface of the water collection groove and the second region in a direction perpendicular to the box-like body bottom surface.

Optionally, the box-like body further comprises a water blocking rib plate, the water blocking rib plate is located in the second region and located between the third region and the water blocking rib plate,

in the direction perpendicular to the bottom surface of the box-shaped main body, the maximum height of the water retaining rib plate is higher than the height of the bottom surface of the transition groove, the water retaining rib plate is positioned in the water collecting groove, and a first U-shaped groove is formed in one side surface, far away from the bottom surface of the water collecting groove, of the water retaining rib plate.

Optionally, the first region, the second region and the third region are rectangular regions connected side by side.

Optionally, the side wall of the box-like body is divided into a first side wall portion, a second side wall portion and a third side wall portion which are respectively in contact with the first region, the second region and the third region, the first side wall portion includes a baffle perpendicular to the first region and connected to three sides of the first region, and two drainage connecting plates, a plate surface of each drainage connecting plate is provided with one drainage hole, the evaporator is connected to the two drainage connecting plates, an end portion of the baffle is provided with a second U-shaped groove, and a height of the baffle is greater than a height of the water blocking rib plate.

Optionally, in a direction parallel to the drainage hole, the length of the first region is greater than the length of the second region, and the length of the third region is greater than the length of the second region and less than the length of the first region.

Optionally, the box-like body further comprises a drain pipe located externally of the box-like body and coaxially connected to the drain hole.

The beneficial effects brought by the technical scheme provided by the embodiment of the disclosure include:

the evaporator and the fan impeller in the refrigeration component assembly are both arranged in the box-shaped main body of the water collecting tray structure, so that the volume occupied by the refrigeration component assembly of the parking air conditioner can be reduced. The box-shaped body bottom surface of the box-shaped body in the water collecting tray structure is set to comprise a first area and a second area which are contacted, the first area is provided with a water collecting groove, and the side wall of the water collecting tray structure is provided with a water discharging hole communicated with the water collecting groove. The evaporator is connected in the side wall corresponding to the first area in the box-shaped main body, and water condensed by the evaporator flows into the water collecting groove at a lower position more easily and flows out from the water discharging hole. Fan wheel connects the lateral wall that the higher second region in box-like main part position corresponds, can effectively avoid fan wheel to receive the influence of comdenstion water, near fan wheel if there is the comdenstion water, these comdenstion water also can flow into the water catch bowl of low relief more easily, when reducing fan wheel and the required space of evaporimeter installation, guarantees evaporimeter and fan wheel's stable use. In addition, the box-shaped main body further comprises water guide rib plates distributed in the water collecting tank, the length direction of the water guide rib plates is parallel to the axial direction of the drain holes, a flow guide effect can be achieved on water flow, condensed water is enabled to enter the drain holes to be discharged, the occurrence of the situation that the condensed water is blown into a carriage due to overflow of the box-shaped main body is reduced, and the use safety of the parking air conditioner is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a refrigeration component assembly of a parking air conditioner provided by an embodiment of the disclosure;

FIG. 2 is a schematic structural view of a water collection tray assembly provided by an embodiment of the present disclosure;

fig. 3 is a top view of a water collection tray assembly provided by embodiments of the present disclosure.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, embodiments of the present disclosure will be described in detail with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a refrigeration component assembly of a parking air conditioner provided in an embodiment of the present disclosure, and as can be seen from fig. 1, the embodiment of the present disclosure provides a refrigeration component assembly of a parking air conditioner, which includes a water collecting tray structure 1, an evaporator 2 and a fan impeller 3.

Fig. 2 is a schematic structural diagram of a water collecting tray assembly provided by an embodiment of the present disclosure, referring to fig. 1 and 2, the water collecting tray structure 1 includes a box-shaped body 11 and at least two water guiding rib plates 12 parallel to each other, a bottom surface 111 of the box-shaped body 11 includes a first region 1111 and a second region 1112 in contact, the first region 1111 has a water collecting tank 1111a, a side wall of the water collecting tray structure 1 has a water drainage hole 13 communicating with the water collecting tank 1111a, the water guiding rib plates 12 are uniformly distributed in the water collecting tank 1111a, and a length direction of the water guiding rib plates 12 is parallel to an axial direction of the water drainage hole 13.

