CN203274087U

CN203274087U - Air cooler

Info

Publication number: CN203274087U
Application number: CN 201320216010
Authority: CN
Inventors: 鲍江峰; 吴建平; 邱祖云; 许志明; 周水平
Original assignee: HANGZHOU PERITECH DEHUMIDIFYING EQUIPMENT CO Ltd
Current assignee: HANGZHOU PERITECH DEHUMIDIFYING EQUIPMENT CO Ltd
Priority date: 2013-04-25
Filing date: 2013-04-25
Publication date: 2013-11-06
Anticipated expiration: 2023-04-25

Abstract

The utility model relates to an air cooler which comprises fins, two end plates, a water inlet pipe, a water outlet pipe, a plurality of connecting pipes, a refrigerant inlet pipe and a refrigerant outlet pipe. A plurality of cooling pipelines penetrating through the fins are formed in the fins, the two end plates are arranged at the two ends of the fins respectively, the connecting pipes are arranged on the end plates, the two ends of the connecting pipes are connected with the cooling pipelines respectively, the water inlet pipe and the water outlet pipe are connected with the cooling pipelines respectively and are connected to form a water passing channel through parts of the connecting pipes, and the refrigerant inlet pipe and the refrigerant outlet pipe are connected with the cooling pipelines respectively and are connected to form a refrigerant channel through parts of the connecting pipes. According to the air cooler, dual cooling is carried out on air by the utilization of cool water and refrigerants, cooling efficiency is improved, and energy consumption is also relatively low. Further, the air cooler is simple in structure and saves space.

Description

A kind of aerial cooler

Technical field

The utility model relates to apparatus of air conditioning field, especially relates to a kind of aerial cooler.

Background technology

In the apparatus of air conditioning, generally all be provided with the aerial cooler for reducing air themperature.Aerial cooler commonly used has cold water formula surface cooler and evaporative surface air cooler now, and cold water formula surface cooler utilizes the cooling water heat exchange to air cooling-down, and evaporative surface air cooler utilizes the evaporation of other cooling agents (for example fluorine) to air cooling-down.The cooling efficient of cooling water surface cooler is lower, and evaporative surface air cooler energy consumption is higher.Aerial cooler how to design high efficiency, low energy consumption becomes the technical problem that those skilled in the art need to be resolved hurrily.

The utility model content

The purpose of this utility model is for the problems referred to above, and a kind of aerial cooler is provided, and has solved the existing technical problem of prior art.

for achieving the above object, the utility model has adopted following technical proposal: a kind of aerial cooler, comprise fin, two end plates, water inlet pipe, outlet pipe, a plurality of tube connectors, cold-producing medium inlet pipe and cold-producing medium go out pipe, offer a plurality of cooling pipes that run through this fin in fin, two end plates are arranged on respectively the two ends of fin, tube connector is arranged on end plate, the two ends of tube connector connect respectively a cooling pipe, water inlet pipe, outlet pipe is connected with a cooling pipe respectively, and connected into aquaporin by the part tube connector, the cold-producing medium inlet pipe is connected pipe with cold-producing medium and is connected with a cooling pipe respectively, and connect into coolant channel by the part tube connector.

In above-mentioned aerial cooler, preferably, coolant channel was positioned at the rear of aquaporin.

In above-mentioned aerial cooler, preferably, tube connector is the U-shaped pipe.

In above-mentioned aerial cooler, preferably, also comprise top board and base plate, top board and base plate are arranged on respectively top and the bottom of fin, and are connected with two end plates respectively.

In above-mentioned aerial cooler, preferably, offer a plurality of through holes corresponding with the cooling pipe position on end plate, tube connector is communicated with cooling pipe by this through hole.

The aerial cooler that the utility model provides utilizes cold water and cooling agent to carry out dual cooling to air, has both improved cooling efficient, and energy consumption is lower again.And the aerial cooler that the utility model provides simple in structure saved the space.

Description of drawings

Fig. 1 is the structural representation of aerial cooler of the present utility model.

