CN210141686U - Water collector and air conditioner - Google Patents

Abstract

The utility model provides a water collector and air conditioner relates to air conditioner technical field. The water pan comprises a first bearing part and a second bearing part which are connected with each other, wherein the first bearing part and the second bearing part enclose into a ring shape together and form an opening. The first bearing part is used for installing the heat exchanger, and a first bearing groove is formed in the first bearing part. The second bearing part is used for being arranged below the air outlet assembly, and a second bearing groove is formed in the second bearing part. An air conditioner adopts above-mentioned water collector. The utility model provides a problem that water collector and air conditioner can improve air conditioner weeping.

Description

Water collector and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a water collector and air conditioner.

Background

With the development of science and technology, the air conditioning technology is gradually improved and perfected. However, at the present time when air conditioning technology is mature, some problems still exist in the air conditioner.

In the prior art, the phenomenon of liquid leakage still occurs in the vertical air conditioner, which brings great inconvenience to users. The leakage generated by the air conditioner not only affects the environment using the air conditioner, so that the indoor ground is wet and uncomfortable for users; meanwhile, the air conditioner can be influenced, dirt can be accumulated on the inner side of the air conditioner due to long-term liquid leakage, the air conditioner is difficult to clean and maintain, and the use of the air conditioner is influenced. After the receiving volume of the water receiving tray is increased, the phenomenon of liquid leakage of the air conditioner still occurs.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem how to improve the problem of air conditioner weeping.

In order to solve the problem, the utility model provides a water collector, water collector includes interconnect's first accepting portion and second accepting portion, first accepting portion with second accepting portion encloses into the annular jointly and forms the opening.

The first bearing part is used for installing the heat exchanger, and a first bearing groove is formed in the first bearing part.

The second bearing part is used for being arranged below the air outlet assembly, and a second bearing groove is formed in the second bearing part.

The utility model provides a water collector can accept the comdenstion water that produces on the heat exchanger through the first groove of accepting of seting up in the first portion of accepting to accept the groove through the second of accepting seting up in the second portion of accepting and accept the comdenstion water that produces on the air-out subassembly, and then can accept the comdenstion water that produces on heat exchanger and the air-out subassembly simultaneously, just can improve the comdenstion water that produces on heat exchanger and the air-out subassembly and can not accept and leak through the water collector problem, realized improving the problem of air conditioner weeping. And the first bearing part and the second bearing part enclose into a ring together, so that the smooth flow of the air flow in the air conditioner can be realized through the opening in the middle of the water pan.

Optionally, the first receiving groove and the second receiving groove are both arc-shaped.

The first groove and the second of accepting through the annular setting accept the setting of groove, can adapt to the shape of heat exchanger and air-out subassembly, and then can make first groove and the second of accepting accept the groove and accept the comdenstion water that heat exchanger and air-out subassembly produced fully and accept, and then improve the problem of air conditioner weeping.

Optionally, the first receiving groove and the second receiving groove are communicated.

The one end of the first bearing groove is communicated with the one end of the second bearing groove, so that condensed water borne by the first bearing groove and condensed water borne by the second bearing groove can be collected together, and the condensed water in the first bearing groove and the condensed water in the second bearing groove can be discharged together.

Optionally, two ends of the first receiving groove are respectively communicated with two ends of the second receiving groove, and form a ring shape.

One end of the first bearing groove is communicated with two ends of the second bearing groove respectively, so that the first bearing groove and the second bearing groove can form a ring together. The condensed water collected in the first receiving groove and the condensed water collected in the second receiving groove can be collected in a designated area, and the condensed water collected by the first receiving groove and the second receiving groove can be discharged conveniently.

Optionally, the first bolster and the second bolster are detachably connected.

Through setting up first receiving portion and second receiving portion to the connection of dismantling, can be convenient for first receiving portion and second receiving portion's installation and dismantlement, and then can be convenient for first receiving portion and second receiving portion's maintenance and washing.

Optionally, the bottom wall of the second receiving groove is higher than the bottom wall of the first receiving groove.

Through setting up the second and accepting the diapire that the bottom wall of groove is higher than first bottom wall of accepting the groove, can make the second accept the groove and can be after accepting the comdenstion water that the air-out subassembly produced in can be with comdenstion water conservancy diversion to first accepting the groove, and then be convenient for first accepting the groove and collect the comdenstion water together and discharge.

Optionally, the first receiving portion is higher than the second receiving portion, or the second receiving portion is higher than the first receiving portion.