The evaporator 2 is connected with the side wall of the water collecting tray structure 1 and the evaporator 2 is distributed at intervals with the water collecting sump 1111a, and the orthographic projection of the evaporator 2 on the bottom surface 111 of the box-shaped body is positioned in the first region 1111. The fan wheel 3 is attached to the side wall of the box-like body 11 which is in contact with the second region 1112.

The evaporator 2 and the fan impeller 3 in the refrigeration component assembly are both arranged in the box-shaped main body 11 of the water collecting tray structure 1, so that the volume occupied by the refrigeration component assembly of the parking air conditioner can be reduced. The box-like body bottom surface 111 of the box-like body 11 in the water collection tray structure 1 is provided to include a first region 1111 and a second region 1112 which are in contact, the first region 1111 having a water collection groove 1111a, and a side wall of the water collection tray structure 1 having a water discharge hole 13 communicating with the water collection groove 1111 a. The evaporator 2 is attached to the side wall of the box-like body 11 corresponding to the first region 1111, and the water condensed by the evaporator 2 flows more easily into the lower water collecting sump 1111a and flows out through the water discharge hole 13. Fan wheel 3 connects the lateral wall that corresponds at the higher second region 1112 in box-like main part 11 position, can effectively avoid fan wheel 3 to receive the influence of comdenstion water, if there is the comdenstion water near fan wheel 3, these comdenstion water also can flow into the water catch bowl 1111a of low relief more easily, when reducing fan wheel 3 and the required space of evaporimeter 2 installation, guarantee evaporimeter 2 and fan wheel 3's stable use. In addition, the box-shaped body 11 further comprises water guide rib plates 12 distributed in the water collecting tank 1111a, the length direction of the water guide rib plates 12 is parallel to the axial direction of the water drainage holes 13, so that a water flow guiding effect can be achieved, condensed water is enabled to enter the water drainage holes 13 to be drained, the occurrence of the situation that the condensed water is blown into a carriage due to the fact that the box-shaped body 11 overflows is reduced, and the use safety of the parking air conditioner is improved. And the at least two water guiding rib plates 12 can also reduce the possibility of air leakage between the water guiding rib plates 12 and the evaporator 2 when air flows through the evaporator 2.

It should be noted that the bottom surface of the water collection sump 1111a is parallel to the bottom surface 111 of the box-like body. The stable flow of the water flow is ensured.

Alternatively, the water collection groove 1111a is a rectangular water collection groove 1111a, and both ends of the water collection groove 1111a extend to the water discharge holes 13 provided in both side walls of the box-like body 11, respectively.

Rectangular water catch bowl 1111a is convenient for prepare, and rectangular water catch bowl 1111a has great accommodation space to the comdenstion water, can reduce the comdenstion water possibility of spilling over, improves parking air conditioner's stability in use.

In one implementation provided by the present disclosure, the water collection sump 1111a within the first zone 1111 may be flooded with the first zone 1111. The fan impeller 3 can be convenient to drive air to flow, and the condensed water can be more conveniently concentrated and the possibility of water overflow is reduced. When the first region 1111 is filled with the water collection grooves 1111a in the first region 1111, a broken line opposite to the water collection grooves 1111a in fig. 2 indicates the first region 1111.

Illustratively, the largest area of the water guiding rib plate 12 is perpendicular to the bottom surface 111 of the box-shaped main body.

The plate surface with the largest area of the water guide rib plate is perpendicular to the bottom surface 111 of the box-shaped main body, so that the water guide rib plate 12 can stably guide the water flow of the condensed water.

Alternatively, the number of the water guiding rib plates 12 can be 3. Can ensure the stable guiding and flowing of the water flow.

