CN116481355A

CN116481355A - Liquid cooling heat exchanger for air conditioning equipment

Info

Publication number: CN116481355A
Application number: CN202310748212.7A
Authority: CN
Inventors: 郭国忠; 戴鹏飞; 陈正涛
Original assignee: Jiangsu Penghao Thermal Technology Co ltd
Current assignee: Jiangsu Penghao Thermal Technology Co ltd
Priority date: 2023-06-25
Filing date: 2023-06-25
Publication date: 2023-07-25
Anticipated expiration: 2043-06-25
Also published as: CN116481355B

Abstract

The invention relates to the technical field of heat exchange equipment, and discloses a liquid cooling heat exchanger for air conditioning equipment, which comprises a main body shell, a cover plate, bolts, a plurality of sockets and a heat exchange structure, wherein the main body shell is of a box structure without a front side wall and a left side wall, a first pipeline opening is formed in the middle of a rear side wall, a second pipeline opening is formed in the middle of a right side wall of the main body shell, and a third pipeline opening is formed in the center line of the left end of the upper wall of the main body shell; according to the invention, a sealed space is formed by the main body shell and the cover plate, so that heat exchange is promoted, and loss is prevented; the heat exchange structure can realize large-area cold and hot medium contact, so that the heat exchange efficiency and the heat exchange effect are improved; the heat exchange effect can be further enhanced by virtue of the structure of the heat conducting plate, and the effect of secondary heat exchange can be realized; the heat exchanger has the advantages of simple integral structure, rapid flow of cold medium, slow entering and rapid discharging of heat medium, and capability of fully performing heat exchange, thereby solving the problem of low heat exchange efficiency.

Description

Liquid cooling heat exchanger for air conditioning equipment

Technical Field

The invention relates to the technical field of heat exchange equipment, in particular to a liquid cooling heat exchanger for air conditioning equipment.

Background

A heat exchanger, also known as a heat exchanger or heat exchange device, is a device for transferring heat from a hot fluid to a cold fluid to meet specified process requirements, and is an industrial application of convective heat transfer and thermal conduction; the heat exchangers can be classified in different modes, and can be divided into three categories of dividing wall type, mixed type and heat accumulating type (or called regenerative type) according to the operation process; the degree of compactness of the surface can be divided into two types, compact and non-compact.

The stainless steel heat exchanger is a heat exchanger made of stainless steel material, has very good antioxidation characteristic, is safe and sanitary, and is widely applied to the fields of food, medicine, heating, domestic water, air conditioner backwater and the like; however, at present, heat exchange equipment mostly adopts a single cold and hot flowing medium to contact through a pipeline and the like to generate heat flow exchange, but the prior art mostly adopts a single pipeline to contact and radiating fins to realize the heat exchange effect, and the pipeline contact area is limited, so that the heat exchange efficiency is low, and therefore, the liquid cooling heat exchanger for the air conditioning equipment is designed.

Disclosure of Invention

The present invention is directed to a liquid-cooled heat exchanger for an air conditioner, which solves the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a liquid cooling heat exchanger for air conditioning equipment comprises a main body shell, a cover plate, bolts, a plurality of sockets and a heat exchange structure;

the main body shell is of a rectangular box structure, the front side wall and the left side wall are detachable, the middle part of the rear side wall of the main body shell is provided with a first pipeline opening, the middle part of the right side wall of the main body shell is provided with a second pipeline opening, the center line of the left end of the upper wall of the main body shell is provided with a third pipeline opening, the cover plate is detachably buckled on the left side and the front side of the main body shell, the front side wall of the cover plate is provided with a fourth pipeline opening corresponding to the first pipeline opening, the bolts respectively penetrate through the cover plate and respectively and movably screwed in the side wall edge of the main body shell, the sockets are of a T-shaped structure, the sockets are respectively and fixedly arranged on the inner upper wall of the main body shell at equal intervals, and the heat exchange structure is detachably arranged in the main body shell.

