CN220524236U - Air conditioner external unit cooling plate utilizing condensed water for auxiliary cooling - Google Patents

Abstract

The utility model provides an air conditioner external unit radiating plate utilizing condensed water to assist in cooling, which comprises radiating fins, copper pipes are inserted into the radiating fins, an auxiliary cooling structure is arranged at the top of each radiating fin, a drainage filtering device is arranged on the upper surface of each auxiliary cooling structure, and a waste water recovery device is arranged at the bottom of each radiating fin. When the air conditioner is used, condensed water formed by the air conditioner inner unit enters the filter tube through the drainage tube, the filtering of the condensed water is completed through the filter core, then the condensed water is injected into the upper cover plate through the liquid inlet tube, the condensed water in the upper cover plate flows down along the gaps of the radiating fins under the drainage of the first drainage plate so as to achieve better cooling effect on the radiating fins, and condensed water after heat absorption flows into the lower recovery plate along the radiating fins and is drained to the outside of the air conditioner through the second drainage plate and the liquid outlet tube which are obliquely designed, so that the condensed water is prevented from polluting the air conditioner outer unit.

Description

Air conditioner external unit cooling plate utilizing condensed water for auxiliary cooling

Technical Field

The utility model relates to the technical field of heat dissipation plates, in particular to an air conditioner outdoor unit heat dissipation plate utilizing condensate water to assist in cooling.

Background

When the air conditioner is used for refrigerating, the temperature of the outer tube wall of the evaporator of the indoor unit is lower, so that water vapor in indoor air is condensed into condensed water, at present, the condensed water generated by the indoor unit of the air conditioner is mainly discharged to the outside of the room directly through a pipeline as waste water, so that resource waste is caused, the condensed water discharged directly for a long time is used for rusting the outer vertical face of a building, inconvenience is caused to residents below the building or pedestrians passing through the building, and meanwhile, a large amount of electric energy is required to be consumed when the air conditioner is used for refrigerating, particularly in a high-temperature environment, the refrigerant is driven to continuously circulate through the compressor, and the outdoor unit is used for cooling the refrigerant to ensure the continuous refrigerating effect of the air conditioner.

Most of the common air conditioners in the market at present do not utilize condensed water generated by an air conditioner indoor unit to cool a cooling plate, or simply drain the condensed water onto the cooling plate, so that the cooling effect is poor.

Therefore, to solve the above problems, we propose an air conditioner outdoor unit heat dissipation plate using condensed water to assist in cooling.

Disclosure of Invention

The utility model aims to provide an air conditioner external unit cooling plate utilizing condensed water to assist cooling so as to solve the problems set forth in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an outer quick-witted heating panel of air conditioner that utilizes comdenstion water to assist cooling, includes the radiator fin, the inside copper pipe that alternates of radiator fin, radiator fin top is provided with supplementary cooling structure, supplementary cooling structure upper surface is provided with drainage filter equipment, the radiator fin bottom is provided with waste water recovery unit.

As a further description of the utility model: the auxiliary cooling structure comprises an upper cover plate, a connecting plate is fixedly arranged in the upper cover plate, a flow distribution cavity is formed between the connecting plate and the upper cover plate, a plurality of groups of first flow guide plates distributed at equal intervals are fixedly arranged on the side wall, close to the radiating fins, of the connecting plate, the first flow guide plates are positioned between the two groups of radiating fins, through holes are formed in the first flow guide plates, and the through holes penetrate through the flow distribution cavity.

As a further description of the utility model: the upper cover plate is fixedly connected with the radiating fins through the fixing holes.

As a further description of the utility model: the drainage filter device comprises a filter pipe, a filter core is fixedly installed inside the filter pipe, a liquid inlet pipe and a drainage pipe are respectively arranged at two ends of the filter pipe, a first threaded pipe and a second threaded pipe are respectively fixedly installed at one ends, close to the filter pipe, of the liquid inlet pipe and the drainage pipe, a first threaded hole and a second threaded hole which are matched with the first threaded pipe and the second threaded pipe are formed in two ends of the filter pipe, and one end, far away from the filter pipe, of the liquid inlet pipe is communicated with a diversion cavity formed between an upper cover plate and an upper cover plate.

As a further description of the utility model: the waste water recovery device comprises a lower recovery plate, a placement plate is fixedly arranged in the lower recovery plate, the heat radiation fins are fixedly connected with the placement plate, the placement plate is a grid plate, a second drainage plate which is obliquely designed is fixedly arranged below the placement plate in the lower recovery plate, and a liquid outlet pipe is fixedly arranged on the outer wall of one side of the lower recovery plate.