It should be noted that, in other implementation manners provided by the present disclosure, the number of the water guiding rib plates 12 may also be set to an integer greater than 2, such as 2, 4, 5, or 7, which is not limited by the present disclosure.

Illustratively, the length of the water guiding rib plates 12 is less than that of the water collecting troughs 1111a, the box-shaped body 11 further has diversion troughs 1111b, diversion troughs 1111b are distributed at two ends of at least one water guiding rib plate 12, and at least one diversion trough 1111b is communicated with the water discharging holes 13.

The length of the water guiding rib plate 12 is smaller than that of the water collecting tank 1111a, and two ends in the water collecting tank 1111a are respectively communicated to the diversion tank 1111b of the drain hole 13, so that the accommodating space for the condensed water can be further increased, and the water flow can be conveniently discharged from the drain hole 13.

Optionally, the length of the water guiding webs 12 decreases in the direction from the first zone 1111 to the second zone 1112.

By adopting the arrangement, the water guide rib plates 12 can control the water flow to flow in sequence, and reduce the possibility that the water flow impacts the corresponding side wall of the second area 1112 and overflows.

In an implementation manner provided by the present disclosure, in a direction in which the first region 1111 points to the second region 1112, on the premise that the lengths of the water guiding rib plates 12 are sequentially reduced, the number of the water guiding rib plates 12 is 3, and the two ends of the guide gutter 1111b at the middle of the 3 water guiding rib plates 12 may be provided with the guide gutter 1111 b. It is possible to facilitate the flow of water into the guide groove 1111b and reduce the possibility of the water flow hitting the side wall of the second region 1112 and overflowing.

Note that, the lengths proposed in the present disclosure are the lengths of the guide rib and the water collection groove 1111a in the direction parallel to the axis of the water discharge hole 13.

For example, the side of the water guiding rib plate 12 away from the bottom of the water collecting sump 1111a may be abutted against the evaporator 2. Air leakage can be effectively avoided.

Fig. 3 is a top view of the water collection tray assembly provided by the embodiment of the present disclosure, and referring to fig. 3, the box-like body bottom surface 111 may further include a third region 1113, the third region 1113 is located between the first region 1111 and the second region 1112, the third region 1113 has a transition groove 1113a, and a distance between the bottom surface of the transition groove 1113a and the second region 1112 is smaller than a distance between the bottom surface of the water collection groove 1111a and the second region 1112 in a direction perpendicular to the box-like body bottom surface 111.

Third region 1113 and the increase of crossing aqueduct 1113a can increase the condition that surface fan wheel 3 blows water and take place, guarantee to have certain distance between fan wheel 3 and the evaporimeter 2, and rivers get into first region 1111 and have the influence of gravity to flow downwards, reduce the condition that fan wheel 3 blows into the carriage after blowing into evaporimeter 2 with water and appear, improve parking air conditioner's safety in utilization.

Optionally, the box-like body 11 further comprises a water guiding rib plate 14, and the water guiding rib plate 14 is located in the second area 1112 and between the third area 1113 and the water guiding rib plate 12. The maximum height of the water-stop rib plate 14 is higher than the height of the bottom surface of the transition groove 1113a in the direction perpendicular to the bottom surface 111 of the box-like body.

The water baffle rib plate 14 can further reduce the possibility of water flow entering the evaporator 2 and the possibility of water flow entering the carriage, and improves the use stability of the parking air conditioner.

In addition, the heights referred to in the present disclosure are all heights in a direction perpendicular to the box-like body bottom surface 111, and the height of the position where the box-like body bottom surface 111 is located is zero. In the case that the water collection tank 1111a is full of the second area 1112, the water baffle rib plate 14 is located in the water collection tank 1111 a.

For example, one side of the water blocking rib plate 14 away from the bottom surface of the water collection tank 1111a may have a first U-shaped groove 141. The increase of the first U-shaped groove 141 can prevent the fan impeller 3 from excessively blocking the wind while blocking the water flow.

