CN210292264U

CN210292264U - Air conditioner

Info

Publication number: CN210292264U
Application number: CN201921217445.XU
Authority: CN
Inventors: 吴庆壮; 黄涛; 罗会斌; 邹波; 青秀林; 赵春达; 焦裕坤
Original assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Current assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Priority date: 2019-07-30
Filing date: 2019-07-30
Publication date: 2020-04-10
Anticipated expiration: 2029-07-30

Abstract

The utility model discloses an air conditioner relates to air conditioner technical field. This air conditioner includes air conditioner shell, wind channel, breakwater and water collector, and wind channel and water collector are all installed in air conditioner shell, and the wind channel sets up in the top of water collector, and breakwater fixed connection is on the lateral wall in wind channel, and sets up in the one end that the wind channel is close to the water collector, and the breakwater projects in the water collector along vertical direction, and the breakwater can keep off the condensate water of wind channel lateral wall in the water collector. Compared with the prior art, the utility model provides an air conditioner is owing to adopted to connect on the wind channel lateral wall and the breakwater piece of vertical projection in the water collector, so can carry out the backstop to the comdenstion water that flows down along the wind channel outside wall flow, make its speed reduction after flow down again, prevent that the comdenstion water from directly dripping in the water collector and the spill all around to avoid the condition of electrical apparatus short circuit to take place, guarantee that the air conditioner can normal use, improve the security, it is practical reliable.

Description

Air conditioner

Technical Field

The utility model relates to an air conditioner technical field, in particular to air conditioner.

Background

At present, in the process of using of cabinet air conditioner, because cold and hot temperature is alternative, often can form the comdenstion water on the wind channel, these comdenstion waters flow down along the wind channel lateral wall under the effect of gravity to finally get into in the water collector. However, because the height of the cabinet air conditioner is high, the speed of the condensed water flowing down from the side wall of the air duct is high, and when the condensed water directly drops into the water pan, a large amount of water splash can be splashed, wherein the water splash splashed out of the water pan can enter an electric appliance part of the air conditioner, so that the electric appliance is short-circuited, the normal use of the air conditioner is affected, and the safety is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem prevent how the comdenstion water is the spill of four splatters when falling into the water collector to avoid the condition of electrical apparatus short circuit to take place, guarantee that the air conditioner can normal use, improve the security, it is practical reliable.

In order to solve the above problem, the technical scheme of the utility model is realized like this:

the utility model provides an air conditioner, including air conditioner shell, wind channel, breakwater and water collector, wind channel and water collector are all installed in air conditioner shell, and the wind channel sets up in the top of water collector, and breakwater fixed connection just sets up in the one end that the wind channel is close to the water collector on the lateral wall in wind channel, and the breakwater projects in the water collector along vertical direction, and the breakwater can keep off the condensate water of wind channel lateral wall in the water collector. Compared with the prior art, the utility model provides an air conditioner is owing to adopted to connect on the wind channel lateral wall and the breakwater piece of vertical projection in the water collector, so can carry out the backstop to the comdenstion water that flows down along the wind channel outside wall flow, make its speed reduction after flow down again, prevent that the comdenstion water from directly dripping in the water collector and the spill all around to avoid the condition of electrical apparatus short circuit to take place, guarantee that the air conditioner can normal use, improve the security, it is practical reliable.

Further, the air conditioner further comprises a stop block, wherein the stop block is fixedly connected to the outer side wall of the air channel, arranged on one side, away from the water receiving disc, of the water retaining block and arranged at an interval with the water retaining block. The backstop piece can carry out the backstop to the comdenstion water that flows down along wind channel lateral wall before the breakwater, makes on its deceleration flows down the breakwater along the wind channel lateral wall again to reduce the speed that the comdenstion water drips on the breakwater, prevent that the comdenstion water from directly dripping on the breakwater and four scatter and spill, the splashproof is effectual, safe and reliable.

Furthermore, the stopping block is arranged above the water retaining block in a vertical mode, and the water retaining block is projected into the water receiving tray along the vertical direction. So that the condensed water flowing down from the stop block can flow onto the water retaining block along the vertical direction, and the condensed water flowing down from the water retaining block can flow into the water receiving tray along the vertical direction.