The height of the first receiving portion and the height of the second receiving portion can be set according to the actual installation conditions of the heat exchanger and the air outlet structure, so that the first receiving portion can be adapted to the heat exchanger, the second receiving portion is adapted to the air outlet assembly, the first receiving portion can be guaranteed to stably carry out condensate water receiving on the heat exchanger, and meanwhile the second receiving portion can be guaranteed to stably carry out condensate water receiving on the air outlet assembly.

Optionally, the first receiving portion and the second receiving portion are both arc-shaped.

Through setting up first accepting portion into the annular, can adapt to in the shape of heat exchanger, and then can adapt to the installation in heat exchanger, can save a large amount of water collector cost of manufacture simultaneously.

Optionally, a water outlet is further formed in the first receiving portion and/or the second receiving portion, and the water outlet is communicated with the first receiving groove and/or the second receiving groove.

The drainage outlet communicated with the first receiving groove is formed in the first receiving portion, the drainage outlet is formed in the second receiving portion, or the drainage outlets are formed in the first receiving portion and the second receiving portion, so that condensed water in the first receiving groove and/or the second receiving groove can be guided out through the drainage outlet, and the condensed water can be drained conveniently.

Optionally, the bottom of the water pan is further provided with a connecting portion, and the connecting portion is used for connecting the back panel.

Through the connection of connecting portion and back boarding, the stable installation of water collector of being convenient for.

The utility model provides an air conditioner, includes heat exchanger, air-out subassembly and water collector, the water collector includes interconnect's first receiving portion and second receiving portion, first receiving portion is used for the installation of heat exchanger, and first receiving groove has been seted up on the first receiving portion. The second bearing part is used for being arranged below the air outlet assembly, and a second bearing groove is formed in the second bearing part. The heat exchanger is arranged on the first bearing part, and the air outlet assembly is arranged on the second bearing part.

The utility model provides an air conditioner is the same for prior art's beneficial effect with above-mentioned water collector for prior art's beneficial effect, no longer gives unnecessary details here.

Drawings

Fig. 1 is a schematic diagram of an explosion structure of a part of an air conditioner provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of a first viewing angle of the water pan according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a second viewing angle of the water pan according to an embodiment of the present invention;

fig. 4 is an exploded schematic view of a water pan according to another embodiment of the present invention;

fig. 5 is a schematic structural view of a water pan according to another embodiment of the present invention.

Description of reference numerals:

1-an air conditioner; 10-a water pan; 11-a heat exchanger; 12-an air outlet component; 13-lower air outlet fan; 100-a first bay; 110-a first receiving trough; 120-a drain outlet; 200-a second bay; 210-a second receiving groove; 300-opening; 400-connecting part.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, the present embodiment provides an air conditioner 1, in which the air conditioner 1 can improve the leakage problem, so as to ensure the user's experience, and also can improve the problem that stains are accumulated and difficult to clean and maintain due to the leakage of the air conditioner 1 for a long time.

The air conditioner 1 includes a water pan 10, a heat exchanger 11, an air outlet assembly 12, and a lower air outlet fan 13. The heat exchanger 11 is used for heating or cooling the airflow passing through the heat exchanger 11. The air outlet assembly 12 is used for guiding the airflow to flow through the heat exchanger 11. And the water pan 10 is mounted on the back panel and positioned above the lower air outlet fan 13. It should be noted that the upper and lower directions are the upper and lower directions when the air conditioner 1 is normally placed and normally operated. The water pan 10 is used for receiving condensed water generated on the heat exchanger 11 and condensed water generated on the air outlet assembly 12. In the prior art, because the amount of condensed water generated on the heat exchanger 11 is large, the water receiving tray 10 is mostly used for receiving the condensed water generated on the heat exchanger 11, and when the problem that the condensed water leaks out still occurs in the air conditioner 1, it is generally considered that the condensed water generated on the heat exchanger 11 is not sufficiently collected, and at this time, the water receiving tray 10 below the heat exchanger 11 is improved, but the problem of liquid leakage of the air conditioner 1 still cannot be further improved. The water pan 10 provided in this embodiment can receive the condensed water generated on the air outlet assembly 12 when receiving the heat exchanger 11, so as to prevent the condensed water generated on the air outlet assembly 12 from leaking, and thus the purpose of improving the leakage problem of the air conditioner 1 can be achieved.

It should be noted that, in the present embodiment, the air outlet assembly 12 includes a casing (not shown) and a plurality of fans (not shown), when the fans are operated, air can be exhausted from above the air conditioner, and at the same time, condensed water is formed on the inner peripheral wall of the casing. In addition, the lower air outlet fan 13 is disposed below the water receiving tray 10, and when the lower air outlet fan 13 operates, air can be exhausted from the lower side of the air conditioner 1. That is, the air outlet mode adopted by the air conditioner 1 provided in this embodiment is an up-down air outlet mode.