Alternatively, in a direction parallel to the water drain hole 13, the length of the first region 1111 is greater than that of the second region 1112, and the length of the third region 1113 is greater than that of the second region 1112 and less than that of the first region 1111.

The lengths of the first area, the second area and the third area are within the above range, so that the space occupied by the whole water collecting tray structure 1 can be controlled to be smaller, meanwhile, the evaporator 2 and the fan impeller 3 can be stably installed, and the second area 1112 with the largest length can also contain more condensed water.

In an implementation manner provided by the present disclosure, the transition groove 1113a in the third region 1113 may be fully distributed in the third region 1113, so that the fan impeller 3 may conveniently drive the air to flow, and the concentration of the condensed water may be more convenient and the possibility of water overflow may be reduced. In the case where the transition groove 1113a in the third region 1113 extends over the third region 1113, the broken line opposite to the transition groove 1113a in fig. 2 indicates the original third region 1113.

Illustratively, the first region 1111, the second region 1112 and the third region 1113 are rectangular regions connected side by side. Is convenient for preparation and installation.

Alternatively, the side wall of the box-like body 11 is divided into a first side wall part 15, a second side wall part 16 and a third side wall part 17 which are respectively contacted with the first zone 1111, the second zone 1112 and the third zone 1113, the first side wall part 15 comprises a baffle 152 which is perpendicular to the first zone 1111 and is connected with three edges of the first zone 1111 and two drainage connecting plates 151, the plate surface of each drainage connecting plate 151 is provided with a drainage hole 13, the evaporator 2 is connected with the two drainage connecting plates 151, the end part of the baffle 152 is provided with a second U-shaped groove 1521, and the height of the baffle 152 is larger than that of the water baffle plate 14.

The structure is convenient for the preparation and installation of the water collecting tray structure 1, and is also convenient for the connection and installation between the evaporator 2 and the fan impeller 3, and the whole occupied space is smaller. And the evaporator 2 is connected with the two water drainage connecting plates 151, and the end part of the baffle 152 is provided with a second U-shaped groove 1521, so that the air can be ensured to uniformly blow through the evaporator 2. The height of the baffle 152 is greater than the height of the splash plate 14. The condition that water flows into the carriage can be effectively avoided, and the use safety of the parking air conditioner is improved.

In the first side wall portion 15, one ends of the two drain connecting plates 151 are connected to both ends of the baffle 152, respectively, and the first side wall portion 15 having no gap is integrally formed.

It should be noted that the second sidewall portion 16 may include two mutually parallel first connecting plates 161 connected to two sides of the second region 1112, and the third sidewall portion 17 may include two mutually parallel second connecting plates 171 connected to two sides of the third region 1113. The first connecting plate 161, the second connecting plate 171, the drain connecting plate 151 and the baffle 152 are integrally connected to enclose the side wall of the box-like body 11. The fan wheel 3 may be connected to the first connection plate 161.

In one implementation provided by the present disclosure, the water collection tray structure 1 may be an integrally injection molded water collection tray structure 1. The water collection tray structure 1 is relatively simple and convenient to manufacture.

Optionally, the box-like body 11 also includes a drain pipe 18, the drain pipe 18 being located outside the box-like body 11 and coaxially connected to the drain hole 13. The addition of the drain pipe 18 further reduces the risk of flooding and ensures a steady flow of condensate.

The above description is intended to be exemplary only and not to limit the present disclosure, and any modification, equivalent replacement, or improvement made without departing from the spirit and scope of the present disclosure is to be considered as the same as the present disclosure.

Claims

1. A refrigeration component assembly of a parking air conditioner is characterized by comprising a water collecting tray structure (1), an evaporator (2) and a fan impeller (3),

the water collecting disc structure (1) comprises a box-shaped main body (11) and at least two water guide rib plates (12) which are parallel to each other, the bottom surface (111) of the box-shaped main body (11) comprises a first area (1111) and a second area (1112) which are in contact with each other, the first area (1111) is provided with a water collecting groove (1111a), the side wall of the water collecting disc structure (1) is provided with a water drainage hole (13) communicated with the water collecting groove (1111a), the water guide rib plates (12) are uniformly distributed in the water collecting groove (1111a) and the length direction of the water guide rib plates (12) is parallel to the axial direction of the water drainage hole (13),

the evaporator (2) is connected with the side wall of the water collecting tray structure (1) and the evaporator (2) is distributed at intervals with the water collecting tank (1111a), the orthographic projection of the evaporator (2) on the bottom surface (111) of the box-shaped body is positioned in the first area (1111),

the fan impeller (3) is connected to a side wall of the box-like body (11) which is in contact with the second region (1112).

