CN220728502U - Shutter system with energy recovery function - Google Patents

Abstract

The utility model relates to a shutter system with energy recovery, comprising: the air conditioner comprises an air conditioner, a first water pipe, a second water pipe, a frame body with an inner cavity, a plurality of third water pipes and a plurality of louver blades. According to the embodiment of the utility model, the frame body is arranged near the air conditioner, then the condensed water discharged from the water outlet of the condenser is led to the first water pipe through the hose, then the condensed water flows to the second water pipe through the third water pipe through the first water pipe, then the condensed water is discharged through the second water pipe, and when the shutter system with energy recovery is arranged at the fresh air inlet end, the cold energy on the third water pipe is taken away when external wind blows into the frame body, so that the temperature of the blown wind is lower than that of the air outdoors, the utilization of the energy of the condensed water is realized, and the cold energy of the condensed water in the air conditioner is directly utilized in the precooling link of the fresh air system, so that the effects of energy conservation and emission reduction are achieved.

Description

Shutter system with energy recovery function

Technical Field

The utility model relates to a shutter system with energy recovery.

Background

At present, with the implementation of national energy conservation and emission reduction and low-carbon environmental protection policies, the recycling of the energy of condensed water generated by an air conditioner becomes an important measure for energy conservation. Through investigation, the temperature of condensed water generated by an air conditioner indoor unit is about 13 ℃ and lower than the temperature of fresh air, and the current condensed water treatment mode is to drain the air conditioner condensed water into a sewer system as waste water, so that the treatment mode wastes the cold quantity of the condensed water.

Disclosure of Invention

The purpose of the utility model is that: a louver system with energy recovery capable of utilizing the condensing water cooling capacity of an air conditioner is provided.

In order to achieve the above object, the present utility model provides a blind system with energy recovery, comprising: the air conditioner comprises an air conditioner, a first water pipe, a second water pipe, a frame body with an inner cavity, a plurality of third water pipes and a plurality of louver blades; a plurality of louver blades are sequentially arranged in the inner cavity at intervals; the first water pipe is arranged at the upper end of the frame body; the second water pipe is arranged at the lower end of the frame body; the third water pipes are sequentially arranged in the inner cavity at intervals, the upper ends of the third water pipes are communicated with the first water pipes, and the lower ends of the third water pipes are communicated with the second water pipes; the air conditioner is provided with a condenser; the water outlet of the condenser is communicated with the first water pipe through a hose.

Optionally, the method further comprises: a pump body; the pump body is arranged on the hose.

Optionally, a plurality of third water pipes are arranged along the vertical direction.

Optionally, the gradient of the first water pipe is 0.01.

Optionally, the first water pipe has a first end and a second end; the water outlet of the condenser is communicated with the first end of the first water pipe through a hose; the horizontal position of the first end of the first water pipe is higher than the horizontal position of the second end of the first water pipe.

Optionally, the gradient of the second water pipe is 0.01.

Optionally, the third water pipe is arranged at the inner side of the inner cavity; the louver blade is arranged on the outer side of the inner cavity; the louver blades are inclined downwards back to the third water pipe.

Optionally, the first end of the second water pipe is higher than the second end of the second water pipe; a plurality of water outlets are arranged at the second end of the second water pipe.

Optionally, the first water pipe, the second water pipe and the third water pipe are copper pipes

Compared with the prior art, the shutter system with energy recovery has the beneficial effects that:

according to the embodiment of the utility model, the frame body is arranged near the air conditioner, then the condensed water discharged from the water outlet of the condenser is led to the first water pipe through the hose, then the condensed water flows to the second water pipe through the third water pipe through the first water pipe, then the condensed water is discharged through the second water pipe, and when the shutter system with energy recovery is arranged at the fresh air inlet end, the cold energy on the third water pipe is taken away when external wind blows into the frame body, so that the temperature of the blown wind is lower than that of the air outdoors, the utilization of the energy of the condensed water is realized, and the cold energy of the condensed water in the air conditioner is directly utilized in the precooling link of the fresh air system, so that the effects of energy conservation and emission reduction are achieved.

