CN110375384B - Machine in air conditioning water collector and air conditioning - Google Patents

Abstract

The invention discloses an air conditioner water pan and an air conditioner indoor unit, which are connected with an evaporator assembly; the air conditioner water pan comprises a water pan body, wherein a water drainage groove used for receiving condensed water discharged by the evaporator assembly is formed in the water pan body, the water drainage groove is communicated with a water outlet and an overflow port, and the overflow port is higher than the water outlet. According to the invention, the overflow port is arranged at a position higher than the water discharge port, when the water discharge port is blocked by particles or impurities, accumulated water in the water receiving tray rises to the position of the overflow port, and the accumulated water can be discharged out of the room through the overflow port, so that condensed water of the evaporator can be discharged, and safety accidents caused by water leakage of the water receiving tray due to blockage of the water discharge port are avoided.

Description

Machine in air conditioning water collector and air conditioning

Technical Field

The invention relates to the field of air conditioners, in particular to an air conditioner water pan and an air conditioner indoor unit.

Background

In the indoor unit of the conventional split wall-hanging type air conditioner, a water pan is arranged below an evaporator, so that condensed water on the evaporator flows into the water pan from top to bottom and is discharged out of a room through a water receiving pipe.

The existing water pan of the indoor unit only has one water outlet, and the indoor unit of the air conditioner can only discharge condensed water to the outside through the only water outlet. In the face of a complex installation environment with more dust and sundries, once the water outlet is blocked by dust product deposition or garbage such as leaves and the like, air conditioner condensate water overflows into a room, so that a user can directly cause serious accidents such as incapability of using an air conditioner and even electric leakage.

Thus, the prior art has yet to be improved and enhanced.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide an air conditioner water pan and an air conditioner indoor unit.

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

the invention provides an air conditioner water pan, which is connected with an evaporator assembly; the air conditioner water pan comprises a water pan body, wherein a water drainage groove used for receiving condensed water discharged by the evaporator assembly is formed in the water pan body, the water drainage groove is communicated with a water outlet and an overflow port, and the overflow port is higher than the water outlet. According to the embodiment of the invention, the overflow port is arranged at the position higher than the water discharge port, when the water discharge port is blocked by particles or impurities, accumulated water in the water receiving tray rises to the position of the overflow port, and the accumulated water can be discharged out of a room through the overflow port, so that condensed water of the evaporator can be discharged, and safety accidents caused by water leakage of the water receiving tray due to blockage of the water discharge port are avoided.

In a further preferred scheme, a second water pan is further arranged on the water pan body, and a plurality of second baffles are arranged on the second water pan; the plurality of second baffles surround the second water receiving tray and are provided with an opening, and the second water receiving tray is connected with the water receiving tray body through the second baffles on two sides of the opening. In the embodiment of the invention, the second water pan is additionally arranged on the water pan main body, so that the air conditioner is not influenced in the work of the water pan no matter the air conditioner is transversely installed or vertically installed, and different installation modes are added for the air conditioner.

In a further preferred scheme, protruding portions are arranged on the second baffle plates on two sides of the opening of the second water receiving tray, and through holes used for being combined with the protruding portions are formed in the two corresponding sides of the first baffle plate.

In a further preferred scheme, a penetrating groove is formed in the water pan main body, and a plurality of clamping grooves used for being clamped with the evaporator assembly are formed in the inner wall of the penetrating groove; a first screw hole is formed in the clamping groove, and a second screw hole matched with the first screw hole is formed in the evaporator assembly. In the embodiment of the invention, the evaporator assembly and the water pan are fixed for the first time through the clamping groove, and the evaporator assembly and the water pan are fixed for the second time through the first screw hole and the second screw hole, so that the combination stability of the evaporator and the water pan is greatly enhanced.

In a further preferred scheme, the drainage groove is arranged between the outer wall of the water pan body and the penetrating groove and surrounds the penetrating groove.

In a further preferred scheme, the height of the bottom wall of the drainage groove is gradually reduced from one end, which is far away from the drainage opening, to the drainage opening. In the embodiment of the invention, the bottom of the drainage groove is downwards inclined towards the drainage port, so that the condensed water generated by the evaporator assembly can be gathered towards the drainage port.