Referring to fig. 2 and 3, the water tray 10 includes a first receiving portion 100 and a second receiving portion 200, and the first receiving portion 100 and the second receiving portion 200 are connected to each other. The first receiving portion 100 is used for mounting the heat exchanger 11. When the air conditioner 1 is normally used, the heat exchanger 11 is mounted to the first receiving portion 100, and the first receiving portion 100 is located below the heat exchanger 11. In addition, the second receiving portion 200 is disposed below the air outlet assembly 12, that is, when the air conditioner 1 is in normal use, the second receiving portion 200 is located below the air outlet assembly 12. Further, in the present embodiment, the first receiving groove 110 is opened on the first receiving portion 100, and the first receiving groove 110 is located below the heat exchanger 11, so that the condensed water generated on the heat exchanger 11 can be received through the first receiving groove 110. Similarly, the second receiving groove 210 is disposed on the second receiving portion 200, and the second receiving groove 210 is located below the air outlet assembly 12, so that the second receiving groove 210 can receive the condensed water generated on the air outlet assembly 12. And the purposes of collecting the condensed water generated on the heat exchanger 11 and the condensed water generated on the air outlet assembly 12 can be realized, and the purpose of improving the leakage problem of the air conditioner 1 is further realized.

In the present embodiment, the first receiving portion 100 and the second receiving portion 200 are integrally formed. In addition, referring to fig. 4, in another embodiment, the first receiving portion 100 and the second receiving portion 200 are detachably connected to each other, that is, the first receiving portion 100 and the second receiving portion 200 are detachably connected to each other, so that the first receiving portion 100 and the second receiving portion 200 can be conveniently mounted and dismounted, and the first receiving portion 100 and the second receiving portion 200 can be conveniently maintained and cleaned. The detachable connection between the first receiving portion 100 and the second receiving portion 200 may be a slot connection, a snap connection, or a screw connection.

In addition, when the first receiving part 100 and the second receiving part 200 are detachably connected, and the first receiving part 100 and the second receiving part 200 are connected, the first receiving part 110 and the second receiving groove 210 may be in a communicated state, so that condensed water in the first receiving groove 110 and the second receiving groove 210 can be collected. It should be understood that the first receiving groove 110 and the second receiving groove 210 may be disconnected, that is, the first receiving groove 110 on the first receiving portion 100 and the second receiving groove 210 on the second receiving portion 200 can both operate independently, that is, when the second receiving portion 200 is detached, the condensate water of the heat exchanger 11 can be received through the first receiving groove 110; similarly, when the first receiving portion 100 is removed, the second receiving groove 210 can receive the condensed water on the outlet assembly 12.

Further, in the present embodiment, the first receiving portion 100 and the second receiving portion 200 are both arc-shaped, and the first receiving portion 100 and the second receiving portion 200 together form a ring shape. Namely, the first bearing part 100 arranged in an annular shape can be adapted to the heat exchanger 11, so that the heat exchanger 11 can be conveniently installed, and meanwhile, the manufacturing cost of the water pan 10 can be saved; similarly, the second receiving portion 200 is disposed in the air outlet assembly 12 in an annular manner, that is, in this embodiment, the sidewall of the air outlet assembly 12 that generates the condensed water is arc-shaped, so that the condensed water generated on the air outlet assembly 12 can be received conveniently, and the manufacturing cost of the water receiving tray 10 is saved. In addition, the first receiving portion 100 and the second receiving portion 200 form a ring together, so that an opening 300 can be formed in the middle of the water pan 10, and the opening 300 can be adapted to the air flow circulation inside the air conditioner 1, thereby facilitating the smooth air flow circulation inside the air conditioner 1. That is, the air inlet and the opening 300 of the lower air outlet fan 13 disposed below the water receiving tray 10 are communicated, so that the lower air outlet fan 13 can perform air inlet from the opening 300, that is, the water receiving tray 10 is annularly disposed, so that air inlet of the lower air outlet fan 13 can be ensured, and meanwhile, the air flow inside the air conditioner 1 can be smooth.

Further, in this embodiment, still be provided with connecting portion 400 on the water collector 10, connecting portion 400 sets up in the below of water collector 10, and then can pass through the connection of connecting portion 400 and back panel, and then make water collector 10 can install steadily, and then can guarantee that water collector 10 can carry out the collection of comdenstion water to heat exchanger 11 and air-out subassembly 12 steadily. It should be noted that, in other embodiments, the connection portion 400 may be eliminated, that is, the water tray 10 may be stably mounted in other manners, for example, by a screw connection manner or a snap connection manner.