The specific embodiment

Please refer to Fig. 1, the aerial cooler that the utility model embodiment provides comprises that base plate 11, top board 12, fin 13, two end plates 14, water inlet pipe 16, outlet pipe 17, a plurality of tube connector 15, cold-producing medium inlet pipe 19 and cold-producing mediums go out pipe 18.

Offer a plurality of cooling pipes 130 that run through this fin 13 in fin 13.Two end plates 14 are arranged on respectively the two ends of fin 13, and top board 12 and base plate 11 are arranged on respectively top and the bottom of fin 13, and are connected with two end plates 14 respectively, and fin 13 is surrounded between base plate 11, top board 12 and two end plates 14.

Offer a plurality of through holes 140 corresponding with cooling pipe 130 positions on end plate 14.Tube connector 15 is arranged on end plate 14, and its two ends are communicated with a cooling pipe 130 by a through hole 140 respectively.In a preferred embodiment, tube connector 15 is the U-shaped pipe.

Water inlet pipe 16, outlet pipe 17 are connected with a cooling pipe 130 respectively, and connect into aquaporin by a part of tube connector 15.Be that a part of tube connector 15 is communicated with a part of cooling pipe 130, the import of this part cooling pipe 130 of connection is connected with water inlet pipe 16, outlet pipe 17 with being connected respectively, thereby forms aquaporin.

Cold-producing medium inlet pipe 19 is connected pipe 18 with cold-producing medium and is connected with a cooling pipe 130 respectively, and connects into coolant channel by another part tube connector 15.Being another part tube connector 15 is communicated with another part cooling pipe 130, the import of this part cooling pipe 130 of connection and be connected to be connected pipe 18 with cold-producing medium inlet pipe 19 and cold-producing medium respectively and to be connected, thereby formation and aquaporin coolant channel independently mutually.In a preferred embodiment, coolant channel was positioned at the rear of aquaporin.

This aerial cooler can be arranged on the hot blast side with crossing aquaporin in use, and coolant channel is positioned at the cold wind side.Water inlet pipe 16, outlet pipe 17 are connected with handpiece Water Chilling Units, and cold-producing medium inlet pipe 19 is connected pipe 18 with cold-producing medium and is connected with compression-type refrigerating system.When the hot-airs of 65 ℃ enter fin 13, first with cross aquaporin generation heat exchange, temperature is reduced to 35 ℃, then the air of 35 ℃ again with coolant channel generation heat exchange, temperature is reduced to below 15 ℃.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although this paper has more used fin, end plate, tube connector, cold-producing medium inlet pipe, cold-producing medium to go out pipe, cross the terms such as aquaporin, coolant channel, do not get rid of the possibility of using other term.Using these terms is only in order to describe more easily and explain essence of the present utility model; They are construed to any additional restriction is all contrary with the utility model spirit.

Claims

1. aerial cooler, it is characterized in that, comprise fin (13), two end plates (14), water inlet pipe (16), outlet pipe (17), a plurality of tube connectors (15), cold-producing medium inlet pipe (19) and cold-producing medium go out pipe (18), offer a plurality of cooling pipes (130) that run through this fin (13) in fin (13), two end plates (14) are arranged on respectively the two ends of fin (13), tube connector (15) is arranged on end plate (14), the two ends of tube connector (15) connect respectively a cooling pipe (130), water inlet pipe (16), outlet pipe (17) is connected with a cooling pipe (130) respectively, and connected into aquaporin by part tube connector (15), cold-producing medium inlet pipe (19) is connected pipe (18) with cold-producing medium and is connected with a cooling pipe (130) respectively, and connect into coolant channel by part tube connector (15).

2. aerial cooler according to claim 1, is characterized in that, coolant channel was positioned at the rear of aquaporin.

3. aerial cooler according to claim 1, is characterized in that, tube connector (15) is the U-shaped pipe.

4. aerial cooler according to claim 1, is characterized in that, also comprises top board (12) and base plate (11), and top board (12) and base plate (11) are arranged on respectively top and the bottom of fin (13), and be connected with two end plates (14) respectively.

5. aerial cooler according to claim 1, is characterized in that, offers a plurality of through holes (140) corresponding with cooling pipe (130) position on end plate (14), and tube connector (15) is communicated with cooling pipe (130) by this through hole (140).