In a further preferred scheme, the air conditioner water collector further comprises: the baffle, the baffle sets up in overflow mouth side, and deviates from the outlet. In the embodiment of the invention, the height of the water receiving tray body on one side of the water outlet is increased, so that the condensate water is prevented from overflowing when the condensate water does not reach the height of the overflow port, and the height of only one side is increased, thereby realizing overflow dredging and saving materials.

In a further preferred scheme, the outer side of the water pan main body is also provided with a connecting frame which corresponds to the positions of the water outlet and the overflow port and is used for connecting the water outlet and the overflow port with the water drainage pipe respectively. In the embodiment of the invention, the additional connecting frame is arranged on the water pan main body, so that the connection of the water outlet, the overflow port and the water discharge pipe is more convenient.

In a further preferred scheme, the drainage groove comprises a first inclined surface, a first plane, a second inclined surface, a second plane, a third inclined surface and a first cambered surface which are connected in sequence. In the embodiment of the invention, through the mutual buffering among the inclined planes, the planes and the cambered surfaces, the condensed water is smoothly guided into the drainage channel, and meanwhile, the second plane provides support for the evaporator assembly.

An air conditioner indoor unit comprises an evaporator assembly and the air conditioner water pan.

In a further preferred aspect, the evaporator assembly comprises: the first evaporator and the second evaporator are connected with the air conditioner water receiving disc to form a triangle.

Compared with the prior art, the water pan of the air conditioner and the indoor unit of the air conditioner are connected with the evaporator assembly; the air conditioner water pan comprises a water pan body, wherein a water drainage groove used for receiving condensed water discharged by the evaporator assembly is formed in the water pan body, the water drainage groove is communicated with a water outlet and an overflow port, and the overflow port is higher than the water outlet. According to the invention, the overflow port is arranged at a position higher than the water discharge port, when the water discharge port is blocked by particles or impurities, accumulated water in the water receiving tray rises to the position of the overflow port, and the accumulated water can be discharged out of the room through the overflow port, so that condensed water of the evaporator can be discharged, and safety accidents caused by water leakage of the water receiving tray due to blockage of the water discharge port are avoided.

Drawings

Fig. 1 is a schematic structural view of a water pan body provided by the present invention after being connected with an evaporator assembly;

FIG. 2 is a schematic structural view of a water pan body according to the present invention;

FIG. 3 is a schematic side view of the water pan body according to the present invention;

FIG. 4 is a side cross-sectional view of a body of a drip tray according to the present invention;

FIG. 5 is a bottom view of the body of the drip tray provided by the present invention;

FIG. 6 is a connecting structure diagram of a second water pan and a water pan body according to the present invention;

FIG. 7 is a structural view of a second water pan according to the present invention;

FIG. 8 is an enlarged view of a portion of the boss provided by the present invention;

fig. 9 is a side view of a second drip tray provided by the present invention.

Detailed Description

In view of the problem that a single water outlet is arranged on a water pan of an air conditioner in the prior art and water cannot be drained normally when the water outlet is blocked, the invention provides the water pan of the air conditioner and an indoor unit of the air conditioner.

The embodiments of the present invention are intended to explain technical concepts of the present invention, technical problems to be solved, technical features constituting technical solutions, and technical effects to be brought about in more detail. The embodiments are explained below, but the scope of the present invention is not limited thereto. Further, the technical features of the embodiments described below may be combined with each other as long as they do not conflict with each other.

In daily use, the mounted position of air conditioner is various, and the environment of installation also has the difference, if the environment dust of air conditioner installation is many, the granule is many, or have the leaf, in debris such as cotton fibre fly the environment, the water collector of air conditioner after working a period, the outlet in the water collector has probably because rubbish such as dust deposit or leaf leads to the outlet to block up, and the air conditioner comdenstion water will overflow inside the room, has potential safety hazards such as air conditioner damage, electric leakage. Therefore, a method is needed to be conceived, so that the normal drainage of the water receiving tray is not influenced when the drainage port is blocked, and the safety accident is avoided.