2. Refrigeration component assembly of parking air conditioner according to claim 1, characterized in that said water collection tank (1111a) is a rectangular water collection tank (1111a), both ends of said water collection tank (1111a) extending to the water drainage holes (13) provided in both side walls of said box-like body (11), respectively.

3. Refrigeration component assembly of parking air conditioner according to claim 2, characterized in that the length of the water guiding rib plate (12) is less than the length of the water collection tank (1111a), the box-like body (11) further has diversion trenches (1111b), the diversion trenches (1111b) are distributed on both ends of at least one water guiding rib plate (12), and at least one diversion trench (1111b) is communicated with the drainage hole (13).

4. Refrigeration component assembly of a parking air conditioner according to any of claims 1-3, characterized in that the length of the water guiding rib (12) decreases in sequence in the direction of the first zone (1111) towards the second zone (1112).

5. A refrigerating component assembly for a parking air conditioner according to any one of claims 1 to 3, wherein said box-like body bottom surface (111) further includes a third region (1113), said third region (1113) being located between said first region (1111) and said second region (1112), said third region (1113) having a transition groove (1113a), a distance between a bottom surface of said transition groove (1113a) and said second region (1112) being smaller than a distance between a bottom surface of said water collection groove (1111a) and said second region (1112) in a direction perpendicular to said box-like body bottom surface (111).

6. Refrigeration component assembly of a parking air conditioner according to claim 5, characterized in that the box-like body (11) further comprises a water baffle rib (14), the water baffle rib (14) being located within the second zone (1112) and between the third zone (1113) and the water baffle rib (12),

in the direction perpendicular to the bottom surface (111) of the box-shaped main body, the maximum height of the water retaining rib plate (14) is higher than that of the bottom surface of the transition groove (1113a), the water retaining rib plate (14) is positioned in the water collecting groove (1111a), and one side surface, away from the bottom surface of the water collecting groove (1111a), of the water retaining rib plate (14) is provided with a first U-shaped groove (141).

7. Refrigeration unit assembly of a parking air conditioner according to claim 6, characterized in that the first zone (1111), the second zone (1112) and the third zone (1113) are rectangular zones connected side by side.

8. Refrigeration unit assembly of a parking air conditioner according to claim 7, characterized in that the side walls of the box-like body (11) are divided into a first side wall portion (15), a second side wall portion (16) and a third side wall portion (17) which are in contact with the first zone (1111), the second zone (1112) and the third zone (1113), respectively, the first side wall part (15) comprises a baffle (152) which is perpendicular to the first region (1111) and is connected with three sides of the first region (1111) and two drainage connecting plates (151), the plate surface of each drainage connecting plate (151) is provided with one drainage hole (13), the evaporator (2) is connected with the two water drainage connecting plates (151), the end part of the baffle (152) is provided with a second U-shaped groove (1521), the height of the baffle (152) is greater than that of the splash plate (14).

9. Refrigeration component assembly of a parking air conditioner according to claim 7, characterized in that the length of the first zone (1111) is greater than the length of the second zone (1112) and the length of the third zone (1113) is greater than the length of the second zone (1112) and less than the length of the first zone (1111) in a direction parallel to the drainage hole (13).

10. Refrigeration unit assembly for a parking air conditioner according to any of claims 1 to 3, characterized in that the box-like body (11) further comprises a drain pipe (18), the drain pipe (18) being located outside the box-like body (11) and coaxially connected to the drain hole (13).