Further, the projection of the stop block in the vertical direction is located in the area where the water blocking block is located. The area of the top surface of the water blocking block is larger than that of the top surface of the stopping block, so that the water blocking block can stop the condensate water again after the condensate water is stopped by the stopping block, the condensate water continues to flow downwards to the water blocking block after the condensate water is stopped by the top surface of the stopping block for one time, and the top surface of the water blocking block performs secondary stopping on the condensate water at the moment.

Furthermore, the number of the stop blocks is multiple, and the stop blocks are arranged on the outer side wall of the air duct at intervals. The plurality of stop blocks can stop the condensed water flowing down along the outer wall of the air duct for a plurality of times, the speed of the condensed water can be reduced once the stop is performed, then the condensed water continues to flow down along the outer wall of the air duct again under the action of gravity, and the operation is repeated, so that the down-flow speed of the condensed water cannot exceed the limit value of enough splashed water.

Furthermore, the plurality of stop blocks are all flat-plate-shaped, and the areas of the top surfaces of the plurality of stop blocks are the same. The processing is convenient, and the backstop effect is good.

Further, a plurality of backstop pieces all are flat, and the area of a plurality of backstop piece top surfaces reduces along the water collector to the direction of breakwater gradually. The lower stop block can stop the condensed water again after the upper stop block stops the condensed water.

Further, the water blocking block and the stopping block are both perpendicular to the outer side wall of the air duct. So that the water retaining block and the stop block can maximize the water retaining area, and the condensed water flowing down along the outer wall of the air duct can be completely stopped.

Furthermore, the water blocking block is flat, and the top surface of the water blocking block is quadrilateral. So as to adapt to the shape of the inside of the air conditioner, prevent the interference with other parts of the air conditioner and improve the water retaining effect.

Further, the water blocking block and the air duct are integrally formed. So as to improve the connection strength and prolong the service life of the air conditioner.

Drawings

Fig. 1 is a schematic structural view of an air conditioner according to a first embodiment of the present invention;

FIG. 2 is an enlarged partial view of II of FIG. 1;

FIG. 3 is a schematic structural view of an air duct, a stop block and a water stop block of an air conditioner according to a second embodiment of the present invention;

fig. 4 is a schematic structural view of the connection between the air duct and the stop block and the water block in the air conditioner according to the third embodiment of the present invention.

Description of reference numerals:

100-an air conditioner; 110-air conditioner housing; 120-air duct; 130-water retaining blocks; 140-a drip tray; 150-a stop block; 160-wind wheel.

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.

First embodiment

Referring to fig. 1 and fig. 2, an embodiment of the present invention provides an air conditioner 100 for regulating and controlling indoor temperature. The water-saving air conditioner can prevent condensate water from splashing out when the condensate water drips, thereby avoiding the short circuit of an electric appliance, ensuring the normal use of the air conditioner 100, improving the safety, and being practical and reliable.

The air conditioner 100 includes an air conditioner case 110, an air duct 120, a water blocking block 130, a water receiving tray 140, a stopper block 150, and a wind wheel 160. The air duct 120 and the water collector 140 are both installed in the air-conditioning casing 110, and the air-conditioning casing 110 can shield and protect the air duct 120 and the water collector 140. The air duct 120 is disposed above the water-receiving tray 140, and condensed water on the air duct 120 can flow into the water-receiving tray 140 under the action of gravity. The wind wheel 160 is installed in the air duct 120, and the wind wheel 160 can rotate in the air duct 120 to drive the airflow to move, thereby realizing the air-out function of the air conditioner. The water blocking block 130 and the stopping block 150 are both connected to the outer side wall of the air duct 120, and are both used for stopping and decelerating the condensed water flowing down from the outer side wall of the air duct 120, so as to prevent the condensed water from directly dripping into the water pan 140 and scattering and splashing out.

In this embodiment, the stop block 150 is disposed vertically above the water blocking block 130, and the water blocking block 130 projects into the water pan 140 along the vertical direction. So that the condensed water flowing down from the stopper 150 can flow onto the water blocking block 130 in the vertical direction under the action of gravity, and the condensed water flowing down from the water blocking block 130 can flow into the water receiving tray 140 in the vertical direction under the action of gravity, thereby achieving the collection of the condensed water.