Referring to fig. 1 and 2, based on the above-mentioned idea, the present invention provides an air-conditioning water pan connected to an evaporator assembly 200, the air-conditioning water pan includes a water pan main body 100, a water drainage tank 110 for receiving condensed water drained from the evaporator assembly 200 is disposed on the water pan main body 100, the water drainage tank 110 is communicated with a water drainage port 120 and an overflow port 130, and the overflow port 130 is higher than the water drainage port 120. According to the embodiment of the invention, the overflow port 130 is arranged at the position higher than the water discharge port 120, when the water discharge port 120 is blocked by particles or impurities, accumulated water in the water receiving tray rises to the position of the overflow port 130, and the accumulated water can be discharged out of the room through the overflow port 130, so that the condensed water of the evaporator can be discharged, and the safety accident caused by water leakage of the water receiving tray due to the blockage of the water discharge port 120 is avoided.

In specific implementation, in the embodiment of the present invention, the water-tray main body 100 is a square body, the water drainage groove 110 is disposed in the water-tray main body 100, and the evaporator assembly 200 is disposed above the water drainage groove 110; the drain port 120 and the overflow port 130 are respectively connected to corresponding drain pipes. Normally, when the evaporator assembly 200 generates condensed water, the condensed water flows into the drain tank 110, then flows to the drain port 120 communicating with the drain tank 110 through the drain tank 110, and then flows out of the room through the drain pipe; when the water outlet 120 is blocked by particles or impurities, the condensed water generated by the evaporator assembly 200 is accumulated in the water discharge tank 110, when the water in the water discharge tank 110 rises to the height of the overflow port 130, the function of the overflow port 130 is automatically opened, and the condensed water in the water discharge tank 110 is discharged to the outside through the overflow port 130 and the water discharge pipe connected with the overflow port 130, so that the normal discharge of the condensed water of the evaporator can be ensured, the condensed water can not flood the room due to the blockage of the water outlet 120, and the normal operation of the air conditioner can be ensured. In particular, the sizes of the water outlet and the overflow port can be consistent or inconsistent, and can be freely selected according to requirements.

It should be noted that, the water pan main body may also be set to other shapes such as a circular ring shape, an oval shape, etc., one or more overflow ports 130 may be provided, if a plurality of overflow ports 130 are provided, the overflow ports 130 may be set in layers, that is, the positions of the overflow ports 130 are raised above the water discharge port 120 one by one, and when the first overflow port 130 above the water discharge port 120 is also blocked, water can be discharged through the overflow port 130 at a higher position, thereby realizing multiple overflow dredging. To implement this, the drip tray may be raised to a higher level to ensure that there is sufficient space for the plurality of overflow ports 130.

Referring to fig. 2 and 3, further, the height of the bottom wall of the drain groove 110 gradually decreases from the end away from the drain opening 120 to the drain opening 120. Specifically, in order to ensure that the condensed water generated by the evaporator assembly 200 can be gathered toward the position of the drain opening 120, a certain slope is provided at the bottom of the drain groove 110 and is inclined downward in the direction of the drain opening 120, i.e., the slope at the drain opening is a slope bottom, and the slope is preferably 1 °.

The slope may be freely adjusted as needed, for example, 5 ° or 10 °, so long as the condensed water in the drain tank 110 smoothly flows to the drain port 120.

Further, referring to fig. 3 and 4, in an embodiment of the present invention, the water pan of the air conditioner further includes: and the first baffle 180 is arranged on the side of the overflow port 130, and the first baffle 180 is away from the water outlet 120.

In specific implementation, in the embodiment of the present invention, the drain opening 120 is disposed at a corner of one side of the drip tray main body 100, when the drain opening 120 is blocked, since the bottom of the drain groove 110 has a certain slope, the condensed water is accumulated at the drain opening 120, and the condensed water accumulated at the drain opening is blocked by disposing the first blocking plate 180 at the side of the drain opening 120, so that the condensed water does not overflow when the condensed water does not reach the height of the overflow opening 130, specifically, the first blocking plate 180 may be a separate structure separated from the drip tray main body 100, or may be integrally formed with the drip tray main body 100; moreover, because the drainage groove 110 has a slope, the function of the overflow port 130 can be realized only by heightening the height of one side, accumulated condensed water is discharged outdoors, overflow dredging is realized, and materials are saved.