Preferably, the heat exchange structure comprises four pairs of heat conducting plates, a plurality of exchange pipes, a pair of cold water diversion boxes, a first hot water diversion box, a second hot water diversion box and a plurality of diversion pipes;

four pairs of heat conducting plates are provided with a plurality of arc-shaped pipe grooves in the middle, adjacent arc-shaped pipe grooves are respectively positioned on the left side and the right side of the heat conducting plates and are staggered and symmetrical, the upper end and the lower end of each arc-shaped pipe groove are respectively provided with a through hole, one end of each of the four pairs of heat conducting plates is respectively fixedly sleeved on a socket, the arc-shaped pipe grooves of the adjacent heat conducting plates are opposite, the plurality of arc-shaped pipe grooves on the heat conducting plates are relatively attached, the plurality of exchange pipes are respectively fixedly embedded in the arc-shaped pipe grooves of the heat conducting plates and are divided into a cold water inlet pipe and a hot water inlet pipe, a pair of cold water diversion boxes are respectively formed by a plurality of first diversion openings which are equidistantly arranged on the left side wall of a first water collection box, the middle part of the right side wall of the first water collection box is provided with a first inlet pipe with a diameter larger than the first diversion opening, the first inlet pipe opening and the outlet pipe opening of the pair of the cold water diversion boxes are respectively fixedly penetrated through the first pipe opening and the fourth pipe opening, the first diversion opening is correspondingly connected with two ends of a plurality of exchange pipes through a first pipeline respectively, the first hot water diversion box is formed by a plurality of second diversion openings arranged on the front side wall of a second water collection box at equal intervals, a second inlet and outlet pipe is arranged in the middle of the upper wall, the first hot water diversion box is fixedly arranged on the inner front side of the main body shell, the second inlet and outlet pipe penetrates through a third pipeline opening, the second diversion opening of the first hot water diversion box is respectively connected with one end of the plurality of exchange pipes through the second pipeline, the second hot water diversion box is provided with a plurality of third diversion openings arranged on the front side wall of the third water collection box, a third inlet and outlet pipe is arranged in the middle of the rear side wall of the third water collection box, the second hot water diversion box is fixedly arranged on the inner right side wall of the main body shell, the third inlet and outlet pipe penetrates through the second pipeline opening, the third diversion opening of the second hot water diversion box is respectively connected with the rear ends of the plurality of exchange holes through pipelines, the shunt tubes are of a three-way pipe structure and are in a mountain shape, two ends of the shunt tubes are respectively connected to the front ends of two adjacent exchange holes on the front side of the heat conducting plate, and the other ends of the shunt tubes are fixedly connected to the front ends of the exchange tubes between the exchange holes.

Preferably, the exchange pipes are all copper pipe structures, and cold water inlet pipes are arranged right and downwards along the cold and hot water inlet alternately at the top of the left heat conducting plate, and are connected with the cold water diversion box and the first hot water diversion box in a distinguishing way.

Preferably, the hot water inlet pipe of the exchange pipe is connected with the other end of the shunt pipe and is positioned between the two exchange holes connected with the shunt pipe.

Preferably, the heat-conducting plate is internally provided with the exchange pipes for cold water and the exchange pipes for hot water in a staggered manner in the arc-shaped pipe grooves which are relatively attached.

Preferably, the diameter of the third diversion opening on the second hot water diversion box is the same as the diameter of the exchange hole.

Preferably, the diameter of the third inlet pipe and the third outlet pipe on the second hot water diversion box is larger than that of the second inlet pipe and the second outlet pipe.

The liquid cooling heat exchanger for the air conditioning equipment has the beneficial effects that:

1. according to the invention, a sealed space is formed by the main body shell and the cover plate, so that heat exchange is promoted, and loss is prevented;

2. the invention can realize large-area cold and hot medium contact through the heat exchange structure, and improves the heat exchange efficiency and the heat exchange effect; the heat exchange effect can be further enhanced by virtue of the structure of the heat conducting plate, and the effect of secondary heat exchange can be realized;

3. the invention has simple integral structure, fast flow of cold medium, slow entering of heat medium, fast discharge and full heat exchange.

Drawings

Fig. 1 is a schematic view of the mounting structure of the present invention.

Fig. 2 is a schematic diagram of a split structure of the present invention.

Fig. 3 is a schematic view of the appearance structure of the present invention.

Fig. 4 is a schematic view of a partial enlarged structure at a in fig. 2 according to the present invention.

Fig. 5 is a schematic view of a partial enlarged structure at B in fig. 2 according to the present invention.

Fig. 6 is a schematic view of a partial enlarged structure at C in fig. 1 according to the present invention.