It is worth noting that the water-blocking block 130 is fixedly connected to the outer side wall of the air duct 120 and is disposed at one end of the air duct 120 close to the water-receiving tray 140, the water-blocking block 130 projects into the water-receiving tray 140 along the vertical direction, and the water-blocking block 130 can block the condensed water on the outer side wall of the air duct 120 into the water-receiving tray 140. In this embodiment, the water blocking block 130 and the air duct 120 are integrally formed to improve the connection strength and prolong the service life of the air conditioner 100.

When the condensed water on the outer side wall of the air duct 120 is collected into a water column and flows down, the top surface of the water blocking block 130 can stop the condensed water, so that the flowing speed of the condensed water is reduced, then the condensed water flows along the side surface of the water blocking block 130 and reaches the bottom surface of the water blocking block 130, then the condensed water continues to flow down along the outer side wall of the air duct 120 under the action of gravity and enters the water receiving tray 140, in the process, the distance between the water blocking block 130 and the water receiving tray 140 is short, so that the speed of the condensed water entering the water receiving tray 140 is small, water splash cannot occur, and the safety.

It should be noted that the stop block 150 is fixedly connected to the outer side wall of the air duct 120, and is disposed on a side of the water-retaining block 130 away from the water-receiving tray 140, and is spaced from the water-retaining block 130. The stop block 150 can stop the condensed water flowing down along the outer wall of the air duct 120 before the water-retaining block 130, so that the condensed water is decelerated and then flows down to the water-retaining block 130 along the outer wall of the air duct 120, the speed of the condensed water dropping on the water-retaining block 130 is reduced, the condensed water is prevented from directly dropping on the water-retaining block 130 and being scattered, and the anti-splashing effect is good, safe and reliable.

In this embodiment, the water blocking block 130 and the stopping block 150 are both flat. The top surface of the water blocking block 130 and the top surface of the stopper block 150 are both quadrangular to adapt to the shape of the inside of the air conditioner, prevent interference with other parts of the air conditioner, and improve the water blocking effect. But not limited thereto, in other embodiments, the top surface of the water stop block 130 may have the same shape as the top surface of the stop block 150, or may have a different shape, the top surface of the water stop block 130 may have a pentagonal shape, a semicircular shape, or another shape, and the top surface of the stop block 150 may have a pentagonal shape, a semicircular shape, or another shape.

In this embodiment, the projection of the stop block 150 in the vertical direction is located in the area where the water blocking block 130 is located. Because the stopping block 150 and the water blocking block 130 are both flat, the area of the top surface of the water blocking block 130 is larger than that of the top surface of the stopping block 150, so that the water blocking block 130 can stop the condensed water again after the stopping block 150 stops the condensed water, after the top surface of the stopping block 150 stops the condensed water for the first time, the condensed water continues to flow downwards to the water blocking block 130, and at the moment, the top surface of the water blocking block 130 stops the condensed water for the second time. Specifically, the number of the stop block 150 is one, when the condensed water on the outer side wall of the air duct 120 is collected into a water column and flows down, the condensed water is stopped by the top surface of the stop block 150 at first, so that the flowing speed of the condensed water is reduced, then the condensed water flows along the side surface of the stop block 150 and reaches the bottom surface of the stop block 150, and then the condensed water continues to flow down along the outer side wall of the air duct 120 again under the action of gravity and is stopped by the water blocking block 130, in the process, because the distance between the stop block 150 and the water blocking block 130 is short, the speed of the condensed water falling on the water blocking block 130 is also small, water splash is avoided, and the safety.

In this embodiment, the water blocking block 130 and the stopping block 150 are both perpendicular to the outer side wall of the air duct 120, so that the water blocking area of the water blocking block 130 and the stopping block 150 can be maximized, thereby ensuring that the condensed water flowing down along the outer side wall of the air duct 120 is completely stopped.

Air conditioner 100, wind channel 120 and water collector 140 all install in air conditioner shell 110, wind channel 120 sets up in water collector 140's top, and breakwater 130 fixed connection is on wind channel 120's lateral wall, and sets up in the one end that wind channel 120 is close to water collector 140, and breakwater 130 projects in water collector 140 along vertical direction, and breakwater 130 can keep off the condensate water of wind channel 120 lateral wall in water collector 140. Compared with the prior art, the utility model provides an air conditioner 100 is owing to adopted to connect on wind channel 120 lateral wall and the breakwater 130 of vertical projection in water collector 140, so can carry out the backstop to the comdenstion water that flows down along wind channel 120 outside wall flow, make it flow down again after slowing down, prevent that the comdenstion water from directly dripping in water collector 140 and the spill that scatters about to avoid the condition of electrical apparatus short circuit to take place, guarantee that the air conditioner can normal use, improve the security, it is practical reliable.