It should be noted that the height of one side of the drain opening 120 is set along with the height of the overflow opening 130, so as to ensure that the height of the overflow opening 130 is lower than the height of one side of the drain opening 120.

Referring to fig. 3, in an alternative embodiment of the present invention, a connection frame 170 for connecting the drain opening 120 and the drain pipe is further disposed on an outer side of the water tray body 100, corresponding to the drain opening 120 and the overflow opening 130. In practical implementation, in the embodiment of the present invention, a connection frame 170 is disposed at the water outlet 120 and the overflow port 130, the connection frame 170 has connection holes corresponding to the water outlet 120 and the overflow port 130, the water outlet pipe is connected to the water outlet 120 and the overflow port 130 through the corresponding connection holes, and the connection of the water outlet pipe is facilitated through the additional connection frame 170.

It should be noted that the connecting hole may be further provided with a thread, the drain pipe is also provided with a thread opposite to the connecting hole, and the drain pipe is connected to the connecting hole through the thread to enhance the combining stability; similarly, the connecting frame 170 may be connected to the drain pipe by means of the slot 150, the screw assembly, and the like, and the technician may select the connecting frame according to the requirement, which is not limited herein.

Referring to fig. 1, 4 and 5, optionally, in an embodiment of the present invention, a penetrating groove 140 is disposed on the water pan main body 100, and a plurality of clamping grooves 150 for clamping with the evaporator assembly 200 are disposed on an inner wall of the penetrating groove 140; a first screw hole 160 is disposed in the fastening groove 150, and a second screw hole (not shown) adapted to the first screw hole 160 is disposed on the evaporator assembly 200.

In specific implementation, in the embodiment of the present invention, the penetrating groove 140 is disposed on the water pan body 100, the inner wall of the penetrating groove 140 is disposed with a plurality of slots 150, and the evaporator assembly 200 is fastened to the slots 150 by corresponding fasteners to perform a first step of fixing; in addition, be provided with first screw 160 in the draw-in groove 150, be provided with the second screw corresponding with first screw 160 on the evaporimeter subassembly 200, after evaporimeter subassembly 200 passed through corresponding buckle and draw-in groove 150 lock, first screw 160 and second screw coincide each other, rethread screw assembly runs through first screw 160 and second screw to the screw is screwed up and is carried out the second time to evaporimeter and water collector and fix, has strengthened the combination steadiness of evaporimeter and water collector.

It should be noted that the connection mode of the evaporator assembly 200 and the water pan is not limited to the combination of clamping and screwing, and the evaporator assembly 200 and the water pan can be connected and fixed by using clamping, screwing or welding or other modes; the evaporator assembly 200 may be fixed to other positions of the indoor unit of the air conditioner without being connected to the water pan.

Referring to fig. 4, the drainage channel 110 is disposed between the outer wall of the drip tray main body 100 and the penetrating channel 140, and surrounds the penetrating channel 140. In practical implementation, in the embodiment of the present invention, the evaporator assembly 200 is in a shape of a Chinese character 'ba', when the evaporator assembly 200 is fixed on the water-receiving tray, two legs of the eight-shaped opening of the evaporator assembly 200 are above the water drainage grooves 110 on two opposite sides of the square water-receiving tray, if the condensed water generated by the evaporator assembly 200 flows to the water drainage outlet 120, the water drainage grooves 110 are required to be arranged on four sides of the water-receiving tray, and the water drainage grooves 110 on four sides are communicated with each other, so in the embodiment, the water drainage grooves 110 are arranged around the penetrating groove 140.

Referring to fig. 1 and 4, in a further embodiment of the present invention, the drainage groove 110 includes a first inclined surface 111, a first flat surface 112, a second inclined surface 113, a second flat surface 114, a third inclined surface 115, and a first arc surface 116, which are connected in sequence. In practical implementation, in the embodiment of the present invention, the drainage groove 110 is divided into a plurality of layers, when the condensed water flows from the evaporator assembly 200 to the drainage groove 110, the condensed water enters the drainage groove 110 from the first inclined surface 111 or the first arc surface 116, and is buffered by the first inclined surface 111 or the first arc surface 116, and then the condensed water is gathered at the bottom of the drainage groove 110 and finally flows to the drainage outlet 120 to be drained to the outside.