Drawings

FIG. 1 is a front view of an embodiment of the present utility model;

fig. 2 is a side view of an embodiment of the present utility model.

In the figure, 1, a condenser; 2. a first water pipe; 3. a second water pipe; 31. a water outlet; 4. a third water pipe; 5. a louver; 6. a pump body; 7. a hose; 8. a frame; 81. an inner side; 82. and outside.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

First, it should be noted that the top, bottom, upward, downward, etc. orientations referred to herein are defined with respect to the orientation in the various figures, are relative concepts and thus can be changed depending on the different positions they are in and the different practical states. These and other orientations, therefore, are not to be considered limiting.

It should be noted that the term "comprising" does not exclude other elements or steps and the "a" or "an" does not exclude a plurality.

Furthermore, it should also be noted that, for any single technical feature described or implied in the embodiments herein, or any single technical feature shown or implied in the figures, a combination can still be continued between these technical features (or equivalents thereof) to obtain other embodiments of the present application not directly mentioned herein.

It should also be understood that the terms "first," "second," and the like are used herein to describe various information, but that such information should not be limited to these terms, which are used merely to distinguish one type of information from another. For example, a "first" message may also be referred to as a "second" message, and similarly, a "second" message may also be referred to as a "first" message, without departing from the scope of the present application.

It should be noted that in different drawings, the same reference numerals indicate the same or substantially the same components.

As shown in fig. 1 and 2, a shutter system with energy recovery according to a preferred embodiment of the present utility model includes: an air conditioner, a first water pipe 2, a second water pipe 3, a frame body 8 with an inner cavity, a plurality of third water pipes 4 and a plurality of louver blades 5. The plurality of louver blades 5 are sequentially arranged at intervals on the outer side of the inner cavity. The first water pipe 2 is disposed at the upper end of the frame 8. The second water pipe 3 is arranged at the lower end of the frame 8. The third water pipes 4 are sequentially arranged in the inner cavity at intervals, the upper ends of the third water pipes 4 are communicated with the first water pipes 2, and the lower ends of the third water pipes 4 are communicated with the second water pipes 3; the air conditioner has a condenser 1. The water outlet of the condenser 1 is communicated with the first water pipe 2 through a hose 7.

Based on the above-mentioned structure, this application is through setting up the frame 8 in the vicinity of air conditioner, then through hose 7 with the delivery port drainage of condenser 1 on the comdenstion water pipe 2, then flow through first water pipe 2 through third water pipe 4 and fall to the second water pipe 3 on, then the comdenstion water is discharged through second water pipe 3, and install the tripe system of this application with energy recovery when new trend entry end, can take away the cold volume on the third water pipe 4 when the outside wind blows into frame 8, thereby make the wind temperature of blowing in lower than outdoor temperature, thereby realized the utilization to the energy of comdenstion water, directly utilize the cold volume of condensed water in the air conditioner in the precooling link of new trend system, thereby reach energy saving and emission reduction's effect.

Further, the present application further includes: and a pump body 6. The pump body 6 is arranged on the hose 7, and condensed water can be quickly drained onto the first water pipe 2 through the arrangement of the pump body 6.

Further, a plurality of the third water pipes 4 are provided in a vertical direction, and it is understood that the third water pipes 4 may be provided as coils, thereby increasing an area in contact with wind, and thus improving the cold transfer efficiency.

Further, the gradient of the first water pipe 2 is 0.01, and the first water pipe 2 is provided with a first end and a second end; the delivery port of condenser 1 pass through hose 7 with the first end of first water pipe 2 is linked together, the horizontal position of first water pipe 2 first end is higher than the horizontal position of first water pipe 2 second end, and the setting of slope can make the comdenstion water slide to the second end of first water pipe 2 after getting into from first water pipe 2 first end, can effectively prevent the phenomenon that the comdenstion water in the first water pipe 2 flows backwards to hose 7 in.