As a further description of the utility model: the number of the radiating fins is multiple, the radiating fins are distributed at equal intervals left and right, and the copper tubes are continuous U-shaped tubes.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model designs an auxiliary cooling structure and a drainage filter device on a cooling plate of an air conditioner external unit using condensed water for auxiliary cooling, when in use, a liquid inlet pipe and a drainage pipe which are respectively connected with an upper cover plate and the condensed water are connected with the filter pipe through a first threaded pipe and a second threaded pipe, the condensed water formed by the air conditioner internal unit enters the filter pipe through the drainage pipe, the filtering of the condensed water is completed by a filter core, then the condensed water is injected into the upper cover plate through the liquid inlet pipe, the condensed water in the upper cover plate flows down under the drainage of the first drainage plate and flows in along gaps of cooling fins so as to achieve better cooling effect on the cooling fins, and the condensed water after heat absorption flows into a lower recovery plate along the cooling fins and is drained outside the air conditioner external unit through the second drainage plate and a drain pipe which are obliquely designed, so that the condensed water is prevented from polluting the air conditioner external unit.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an auxiliary cooling structure according to the present utility model;

FIG. 3 is a schematic view of a drainage filter device according to the present utility model;

FIG. 4 is a schematic diagram of the structure of the wastewater reclamation device of the present utility model.

In the figure: 1. a heat radiation fin; 2. copper pipe; 3. an auxiliary cooling structure; 301. an upper cover plate; 302. a connecting plate; 303. a first drainage plate; 304. a through hole; 4. a drainage filter device; 401. a filter tube; 402. a filter element; 403. a liquid inlet pipe; 404. a first threaded pipe; 405. a drainage tube; 406. a second threaded tube; 5. a waste water recovery device; 501. a lower recovery plate; 502. placing a plate; 503. a second drainage plate; 504. and a liquid outlet pipe.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a technical solution: the utility model provides an outer quick-witted heating panel of air conditioner that utilizes comdenstion water to assist cooling, includes radiator fin 1, and radiator fin 1 inside is interluded and is had copper pipe 2, and radiator fin 1 top is provided with supplementary cooling structure 3, and supplementary cooling structure 3 upper surface is provided with drainage filter equipment 4, and radiator fin 1 bottom is provided with waste water recovery unit 5.

In this embodiment: the auxiliary cooling structure 3 comprises an upper cover plate 301, a connecting plate 302 is fixedly arranged in the upper cover plate 301, a flow distribution cavity is formed between the connecting plate 302 and the upper cover plate 301, a plurality of groups of first flow guide plates 303 which are distributed at equal intervals are fixedly arranged on the side wall, close to the radiating fins 1, of the connecting plate 302, the first flow guide plates 303 are positioned between the two groups of radiating fins 1, through holes 304 are formed in the first flow guide plates 303, and the through holes 304 penetrate through the flow distribution cavity.

The specific use is as follows: the condensed water in the upper cover plate 301 flows along the gaps of the heat radiation fins 1 under the guiding of the first guiding plate 303 so as to achieve better cooling effect on the heat radiation fins 1.

In this embodiment: the upper cover plate 301 is provided with fixing holes at two ends, and the upper cover plate 301 is fixedly connected with the radiating fins 1 through the fixing holes.

The specific use is as follows: the fixing holes facilitate the mounting and dismounting between the upper cover plate 301 and the heat radiation fins 1.

In this embodiment: drainage filter device 4 includes filter tube 401, filter tube 401 internally mounted has filter core 402, the both ends of filter tube 401 are provided with feed liquor pipe 403 and drainage tube 405 respectively, feed liquor pipe 403 and drainage tube 405 are close to the one end of filter tube 401 and are fixedly mounted respectively has first screw thread pipe 404 and second screw thread pipe 406, first screw hole and the second screw hole with first screw thread pipe 404 and second screw thread pipe 406 looks adaptation are seted up at the both ends of filter tube 401, the one end that filter tube 401 was kept away from to feed liquor pipe 403 communicates the reposition of redundant personnel chamber that constitutes between upper cover plate 301 and the upper cover plate 301.

The specific use is as follows: during installation, the liquid inlet pipe 403 and the drainage pipe 405 which are respectively connected with the upper cover plate 301 and the condensed water are connected with the filter pipe 401 through the first threaded pipe 404 and the second threaded pipe 406, and when the air conditioner is used, the condensed water formed by the air conditioner is introduced into the filter pipe 401 through the drainage pipe 405, the filtering of the condensed water is completed through the filter core 402, and then the condensed water is injected into the upper cover plate 301 through the liquid inlet pipe 403.

In this embodiment: the waste water recovery device 5 comprises a lower recovery plate 501, a placement plate 502 is fixedly arranged in the lower recovery plate 501, the heat radiation fins 1 are fixedly connected with the placement plate 502, the placement plate 502 is a grid plate, a second drainage plate 503 which is obliquely designed is fixedly arranged below the placement plate 502 in the lower recovery plate 501, and a liquid outlet pipe 504 is fixedly arranged on the outer wall of one side of the lower recovery plate 501.