In particular, the first plane 112 can also be used to place the evaporator assembly 200, and when the splayed evaporator assembly 200 is connected to the water pan, two legs of the splayed opening of the evaporator assembly 200 can be placed on the first plane to bear the evaporator assembly 200, thereby reducing the weighing pressure of the clamping groove 150 and the screw assembly.

Referring to fig. 6 to 9, in another embodiment of the present invention, a second water receiving tray 300 is further disposed on the water receiving tray main body 100, a plurality of second baffles 310 are disposed on the second water receiving tray 300, the plurality of second baffles 310 surround the second water receiving tray 300 and are provided with an opening, and the second water receiving tray 300 is connected to the water receiving tray main body 100 through the second baffles 310 on two sides of the opening. In the embodiment of the invention, the second water pan 300 is additionally arranged on the water pan main body 100, so that the air conditioner is transversely or vertically arranged without influencing the work of the water pan, and different installation modes are added for the air conditioner. Specifically, the second baffle 310 extends upwards from the bottom of the second water receiving tray 300 by a certain height, a supporting plate 320 extends from the opening, and the supporting plate 320 is tilted by a certain angle in a direction opposite to the extending direction of the second baffle 310, where the angle is preferably 13 °. The angle may be set as needed, and is not limited to 13 °.

In practical implementation, referring to fig. 3, in the embodiment of the present invention, a first overflow port, a second overflow port and a water discharge port 120 are provided, the two overflow ports and the water discharge port 120 are arranged in a triangle, and during normal use, the first overflow port 131 and the second overflow port 132 are both higher than the water discharge port 120; the second baffle 310 on two sides of the opening is provided with a protruding part 311, two sides of the first baffle 180 are correspondingly provided with through holes 312, the protruding part 311 is buckled with the through holes 312, the second water pan 300 is installed on the water pan main body 100, heat insulation cotton is pasted at the joint after the installation is completed, and the supporting plate 320 is pasted with the first baffle 180 after the installation is completed.

In one case, the installation position of the air conditioner is enough to install in a horizontal installation manner, and at this time, the drain pan body 100 plays a role of receiving condensed water and draining water; under another condition, the horizontal mounted position of air conditioner is not enough, when needing vertical installation, need not change the position of water collector in the air conditioner, after vertical installation, receive the comdenstion water and the drainage through second water collector 300, when the comdenstion water flows to second water collector 300, second baffle 310 keeps off the comdenstion water in second water collector 300, the comdenstion water flows to first baffle 180 from second water collector 300 opening part, it is outdoor through outlet 120 discharge to flow to water drainage tank 110 again, make the air conditioner mounting means more nimble.

Further, when the drain pan body 100 is used to receive the condensed water and drain the condensed water, the first overflow port 131 is selected for overflow drainage, and the first overflow port 132 is plugged with a sealing plug; at this time, the height of the first overflow port 131 is higher than that of the drain port 120, and when the drain port 120 is blocked, water can be drained through the first overflow port 131; when the second water receiving tray 300 is used for receiving condensed water and draining the condensed water, the first overflow port 132 is selected for overflow dredging, and the first overflow port 131 is plugged by a sealing plug; at this time, the first overflow port 132 is higher than the drain port 120, and when the drain port 120 is blocked, water can be drained through the first overflow port 132.

Particularly, after the second water receiving tray 300 is installed on the water receiving tray main body 100, when the water receiving tray is installed vertically, a certain angle is formed between the second water receiving tray 300 and the horizontal plane, so that the condensed water can smoothly flow to the water outlet 120, and the angle is preferably 1.5 degrees; the water pan body 100 is a plastic water pan, and the second water pan 300 is a metal water pan.

Referring to fig. 1, based on the above water pan for air conditioner, the present invention further provides an indoor unit for air conditioner, which includes an evaporator assembly 200 and the above water pan for air conditioner. Since the water pan of the air conditioner is described in detail above, it is not described in detail herein.