In the figure: 1. a main body housing; 2. a cover plate; 3. a bolt; 4. a socket; 5. a heat exchange structure; 51. a heat conductive plate; 52. exchange the tube; 53. a cold water diversion tank; 54. a first hot water diversion tank; 55. a second hot water diversion tank; 56. a shunt; 6. exchange holes; 7. an arc-shaped pipe groove; h1, a first pipeline opening; h2, second pipeline opening; h3, a third pipeline opening; h4, fourth pipeline opening.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: referring to fig. 1-6, the present invention provides a technical solution: a liquid cooling heat exchanger for air conditioning equipment comprises a main body shell 1, a cover plate 2, bolts 3, a plurality of sockets 4 and a heat exchange structure 5;

the main body shell 1 is of a rectangular box structure, the front side wall and the left side wall are detachable, the middle part of the rear side wall of the main body shell 1 is provided with a first pipeline opening H1, the middle part of the right side wall of the main body shell 1 is provided with a second pipeline opening H2, the central line of the left end of the upper wall of the main body shell 1 is provided with a third pipeline opening H3, the cover plate 2 is detachably buckled on the left side and the front side of the main body shell 1, the front side wall of the cover plate 2 is provided with a fourth pipeline opening H4 corresponding to the first pipeline opening H1, bolts 3 respectively movably penetrate through the cover plate 2 and respectively movably screwed in the side wall edge of the main body shell 1, a plurality of sockets 4 are of T-shaped structures, a plurality of sockets 4 are respectively and fixedly arranged on the inner upper wall of the main body shell 1 at equal intervals, and the heat exchange structure 5 is detachably arranged in the main body shell 1.

As a preferred solution, the heat exchange structure 5 further comprises four pairs of heat conducting plates 51, a plurality of exchange tubes 52, a pair of cold water diversion boxes 53, a first hot water diversion box 54, a second hot water diversion box 55 and a plurality of diversion tubes 56;

a plurality of arc-shaped tube slots 7 are arranged in the middle of the four pairs of heat conducting plates 51, the adjacent arc-shaped tube slots 7 are respectively positioned at the left side and the right side of the heat conducting plates 51 and are staggered and symmetrical, the upper end and the lower end of each arc-shaped tube slot 7 are respectively and fixedly sleeved on the socket 4, the arc-shaped tube slots 7 of the adjacent heat conducting plates 51 are opposite, a plurality of arc-shaped tube slots 7 on the heat conducting plates 51 are relatively attached, a plurality of exchange tubes 52 are respectively and fixedly sleeved in the arc-shaped tube slots 7 of the heat conducting plates 51 and are divided into cold water inlet tubes and hot water inlet tubes, a pair of cold water diversion boxes 53 are respectively formed by a plurality of first diversion openings on the left side wall of each first water collection box at equal intervals, the middle part of the right side wall of each first water collection box is provided with a first inlet tube with a diameter larger than the first diversion opening, the first inlet tube and outlet tubes of each pair of cold water diversion boxes 53 are respectively and fixedly penetrated through the first tube openings H1 and the fourth tube openings H4, the first split-flow opening is correspondingly connected with two ends of a plurality of exchange pipes 52 through a first pipeline, the first hot water split-flow box 54 is formed by a plurality of second split-flow openings which are equidistantly arranged on the front side wall of the second water collecting box, a second inlet and outlet pipe is arranged in the middle of the upper wall, the first hot water split-flow box 54 is fixedly arranged on the inner front side of the main body shell 1, the second inlet and outlet pipe penetrates through a third pipeline opening H3, the second split-flow opening of the first hot water split-flow box 54 is respectively connected with one end of the plurality of exchange pipes 52 through the second pipeline, the second hot water split-flow box 55 is provided with a plurality of third split-flow openings which are arranged on the front side wall of the third water collecting box, a third inlet and outlet pipe is arranged in the middle of the rear side wall, the second hot water split-flow box 55 is fixedly arranged on the inner right side wall of the main body shell 1, the third inlet and outlet pipe penetrates through the second pipeline opening H2, the third split-flow opening of the second hot water split-flow box 55 is respectively connected with the rear end of the plurality of exchange holes 6 through the pipeline, the plurality of shunt tubes 56 are of a three-way structure and are in a shape of a Chinese character 'shan', two ends of the plurality of shunt tubes 56 are respectively connected to the front ends of two adjacent exchange holes 6 on the front side of the heat conducting plate 51, and the other ends of the shunt tubes 56 are fixedly connected to the front ends of the exchange tubes 52 between the exchange holes 6.

As a preferred scheme, the exchange tubes 52 are all copper tubes, and the top of the left heat conducting plate 51 is used as cold water inlet tubes which are alternately arranged right and downward along cold and hot water inlet, and are separately connected with the cold water diversion box 53 and the first hot water diversion box 54 for designing connection requirements, realizing cold and hot alternation and promoting heat exchange.