The specific use is as follows: the condensed water after heat absorption flows into the lower recovery plate 501 along the heat radiation fins 1, and is guided to the outside of the air conditioner by the second guiding plate 503 and the liquid outlet pipe 504 which are designed obliquely.

In this embodiment: the number of the radiating fins 1 is multiple, the radiating fins 1 are distributed at equal intervals left and right, and the copper pipe 2 is a continuous U-shaped pipe.

The specific use is as follows: the heat radiation fins 1 and the copper tubes 2 can cool the refrigerant in the air conditioner.

Working principle: when the air conditioner is used, the liquid inlet pipe 403 and the drainage pipe 405 which are respectively connected with the upper cover plate 301 and the condensed water are connected with the filter pipe 401 through the first threaded pipe 404 and the second threaded pipe 406, the condensed water formed by the air conditioner is led into the filter pipe 401 through the drainage pipe 405, the filtering of the condensed water is completed by the filter core 402, then the condensed water is injected into the upper cover plate 301 through the liquid inlet pipe 403, flows in along the gap of the heat radiation fin 1 under the drainage of the first drainage plate 303, so that a better cooling effect is achieved for the heat radiation fin 1, and the condensed water after heat absorption flows into the lower recovery plate 501 along the heat radiation fin 1, is led out of the air conditioner through the second drainage plate 503 and the liquid outlet pipe 504 which are obliquely designed, so that the condensed water is prevented from polluting the air conditioner outdoor unit.

Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art may modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features thereof, and any modifications, equivalent substitutions, improvements and the like within the spirit and principles of the present utility model should be included in the scope of the present utility model.

Claims (6)

1. The utility model provides an outer quick-witted heating panel of air conditioner that utilizes comdenstion water to assist cooling, includes heat radiation fins (1), its characterized in that: copper pipes (2) are inserted into the radiating fins (1), an auxiliary cooling structure (3) is arranged at the top of each radiating fin (1), a drainage filter device (4) is arranged on the upper surface of each auxiliary cooling structure (3), and a wastewater recovery device (5) is arranged at the bottom of each radiating fin (1).

2. The air conditioner outdoor unit cooling plate using condensed water for auxiliary cooling according to claim 1, wherein: the auxiliary cooling structure (3) comprises an upper cover plate (301), a connecting plate (302) is fixedly installed inside the upper cover plate (301), a flow distribution cavity is formed between the connecting plate (302) and the upper cover plate (301), a plurality of groups of first flow guide plates (303) which are distributed at equal intervals are fixedly installed on the side wall of the connecting plate (302) close to the radiating fins (1), the first flow guide plates (303) are located between two groups of the radiating fins (1), through holes (304) are formed in the first flow guide plates (303), and the through holes (304) are communicated with the flow distribution cavity.

3. The air conditioner outdoor unit cooling plate using condensed water for auxiliary cooling according to claim 2, wherein: fixing holes are formed in two ends of the upper cover plate (301), and the upper cover plate (301) is fixedly connected with the radiating fins (1) through the fixing holes.

4. The air conditioner outdoor unit cooling plate using condensed water for auxiliary cooling according to claim 2, wherein: drainage filter equipment (4) are including filter tube (401), filter tube (401) inside fixed mounting has filter core (402), the both ends of filter tube (401) are provided with feed liquor pipe (403) and drainage tube (405) respectively, feed liquor pipe (403) and drainage tube (405) are close to the one end of filter tube (401) fixed mounting respectively have first screwed pipe (404) and second screwed pipe (406), first screw hole and the second screw hole with first screwed pipe (404) and second screwed pipe (406) looks adaptation are seted up at the both ends of filter tube (401), the one end that filter tube (401) were kept away from to feed liquor pipe (403) communicates the reposition of redundant personnel chamber that constitutes between upper cover plate (301) and upper cover plate (301).

5. The air conditioner outdoor unit cooling plate using condensed water for auxiliary cooling according to claim 1, wherein: waste water recovery unit (5) are including retrieving board (501) down, lower recovery board (501) internally mounted has place board (502), fin (1) and place board (502) fixed connection, place board (502) are the grid plate, lower recovery board (501) inside is located place board (502) below fixed mounting has second drainage board (503) of slope design, lower recovery board (501) one side outer wall fixed mounting has drain pipe (504).

6. The air conditioner outdoor unit cooling plate using condensed water for auxiliary cooling according to claim 1, wherein: the number of the radiating fins (1) is multiple, the radiating fins (1) are distributed at equal intervals left and right, and the copper tubes (2) are continuous U-shaped tubes.