Specifically, the evaporator assembly 200 includes: the water-saving device comprises a first evaporator 201 and a second evaporator 202, wherein the first evaporator 201 and the second evaporator 202 are connected with the air-conditioning water pan to form a triangle.

In summary, in the air conditioner water pan and the air conditioner indoor unit provided by the invention, the air conditioner water pan and the air conditioner indoor unit are connected with the evaporator assembly; the air conditioner water pan comprises a water pan body, wherein a water drainage groove used for receiving condensed water discharged by the evaporator assembly is formed in the water pan body, the water drainage groove is communicated with a water outlet and an overflow port, and the overflow port is higher than the water outlet. According to the invention, the overflow port is arranged at a position higher than the water discharge port, when the water discharge port is blocked by particles or impurities and accumulated water in the water receiving tray rises to the position of the overflow port, the accumulated water can be discharged out of a room through the overflow port, so that condensed water of the evaporator can be discharged, and safety accidents caused by water leakage of the water receiving tray due to blockage of the water discharge port are avoided; the air-conditioning indoor unit is combined with the water pan through the evaporator assembly, and the combination stability of the evaporator and the water pan and the overflow dredging function of the indoor unit are enhanced.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims (7)

1. An air conditioner water pan is connected with an evaporator assembly and is characterized by comprising a water pan main body, wherein a drainage channel for receiving condensed water discharged by the evaporator assembly is arranged on the water pan main body, the drainage channel is communicated with a drainage port and an overflow port, and the overflow port is higher than the drainage port;

the air conditioner water collector still includes: the first baffle is arranged on the side of the overflow port and deviates from the water outlet;

the water pan body is also provided with a second water pan, the second water pan is arranged on the first baffle, the second water pan is provided with a plurality of second baffles, the plurality of second baffles surround the second water pan and are provided with an opening, and the second water pan is connected with the water pan body through the second baffles on the two sides of the opening;

the second baffle plates on two sides of the opening of the second water pan are provided with protruding parts, and through holes used for being combined with the protruding parts are formed in the two corresponding sides of the first baffle plate; the bulge is buckled with the through hole, and the second water receiving tray is arranged on the water receiving tray main body;

the water outlet is provided with a first overflow port, a second overflow port and a water outlet, the two overflow ports and the water outlet are arranged in a triangular shape, and the first overflow port and the second overflow port are both higher than the water outlet;

when the water receiving tray body is used for receiving condensed water and draining the condensed water, a first overflow port is arranged for overflow dredging, and the first overflow port is plugged by a sealing plug; the first overflow port is higher than the water outlet, and when the water outlet is blocked, water is discharged through the first overflow port;

when the second water pan is used for receiving condensed water and draining the condensed water, a second overflow port is arranged for overflow dredging, and the second overflow port is plugged by a sealing plug; the second overflow port is higher than the water outlet, and when the water outlet is blocked, water is discharged through the second overflow port;

after the second water pan is installed on the water pan main body, when the second water pan is installed vertically, a certain angle is formed between the second water pan and the horizontal plane.

2. The water pan for the air conditioner as claimed in claim 1, wherein a penetration groove is formed in the water pan body, and a plurality of clamping grooves used for being clamped with the evaporator assembly are formed in the inner wall of the penetration groove.

3. An air-conditioning water pan according to claim 2, wherein a first screw hole is arranged in the clamping groove, and a second screw hole matched with the first screw hole is arranged on the evaporator assembly.

4. An air-conditioning drip tray according to claim 2, wherein the drainage channel is provided between the outer wall of the drip tray body and the penetration channel and around the penetration channel.

5. An air-conditioning water pan as claimed in claim 1, wherein the height of the bottom wall of the drainage channel decreases from the end facing away from the drainage opening to the drainage opening.

6. An air-conditioning water pan as claimed in claim 1, wherein the water discharge channel comprises a first inclined surface, a first plane, a second inclined surface, a second plane, a third inclined surface and a first cambered surface which are connected in sequence.

7. An indoor unit of an air conditioner, which comprises an evaporator assembly and the water pan of the air conditioner as claimed in any one of claims 1 to 6.

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