CN211600897U

CN211600897U - Top-mounted heat exchanger structure

Info

Publication number: CN211600897U
Application number: CN201922469795.1U
Authority: CN
Inventors: 邱东; 彭利平
Original assignee: Wuxi Laiduoxin Technology Co ltd
Current assignee: Wuxi Laiduoxin Technology Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-09-29
Anticipated expiration: 2029-12-31

Abstract

A top-mounted heat exchanger structure can reduce the size of a heat exchanger, is convenient to mount in a limited space, can prevent rainwater from entering, can prevent accumulated snow from blocking an outer circulating air inlet and an outer circulating air outlet, can prevent rainwater without using a rain cover, and can reduce the investment cost And the external circulation air outlets are respectively arranged on the side end surfaces of the heat exchanger shell.

Description

Top-mounted heat exchanger structure

Technical Field

The utility model relates to a heat exchanger technical field specifically is a top-mounted heat exchanger structure.

Background

The heat exchanger is a device for transferring heat from a heat transfer fluid to a cold fluid to meet the specified process requirements, the heat exchanger on the market is a top-mounted heat exchanger, the structure of the common top-mounted heat exchanger is shown in fig. 1, the common top-mounted heat exchanger is generally mounted on the top surface of a house or the top of a cabinet, the heat exchange medium is a heat exchange core 11, the heat exchange core 11 is mounted in the middle of a heat exchanger shell 1, an outer fan 33 for realizing outer circulation and an inner fan 23 for realizing inner circulation are respectively mounted on two sides of the heat exchange core 11, the outer fan 33 is mounted in an outer circulation system, the inner fan 23 is mounted in the inner circulation system, the inner circulation system 2 further comprises an inner circulation air inlet 21 and an inner circulation air outlet 22, the outer circulation system 3 further comprises an outer circulation air inlet 31 and an outer circulation air outlet 32, however, the inner circulation system 2 and the outer circulation system 3 in the, make whole size great, be unfavorable for installing in restricted space, and extrinsic cycle wind air intake 31, extrinsic cycle wind air outlet 32 are all installed on 1 top terminal surface of heat exchanger casing, easily exist the rainwater and easily get into, extrinsic cycle wind air intake 31, extrinsic cycle wind air outlet 32 is easily blockked up the scheduling problem by snow, consequently when normal use, need be at 1 top installation rain-proof cover of heat exchanger casing, the use of rain-proof cover not only brings the difficulty for the installation operation, and the input cost has been increased.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a top-mounted heat exchanger structure, it can reduce the heat exchanger size, is convenient for install in the restricted space, and can prevent that the rainwater from getting into, can prevent simultaneously that snow from plugging up outer air intake, extrinsic cycle air outlet, need not to use rain-proof cover can rain-proof water, can reduce the input cost.

The top-mounted heat exchanger structure comprises a heat exchanger shell, wherein an inner circulating system and an outer circulating system are arranged in the heat exchanger shell, the inner circulating system comprises an inner circulating air inlet, an inner circulating air outlet and an inner fan, the outer circulating system comprises an outer circulating air inlet, an outer circulating air outlet and an outer fan, and the inner circulating system and the outer circulating system are separated through a partition plate.

The heat pipe I and the heat pipe II are obliquely arranged in the inner circulating system and the outer circulating system respectively;

and the outer circulating air inlet and the outer circulating air outlet are respectively provided with a louver, and the louvers are arranged in a downward inclined manner.

Adopt the above structure of the utility model can reach following beneficial effect: the outer circulation system and the inner circulation system are arranged in the air conditioner shell in parallel from top to bottom, the transverse size of the whole heat exchanger can be reduced, and therefore the installation requirement that the transverse space area is limited can be met.

Drawings

FIG. 1 is a schematic front view of a conventional top-mounted heat exchanger;

fig. 2 is a schematic view of the structure of the present invention;

fig. 3 is a schematic perspective view of the external circulation system of the present invention.

Detailed Description

Referring to fig. 2 and 3, a top-mounted heat exchanger structure comprises a heat exchanger shell 1, an inner circulation system 2 and an outer circulation system 3 are arranged in the heat exchanger shell 1, the inner circulation system 2 comprises an inner circulation air inlet 21, an inner circulation air outlet 22 and an inner fan 23, the outer circulation system 3 comprises an outer circulation air inlet 31, the heat exchanger comprises an outer circulating air outlet 32 and an outer fan 33, an inner circulating system 2 and an outer circulating system 3 are separated by a partition plate 4, the outer circulating system 2 and the inner circulating system 3 are arranged in parallel from top to bottom, the inner circulating system 2 is arranged at the bottom of a heat exchanger shell 1, the outer circulating system 3 is arranged at the top of the heat exchanger shell 1, a first heat pipe 24 is installed in the outer circulating system 2, a second heat pipe 34 is installed in the inner circulating system 3, and an outer circulating air inlet 31 and an outer circulating air outlet 32 are respectively arranged on the side end face of the heat exchanger; the first heat pipe 24 and the second heat pipe 34 are obliquely arranged in the inner circulation system and the outer circulation system respectively; the first heat pipe 24 is an existing condensation heat pipe and has a condensation function, and the second heat pipe 34 is an existing evaporation heat pipe and can play a role in evaporation and heat absorption;

the outer circulation air inlet 31 and the outer circulation air outlet 32 are respectively provided with a louver 35, the louver 35 is arranged in a downward inclined mode, and the downward inclined louver 35 can further prevent rainwater from entering the shell of the heat exchanger.

Claims

1. The top-mounted heat exchanger structure comprises a heat exchanger shell, wherein an inner circulating system and an outer circulating system are arranged in the heat exchanger shell, the inner circulating system comprises an inner circulating air inlet, an inner circulating air outlet and an inner fan, the outer circulating system comprises an outer circulating air inlet, an outer circulating air outlet and an outer fan, and the inner circulating system and the outer circulating system are separated through a partition plate.

2. The top-loading heat exchanger structure as claimed in claim 1, wherein the first and second heat pipes are obliquely arranged in the inner circulation system and the outer circulation system, respectively.

3. The top-loading heat exchanger structure as claimed in claim 1, wherein the external circulation air inlet and the external circulation air outlet are respectively provided with louvers, and the louvers are arranged in a downward inclination.