Second embodiment

Referring to fig. 3, the present invention provides an air conditioner 100, compared to the first embodiment, the present embodiment is different in that the number of the stopping blocks 150 is plural, and the plural stopping blocks 150 are disposed on the outer sidewall of the air duct 120 at intervals.

It should be noted that the plurality of stopping blocks 150 can stop the condensed water flowing down along the outer wall of the air duct 120 for a plurality of times, and each time the condensed water is stopped, the speed of the condensed water can be reduced, and then the condensed water continues to flow down along the outer wall of the air duct 120 under the action of gravity, and this is repeated, so that the downstream flow speed of the condensed water does not exceed the limit value of enough splashing water.

In this embodiment, the plurality of stopping blocks 150 are all flat, the areas of the top surfaces of the plurality of stopping blocks 150 are the same, and the distances between the plurality of stopping blocks 150 are the same, so that the processing is convenient, the stopping effect is good, and the appearance is high.

The embodiment of the present invention provides the same beneficial effects as the first embodiment, and is not repeated herein.

Third embodiment

Referring to fig. 4, the present invention provides an air conditioner 100, which is different from the second embodiment in that the areas of the top surfaces of the plurality of stoppers 150 are different.

In this embodiment, the plurality of stopping blocks 150 are all flat, and the area of the top surfaces of the plurality of stopping blocks 150 gradually decreases along the direction from the water pan 140 to the water blocking block 130, so as to ensure that the lower stopping block 150 can stop the condensed water again after the upper stopping block 150 stops the condensed water, thereby forming a multi-stage stop. In the process, the stop can reduce the flow rate of the condensed water once, so that the flow rate of the condensed water flowing to the water retaining block 130 is reduced finally, the flow rate of the condensed water flowing into the water pan 140 is reduced, and water splash is avoided.

The embodiment of the present invention provides the same advantageous effects as the second embodiment in the air conditioner 100, which is not repeated herein.

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

1. The utility model provides an air conditioner, its characterized in that, includes air conditioner shell (110), wind channel (120), breakwater (130) and water collector (140), wind channel (120) with water collector (140) all install in air conditioner shell (110), wind channel (120) set up in the top of water collector (140), breakwater (130) fixed connection in on the lateral wall of wind channel (120), and set up in wind channel (120) are close to the one end of water collector (140), breakwater (130) can with the condensate water of wind channel (120) lateral wall keeps off in the water collector (140).

2. The air conditioner as claimed in claim 1, further comprising a stop block (150), wherein the stop block (150) is fixedly connected to an outer side wall of the air duct (120), is disposed on a side of the water-blocking block (130) away from the water-receiving tray (140), and is spaced from the water-blocking block (130).

3. The air conditioner according to claim 2, wherein the stopper (150) is disposed vertically above the water blocking block (130), and the water blocking block (130) is projected in a vertical direction into the water collector (140).

4. The air conditioner according to claim 2, characterized in that the projection of the stopper (150) in the vertical direction is located in the area of the water deflector (130).

5. The air conditioner according to claim 2, wherein the number of the stopper blocks (150) is plural, and the plural stopper blocks (150) are provided on an outer side wall of the air duct (120) at intervals in a vertical direction.

6. The air conditioner according to claim 5, wherein the plurality of the stopper blocks (150) have a flat plate shape, and the areas of the top surfaces of the plurality of the stopper blocks (150) are the same.

7. The air conditioner as claimed in claim 5, wherein the plurality of the stopper blocks (150) each have a flat plate shape, and an area of a top surface of the plurality of the stopper blocks (150) is gradually reduced in a direction from the drain pan (140) to the water blocking block (130).

8. The air conditioner according to claim 2, wherein the water blocking block (130) and the stopping block (150) are both disposed perpendicular to an outer sidewall of the air duct (120).

9. The air conditioner according to claim 1, wherein the water guard block (130) has a flat plate shape, and a top surface of the water guard block (130) has a quadrangular shape.

10. The air conditioner according to claim 1, wherein the water blocking block (130) is integrally formed with the air duct (120).