Further, the gradient of the second water pipe 3 is 0.01, the horizontal position of the first end of the second water pipe 3 is higher than the horizontal position of the second end of the second water pipe 3, a plurality of water outlets 31 are formed in the second end of the second water pipe 3, and the gradient is set to enable condensed water in the second water pipe 3 to slide from the first end of the second water pipe 3 to the second end of the second water pipe 3 and be discharged from the water outlets 31 in the second end of the second water pipe 3.

Further, the third water pipe 4 is arranged at the inner side 81 of the inner cavity, the louver 5 is arranged at the outer side 82 of the inner cavity, the louver 5 is opposite to the third water pipe 4 and inclines downwards, wherein the inner side 81 is the side facing indoors, the outer side 82 is the side facing outdoors, the louver 5 is arranged at the outer side 82 and can achieve the rainproof effect of the third water pipe 4, so that rainwater is prevented from contacting the third water pipe 4, and the service life of the third water pipe 4 is reduced.

Further, the first water pipe 2, the second water pipe 3 and the third water pipe 4 are copper pipes, and the heat conduction efficiency of the first water pipe 2, the second water pipe 3 and the third water pipe 4 can be improved due to the arrangement of the copper pipes.

In summary, the embodiment of the utility model provides a shutter system with energy recovery, which is characterized in that a frame 8 is arranged near an air conditioner, condensed water discharged from a water outlet of a condenser 1 is led to a first water pipe 2 through a hose 7, then flows down to a second water pipe 3 through a third water pipe 4 through the first water pipe 2, then the condensed water is discharged through the second water pipe 3, and when the shutter system with energy recovery is installed at a fresh air inlet end, cold energy on the third water pipe 4 is taken away when external wind blows into the frame 8, so that the temperature of the blown wind is lower than that of the air outside, the utilization of the energy of the condensed water is realized, and the cold energy of the condensed water in the air conditioner is directly utilized in a precooling link of the fresh air system, thereby achieving the effects of energy conservation and emission reduction.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present utility model, and these modifications and substitutions should also be considered as being within the scope of the present utility model.

Claims (9)

1. A louvered system with energy recovery, comprising: the air conditioner comprises an air conditioner, a first water pipe, a second water pipe, a frame body with an inner cavity, a plurality of third water pipes and a plurality of louver blades; a plurality of louver blades are sequentially arranged in the inner cavity at intervals; the first water pipe is arranged at the upper end of the frame body; the second water pipe is arranged at the lower end of the frame body; the third water pipes are sequentially arranged in the inner cavity at intervals, the upper ends of the third water pipes are communicated with the first water pipes, and the lower ends of the third water pipes are communicated with the second water pipes; the air conditioner is provided with a condenser; the water outlet of the condenser is communicated with the first water pipe through a hose.

2. The energy recovery blind system of claim 1 further comprising: a pump body; the pump body is arranged on the hose.

3. The energy recovery blind system of claim 1 wherein a plurality of said third water tubes are disposed in a vertical direction.

4. The energy recovery blind system of claim 2 wherein the first water tube has a slope of 0.01.

5. The energy recovery blind system of claim 4 wherein said first water tube has a first end and a second end; the water outlet of the condenser is communicated with the first end of the first water pipe through a hose; the horizontal position of the first end of the first water pipe is higher than the horizontal position of the second end of the first water pipe.

6. The energy recovery blind system of claim 1 wherein the second water tube has a slope of 0.01.

7. The energy recovery shutter system of claim 1, wherein the third water tube is disposed inside the inner cavity; the louver blade is arranged on the outer side of the inner cavity; the louver blades are inclined downwards back to the third water pipe.

8. The energy recovery blind system of claim 6 wherein the first end of the second water conduit is positioned at a higher level than the second end of the second water conduit; a plurality of water outlets are arranged at the second end of the second water pipe.

9. The energy recovery blind system of any of claims 1-8 wherein said first, second and third water tubes are all copper tubes.