In the embodiment, the first receiving groove 110 and the second receiving groove 210 are also arc-shaped, and can be adapted to the heat exchanger 11 through the first receiving groove 110, and can be adapted to the air outlet assembly 12 through the second receiving groove 210, corresponding to the first receiving portion 100 and the second receiving portion 200. Specifically, the projection of the heat exchanger 11 on the water pan 10 is located in the first receiving groove 110, and the arc formed by the inner peripheral wall of the air outlet assembly 12 is matched with the second receiving groove 210. Therefore, the condensed water generated on the heat exchanger 11 can flow into the first receiving groove 110, and the condensed water generated on the inner peripheral wall of the outlet assembly 12 can flow into the second receiving groove 210. The purpose of improving the leakage problem of the air conditioner 1 can be achieved by receiving the condensed water generated on the heat exchanger 11 through the first receiving groove 110 and receiving the condensed water generated on the air outlet assembly 12 through the second receiving groove 210.

Further, in the embodiment, the first receiving groove 110 and the second receiving groove 210 are communicated with each other, so that the condensed water received by the first receiving groove 110 and the condensed water received by the second receiving groove 210 can be collected together, so as to discharge the condensed water together.

Specifically, in the embodiment, one end of the first receiving groove 110 is communicated with the end of the second receiving groove 210, so that the condensed water received by the first receiving groove 110 and the condensed water received by the second receiving portion 200 can be collected together, so as to be convenient for collecting and discharging the condensed water. That is, in the embodiment, the first receiving trough 110 and the second receiving trough 210 also enclose a ring, and one end of the first receiving trough 110 is communicated with two ends of the second receiving trough 210, that is, two ends of the first receiving trough 110 are respectively communicated with two ends of the second receiving trough 210, so that condensed water received by the second receiving trough 210 can flow into the first receiving trough 110 from two ends of the second receiving trough 210, and further, the condensed water can be collected. It should be understood that in other embodiments, the condensed water in the first receiving tank 110 can flow into the second receiving tank 210 from both ends of the first receiving tank 110. In addition, in the present embodiment, the width of the first receiving groove 110 is greater than that of the second receiving groove 210 so as to receive more condensed water generated on the heat exchanger 11, and the end portion of the second receiving groove 210 and the first receiving groove 110 sharing the same side wall is located inside the first receiving groove 110 so as to save the space occupied by the water tray 10.

In addition, in the embodiment, the bottom wall of the second receiving groove 210 is higher than the bottom wall of the first receiving groove 110, so that after the second receiving groove 210 receives the condensed water generated on the outlet assembly 12, the second receiving groove 210 can guide the received condensed water to the first receiving groove 110, so that the condensed water in the first receiving groove 110 and the second receiving groove 210 can be conveniently collected together, and the condensed water can be conveniently collected and discharged. In the present embodiment, the top of the first receiving portion 100 is equal to the top of the second receiving portion 200. Note that, the first receiving portion 100 and the second receiving portion 200 are equal in height, and when the air conditioner is in the normal mode, the upper highest surface of the first receiving portion 100 is equal in height to the upper highest surface of the second receiving portion 200.

In another embodiment, please refer to fig. 5, the first bay 100 is higher than the second bay 200, or the second bay 200 is higher than the first bay 100. The first receiving portion 100 is higher than the second receiving portion 200, that is, the top end of the first receiving portion 100 is higher than the top end of the second receiving portion 200 when the water pan 10 is normally installed and placed, and similarly, the second receiving portion 200 is higher than the first receiving portion 100, that is, the top end of the second receiving portion 200 is higher than the top end of the first receiving portion 100 when the water pan 10 is normally installed and placed. That is, the heights of the first receiving portion 100 and the second receiving portion 200 can be designed according to the actual installation conditions of the water pan 10, the heat exchanger 11 and the air outlet assembly 12, so that the first receiving portion 100 can be adapted to the heat exchanger 11, the second receiving portion 200 can be adapted to the air outlet assembly 12, the first receiving portion 100 can stably receive the condensed water of the heat exchanger 11, and meanwhile, the second receiving portion 200 can stably receive the condensed water of the air outlet assembly 12. It should be understood that in other embodiments, the first bay 100 and the second bay 200 may be equally high.