Preferably, the hot water inlet pipe of the exchange pipe 52 is connected with the other end of the shunt pipe 56 and is positioned between the two exchange holes 6 connected with the shunt pipe 56, which is used for setting the arrangement requirement and realizing the cooperation of cold and hot alternate installation.

Preferably, the heat conducting plate 51 is provided with heat exchange pipes 52 for cold water and heat exchange pipes 52 for hot water in a staggered manner in the opposite and jointed arc-shaped pipe grooves 7.

Preferably, the hot water in the exchange tube 52 enters from the rear end of the tube and is discharged from the rear end of the exchange hole 6, so as to form circulating flow to realize secondary exchange.

Preferably, the third diversion opening on the second hot water diversion box 55 has the same diameter as the exchange hole 6, so that the connection is facilitated through a pipeline.

Preferably, the third inlet and outlet pipe diameter of the second hot water diversion box 55 is larger than the second inlet and outlet pipe diameter, so as to slow down the flow rate when hot water enters and enable quick flow when hot water is discharged.

The specific operation is as follows.

Firstly, a cold water diversion box 53 on a cover plate 2 fixed by a bolt 3 and the cold water diversion box 53 on the rear side wall of a main body shell 1 are respectively connected with cold water (cooling liquid and the like) to connect a water inlet pipe and a return pipe; simultaneously, the first hot water diversion box 54 and the second hot water diversion box 55 are respectively connected with a water inlet pipe and a return pipe of hot water (or other heat mediums) for use; cold water enters from a cold water diversion box 53 at the front side of the cover plate 2, is diverted and flows into a plurality of exchange pipes 52 (namely cold water enters the pipes) in the heat exchange structure 5, and is converged and discharged from another cold water diversion box 53 at the other end to form cold water direct-in and direct-out flow; meanwhile, hot water flows into a plurality of exchange pipes 52 from the first hot water diversion box 54 in a converging and diversion way (namely, hot water enters the pipes), flows from the rear end to the front end, flows out from one to two by means of the diversion pipe 56, flows into the exchange holes 6 to the rear end, and finally flows into the second hot water diversion box 55 in a converging way and is discharged; in the hot water flowing process, the heat can be fully contacted with the heat conducting plate 51 through the exchange tube 52 arranged in the arc-shaped tube groove 7, and the heat is transferred in a large flow by the heat conducting plate 51 and is transferred to the exchange tube 52 flowing with cold water on the same heat conducting plate 51, so that the full heat exchange is realized; meanwhile, as the heat-conducting plates 51 are arranged in a staggered way relatively through the socket 4, and part of the arc-shaped pipe grooves 7 are relatively attached, the heat exchange between the real cold water exchange pipe 52 and the hot water exchange pipe 52 is carried out again through the contact of the arc-shaped pipe grooves 7, so that the heat exchange efficiency is further improved; and after part of heat is transferred to the cold water exchange tube 52 and medium is not obtained, the heat flows through the exchange hole 6 and contacts the cold water exchange tube 52 at the upper side and the lower side of the exchange hole 6, so that third heat exchange is realized, and the overall heat exchange effect is enhanced; and the hot water is pressurized by the second hot water diversion box 55 to be discharged quickly when entering the pressure and flowing slowly.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A liquid-cooled heat exchanger for an air conditioning apparatus, characterized in that: comprises a main body shell (1), a cover plate (2), bolts (3), a plurality of sockets (4) and a heat exchange structure (5);

the utility model discloses a novel heat exchanger for the solar cell module, including main body shell (1), a plurality of sockets (4), a plurality of heat exchange structure (5) are installed in main body shell (1) in the equidistance fixed mounting respectively, main body shell (1) is rectangular box structure, and preceding lateral wall and left side wall can dismantle, first pipeline mouth (H1), second pipeline mouth (H2) and third pipeline mouth (H3) have been seted up on main body shell (1) lateral wall to main body shell (1) are dismantled for rectangle box structure, and preceding lateral wall and left side wall can dismantle, bolt (3) are movable throughout respectively in apron (2) and are movable the joint respectively in main body shell (1) lateral wall edge in, a plurality of socket (4) are T font structure, a plurality of socket (4) equidistance fixed mounting respectively in main body shell (1) upper wall, heat exchange structure (5) can dismantle the setting in main body shell (1).

