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a heat exchanger

A heat exchanger and header technology, applied in heat exchange equipment, evaporator/condenser, lighting and heating equipment, etc., can solve problems such as uneven secondary distribution, limited processing cost, and limited number of small holes. Achieve the effect of eliminating inertia and improving flow uniformity

Active Publication Date: 2018-07-06
ZHEJIANG DUNAN THERMAL SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] like figure 1 As shown, in the U.S. patent application with the publication number US_20100089559_A1, a method of inserting a distribution pipe in the header is disclosed to solve the problem of refrigerant distribution. However, due to the inertia of the refrigerant flow, the flow rate of several small holes near the inlet side will be affected by the backward flow inertia of the refrigerant and will be smaller than the flow rate of the subsequent small holes. The smaller the pipe diameter, the greater the flow rate, so The greater the impact of inertia, and the limitation of processing costs, the number of small holes on the distribution pipe is limited, and it is difficult for the refrigerant to flow into each flat pipe evenly after flowing out of the small holes, and there is a problem of uneven secondary distribution.
In the Chinese patent document with the application number CN200910002438.2, it is disclosed that a porous plate is inserted into the collecting pipe to separate the collecting pipe into upper and lower cavities, such as figure 2 As shown, due to the large volume of the cavity under the header, the refrigerant flow rate is low and the inertial effect is small, but the flow rate at the inlet is relatively high, so the refrigerant flow rate at the small hole near the inlet is small, and the porous plate The small holes are facing the flat tube, and because of the limited number of small holes, there is also the problem of uneven secondary liquid separation after the refrigerant flows out of the perforated plate

Method used

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Effect test

Embodiment 1

[0034] refer to Figure 3 to Figure 5 , is a heat exchanger of the present invention, including a header 1, flat tubes 2, fins 3 and a refrigerant distribution device, the flat tubes 2 are distributed along the length of the header 1, and the fins 3 are located at Between two adjacent rows of flat tubes 2 , the refrigerant distribution device includes a liquid distribution tube 4 and a baffle 5 , the baffle 5 is arranged along the length direction of the header 1 and divides the inside of the header 1 into an upper cavity 11 and the lower chamber 12, the flat tube 2 is inserted into the upper chamber of the collecting pipe, the liquid-distributing pipe 4 is inserted into the lower chamber of the collecting pipe and runs through the collecting pipe 1 along the length direction of the collecting pipe 1, and the pipe side of the liquid-distributing pipe 4 The wall is provided with a liquid outlet hole 41, and the heat exchanger is installed vertically. Baffles 5 are respectively ...

Embodiment 2

[0036] Please refer to Image 6 , the difference of this embodiment is that: the heat exchanger is installed vertically, and baffles 5 are arranged on both sides of the width direction of the liquid distribution pipe 4, and the gap between the baffle 5 on one side and the wall of the header 1 The flow gap 51 is formed, and this side is the windward side of the heat exchanger. The direction of the arrow in the figure is the wind direction. Since the flow gap 51 is arranged on the windward side, the microchannel holes in the flat tube 2 near the windward side are aligned with each other. More refrigerant is allocated to the microchannel holes of the flat tube 2 away from the windward side, and the heat transfer efficiency of the refrigerant on the windward side is higher than that of the refrigerant on the leeward side, thus improving the overall heat transfer efficiency of the heat exchanger. The liquid outlet direction of the liquid outlet hole 41 is consistent with the direct...

Embodiment 3

[0038] Please refer to Figure 7 , the difference of this embodiment is that: the heat exchanger is installed vertically, the baffle 5 is arranged above the liquid pipe 4, and both sides of the baffle 5 form an overflow gap 51 with the wall of the header 1 , the liquid outlet direction of the liquid outlet hole 41 faces the ten o'clock direction. In addition, the liquid outlet direction of the liquid outlet hole 41 can also be other directions, preferably the linear distance from the liquid outlet 41 to the overflow gap is the maximum value, at this time, the refrigerant flow distance is long, which is conducive to full mixing.

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Abstract

The invention discloses a heat exchanger which comprises a collecting pipe, flat tubes, a fin and a refrigerant distribution device; the flat tubes are distributed in the length direction of the collecting pipe; the fin is positioned between the two lines of flat tubes; the refrigerant distribution device comprises a liquid distribution pipe and a baffle; the baffle is arranged in the length direction of the collecting pipe and divides the interior of the collecting pipe into an upper cavity and a lower cavity; the flat tubes are inserted in the upper cavity of the collecting pipe; the liquid distribution pipe is inserted in the lower cavity of the collecting pipe and penetrates through the collecting pipe in the length direction of the collecting pipe; a liquid outlet allowing a refrigerant to be fed into the lower cavity is formed in the side wall of the liquid distribution pipe; a flowing clearance is formed between one side in the width direction of the baffle at least and the pipe wall of the collecting pipe; the refrigerant flows out through the liquid outlet and enters the upper cavity through the flowing clearance. After flowing through the liquid outlet, the refrigerant is well mixed in the lower cavity and then enters the upper cavity through the flowing clearance, so that the technical problem in the prior art that a perforated plate or a perforated pipe is used, and after the refrigerant flows out through the perforated plate, secondary liquid distribution is non-uniform can be solved. The invention is applied to the field of air-conditioning heat exchangers.

Description

【Technical field】 [0001] The invention is applied to the field of air conditioner heat exchangers, and in particular relates to a heat exchanger. 【Background technique】 [0002] Such as figure 1 As shown, in the U.S. patent application with the publication number US_20100089559_A1, a method of inserting a distribution pipe in the header is disclosed to solve the problem of refrigerant distribution. However, due to the inertia of the refrigerant flow, the flow rate of several small holes near the inlet side will be affected by the backward flow inertia of the refrigerant and will be smaller than the flow rate of the subsequent small holes. The smaller the pipe diameter, the greater the flow rate, so The greater the impact of inertia, and the limitation of processing cost, the number of small holes on the distribution pipe is limited, and it is difficult for the refrigerant to flow into each flat pipe evenly after flowing out of the small holes, and there is a problem of unev...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F25B39/00
CPCF25B39/00F28F1/02
Inventor 汪峰王定军朱小炯
Owner ZHEJIANG DUNAN THERMAL SCI & TECH
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