Specifically, in the present embodiment, the end portion of the second receiving groove 210 communicating with the first receiving groove 110 is stepped, that is, the plane of the bottom wall of the second receiving groove 210 and the plane of the bottom wall of the first receiving groove 110 are connected by another plane and are stepped, it should be understood that in other embodiments, the second receiving groove 210 and the first receiving groove 110 may also be connected by an inclined plane, that is, the condensate in the second receiving groove 210 can be guided to the inside of the first receiving groove 110 along the inclined plane.

In this embodiment, the first receiving portion 100 is further provided with a water outlet 120, and the water outlet 120 is communicated with the first receiving groove 110, so that the condensed water received in the first receiving groove 110 can be discharged through the water outlet 120. It should be understood that in other embodiments, the drain opening 120 may be disposed on the second receiving portion 200, and the drain opening 120 and the second receiving groove 210 are communicated, so that the collected and drained condensed water can be realized. In addition, when the first receiving portion 100 and the second receiving portion 200 are detachably connected and the first receiving groove 110 and the second receiving groove 210 are disconnected, the drainage openings 120 are formed in both the first receiving portion 100 and the second receiving portion 200, so that the condensed water in the first receiving groove 110 and the second receiving groove 210 can be drained through the corresponding drainage openings 120. Of course, when the first receiving tank 110 and the second receiving tank 210 communicate with each other, the drain port 120 may be opened in each of the first receiving tank 110 and the second receiving tank 210.

That is, in the present embodiment, the condensed water generated in the heat exchanger 11 is received by the first receiving groove 110 provided in the first receiving portion 100, and the condensed water generated in the outlet assembly 12 is received by the second receiving groove 210 provided in the second receiving portion 200. Then, the condensed water in the second receiving tank 210 can flow into the first receiving tank 110, so as to collect the condensed water. The condensed water collected in the first receiving tank 110 can be discharged through the drain port 120, and the collection and discharge of the condensed water of the air conditioner 1 can be completed. The problem of leakage of the condensed water of the air conditioner 1 is solved.

In summary, in the air conditioner 1 provided in this embodiment, the first receiving groove 110 formed in the first receiving portion 100 can receive the condensed water generated on the heat exchanger 11, and the second receiving groove 210 formed in the second receiving portion 200 can receive the condensed water generated on the air outlet assembly 12, so as to receive the condensed water generated on the heat exchanger 11 and the air outlet assembly 12 at the same time, and thus the problem that the condensed water generated on the heat exchanger 11 and the air outlet assembly 12 cannot be received by the water receiving tray 10 and leaks can be solved, and the problem of liquid leakage of the air conditioner 1 can be solved.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (11)

1. A water pan is characterized in that the water pan (10) comprises a first bearing part (100) and a second bearing part (200) which are connected with each other, the first bearing part (100) and the second bearing part (200) jointly enclose into a ring shape and form an opening (300);

the first bearing part (100) is used for installing the heat exchanger (11), and a first bearing groove (110) is formed in the first bearing part (100);

the second bearing part (200) is arranged below the air outlet assembly (12), and a second bearing groove (210) is formed in the second bearing part (200).

2. A drip tray according to claim 1, wherein the first receiving trough (110) and the second receiving trough (210) are both arcuate.

3. A drip tray according to claim 1, wherein the first receptacle (110) and the second receptacle (210) are in communication.

4. A drip tray according to claim 3, wherein the first receiving groove (110) is connected to the second receiving groove (210) at both ends thereof, and forms a ring shape.

5. A drip tray according to claim 1, wherein the first receptacle (100) and the second receptacle (200) are detachably connected.

6. A drip tray according to claim 1, wherein the bottom wall of the second receptacle (210) is higher than the bottom wall of the first receptacle (110).

7. A drip tray according to claim 1, wherein the first receptor (100) is higher than the second receptor (200), or wherein the second receptor (200) is higher than the first receptor (100).

8. A drip tray according to claim 1, wherein the first and second receptacles (100, 200) are each arcuate.

9. The drip tray according to any one of claims 1 to 8, wherein a drain opening (120) is further formed on the first receiving portion (100) and/or the second receiving portion (200), and the drain opening (120) is communicated with the first receiving groove (110) and/or the second receiving groove (210).

10. A water collector as claimed in any one of claims 1 to 8, wherein the bottom of the water collector (10) is further provided with a connecting part (400), and the connecting part (400) is used for connecting a back panel.

11. An air conditioner, characterized by comprising a heat exchanger (11), an air outlet assembly (12) and the water pan (10) as claimed in any one of claims 1 to 9, wherein the heat exchanger (11) is mounted on the first receiving part (100), and the air outlet assembly (12) is arranged above the second receiving part (200).

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