2. The liquid-cooled heat exchanger for an air conditioner according to claim 1, wherein: the heat exchange structure (5) comprises four pairs of heat conducting plates (51), a plurality of exchange pipes (52), a pair of cold water diversion boxes (53), a first hot water diversion box (54), a second hot water diversion box (55) and a plurality of diversion pipes (56);

four pairs of heat conducting plates (51) are provided with a plurality of arc-shaped pipe grooves (7) in the middle, the adjacent arc-shaped pipe grooves (7) are respectively positioned in the left side and the right side of the heat conducting plates (51) in a staggered and symmetrical mode, the upper end and the lower end of each arc-shaped pipe groove (7) are respectively and fixedly sleeved on a socket (4), one end of each heat conducting plate (51) is fixedly sleeved on each socket, the arc-shaped pipe grooves (7) of the adjacent heat conducting plates (51) are oppositely corresponding, the arc-shaped pipe grooves (7) on the heat conducting plates (51) are oppositely attached, a plurality of exchange pipes (52) are respectively and fixedly embedded in the arc-shaped pipe grooves (7) of the heat conducting plates (51) and are divided into cold water inlet pipes and hot water inlet pipes, the pair of cold water diversion boxes (53) are respectively formed by a plurality of first diversion openings which are equidistantly arranged on the left side wall of the first water collection box, the middle part of the right side wall of the first water collection box is provided with a first inlet pipe with the diameter larger than that of the first diversion openings, the first inlet pipe and the outlet pipe of the pair of cold water diversion boxes (53) respectively penetrate through the first pipeline opening (H1) and the fourth pipeline opening (H4) in a fixed mode, the first diversion openings are respectively connected with two ends of a plurality of exchange pipes (52) in a corresponding mode through the first pipeline, the first hot water diversion boxes (54) are respectively formed by a plurality of second diversion openings which are equidistantly arranged on the front side wall of the second water collection box, the middle part of the upper wall is provided with a second inlet pipe, the first hot water diversion boxes (54) are fixedly arranged on the front side in the main body shell (1), and the second business turn over pipe runs through in third pipeline mouth (H3), the second branching mouth of first hot water reposition of redundant personnel case (54) links to each other with a plurality of exchange tube (52) wherein one end through the second pipeline respectively, second hot water reposition of redundant personnel case (55) have that third header tank front side wall is provided with a plurality of third branching mouth and constitute, and the back lateral wall middle part is provided with the third business turn over pipe, second hot water reposition of redundant personnel case (55) are fixed to be settled on main part shell (1) inner right side wall, and the third business turn over pipe runs through in second pipeline mouth, the third branching mouth of second hot water reposition of redundant personnel case (55) links to each other with a plurality of exchange hole (6) rear end through the pipeline respectively, a plurality of shunt tubes (56) are three-way structure, and become the mountain shape, a plurality of shunt tubes (56) wherein both ends are connected respectively on the front end of two adjacent exchange hole (6) of heat conduction board (51), and shunt tubes (56) other one end fixed connection are in exchange tube (52) front end between exchange hole (6).

3. A liquid-cooled heat exchanger for an air conditioning apparatus as recited in claim 2, wherein: the exchange pipes (52) are all copper pipe structures, cold water inlet pipes are arranged right and downwards along cold and hot water inlet alternately at the top of the left end heat conducting plate (51), and are connected with the cold water diversion box (53) and the first hot water diversion box (54) in a differentiated mode.

4. A liquid-cooled heat exchanger for an air conditioning apparatus as recited in claim 3, wherein: the hot water inlet pipe of the exchange pipe (52) is connected with the other end of the shunt pipe (56) and is positioned between the two exchange holes (6) connected with the shunt pipe (56).

5. The liquid-cooled heat exchanger for an air conditioner according to claim 4, wherein: exchange pipes (52) for cold water and exchange pipes (52) for hot water are respectively and alternately arranged on the arc-shaped pipe grooves (7) which are oppositely attached to the heat conducting plate (51).

6. The liquid-cooled heat exchanger for an air conditioner according to claim 5, wherein: the diameter of a third diversion opening on the second hot water diversion box (55) is the same as that of the exchange hole (6).

7. The liquid-cooled heat exchanger for an air conditioner as recited in claim 6, wherein: the diameter of a third inlet pipe and a third outlet pipe on the second hot water diversion box (55) is larger than that of the second inlet pipe and the second outlet pipe.