TW202127995A - Multi-flow-channel type efficient heat dissipation water cooling row - Google Patents

Abstract

The invention discloses a multi-flow-channel type efficient heat dissipation water cooling row. The multi-flow-channel type efficient heat dissipation water cooling row comprises a flow dividing groove, a water collecting groove, first row pipes, second row pipes, third row pipes and fourth row pipes. The flow dividing groove is made of heat dissipation metal materials, a plurality of first flow dividing water-stop plates are arranged in the flow dividing groove to divide the interior of the flow dividing groove into a water inlet cavity, a transition cavity and a water outlet cavity, and the water collecting groove is also made of heat dissipation metal materials. A plurality of second flow dividing water-stop plates are arranged in the water collecting groove to divide the interior of the water collecting groove into a first water collecting cavity and a second water collecting cavity, the flow dividing water-stop plates are arranged in the flow dividing groove and the water collecting groove to form a plurality of cavities, and all row pipes are arranged in a matched manner to be communicated with the corresponding cavities. Flow channels in the water cooling row are of a plurality of circuitous structures which are connected in sequence, the flowing stroke of water in the water cooling row is effectively prolonged, the water can be effectively and fully cooled and dissipated, and the overall heat dissipation effect of the water cooling row is very good.

Description

Multi-channel high-efficiency heat dissipation water cooling row

The invention relates to a radiator field technology, in particular to a multi-channel type high-efficiency heat-radiating water-cooling row used for water cooling and heat dissipation.

Water-cooled radiator refers to the use of liquid to force a loop to take away the heat of the radiator under the drive of a pump. Compared with air cooling, it has the advantages of quietness, stable cooling, and less dependence on the environment. It is often used for electronic components or other components that require heat dissipation. field. The heat dissipation performance of a water-cooled radiator is directly proportional to the flow rate of the cooling fluid (water or other liquid). The flow rate of the cooling fluid is related to the power of the water pump in the refrigeration system, and the heat capacity of water is large, which makes the water-cooled refrigeration system have a good heat load. ability.

The current water-cooled radiator usually consists of a water-cooled radiator, a water-cooled head and a water pipe. The water pipe is connected between the water-cooled radiator and the water-cooled head. The water pipe is used to make the water in the water-cooled radiator and the water-cooled flow circularly. After the water absorbs heat on the water-cooled head, It enters the water-cooled row to dissipate heat, and the heat-dissipated water returns to the water-cooled head.

In the prior art, the flow channel of the water-cooled radiator of the water-cooled radiator is U-shaped, so that the water flow in the water-cooled radiator is shorter, and the water cannot be effectively cooled and dissipated. Therefore, it is necessary to improve the current water cooling row.

The object of the present invention is to provide a multi-channel high-efficiency heat-radiating water-cooling row, which passes through a branch tank, a water collection tank and a plurality of first, second, third and fourth rows of tubes. It can effectively solve the problem that the existing water cooling radiator cannot effectively cool the water and dissipate heat.

In order to achieve the above objective, the multi-channel high-efficiency heat dissipation water-cooled row of the present invention has a preferred technical solution including a branching trough, a water collection trough, a first row of tubes, a second row of tubes, a third row of tubes, and a fourth row of tubes ,in:

The diverting groove is made of heat-dissipating metal material, and a plurality of first diverging water blocking plates are arranged in the diverging groove to separate the interior of the diverging groove to form an inlet chamber, a transition chamber, and an outlet chamber. There is a water inlet hole, a water outlet hole, a first installation groove, a second installation groove and a third installation groove. The water inlet hole and the first installation groove are both connected to the water inlet chamber, and the water outlet hole and the Both installation grooves communicate with the water outlet chamber, and the third installation groove communicates with the transition chamber;

The water collection tank is also made of heat-dissipating metal material, and a plurality of second water dividers are arranged in the water collection tank to separate the inside of the water collection tank to form a first water collection chamber and a second water collection chamber. The water tank is provided with a fourth installation groove and a fifth installation groove, the fourth installation groove communicates with the first water collection chamber, and the fifth installation groove communicates with the second water collection chamber;

The first row of tubes, the second row of tubes, the third row of tubes, and the fourth row of tubes are all provided with radiating fins; The chamber is connected, and the other end of the first row of tubes is sealed and installed in the corresponding fourth installation groove and communicated with the first water collection chamber; one end of the second row of tubes is sealed and installed on the corresponding first In the three installation grooves and communicate with the transition chamber, the other end of the second row of pipes is sealed and installed in the corresponding fourth installation groove and communicated with the first water collection chamber; one end of the third row of pipes The part is sealedly installed in the third installation groove and communicated with the transition chamber, and the other end of the third row of pipes is installed in the corresponding fifth installation groove and communicated with the second water collection chamber in a sealing manner; One end of the fourth row of tubes is hermetically installed in the second installation groove and communicated with the water outlet chamber, and the other end of the fourth row of tubes is hermetically installed in the corresponding fifth installation groove and connected with the second assembly. The water chamber is connected.

As a preferred solution, in the above-mentioned multi-channel high-efficiency heat dissipation water-cooling row, there are two transition chambers, the two transition chambers are located between the water inlet chamber and the water outlet chamber, and a water collection tank is formed The third water collection chamber, the third water collection chamber is located between the first water collection chamber and the second water collection chamber, the water collection tank is provided with a sixth installation groove, the sixth installation groove and The third water collection chamber is connected, each transition chamber and the third water collection chamber are communicated with each other through the fifth row of tubes, and one end of each fifth row of tubes is sealed and installed in the corresponding third In the installation groove, the other end of each fifth row of tubes is sealed and installed in the corresponding sixth installation groove.

As a preferred solution, in the above-mentioned multi-channel high-efficiency radiating water-cooling row, the shunting groove includes a first box body and a first box cover, and the first shunt baffle is disposed on the first box body by welding or integrally formed. In a box body, the first box cover and the first box body are sealed and fixed to form the water inlet chamber, the transition chamber and the water outlet chamber.

As a preferred solution, in the above-mentioned multi-channel high-efficiency radiating water cooling row, the water inlet hole and the water outlet hole are both provided on the first box body, and a water inlet pipe joint is sealed and installed in the water inlet hole, and the water outlet hole A water outlet pipe joint is installed in the middle seal; the first installation groove, the second installation groove and the third installation groove are all arranged on the first box cover.

As a preferred solution, in the above-mentioned multi-channel high-efficiency radiating water-cooling radiator, the water inlet pipe joint is inserted into the water inlet hole and is sealed and fixed to the first box body by welding, and the water outlet pipe joint is inserted into the water outlet hole and Sealed installation and fixation with the first box body by welding.

As a preferred solution, in the above-mentioned multi-channel high-efficiency radiating water-cooled radiator, the first box body and the first box cover are made of copper or aluminum, and the first box cover is sealed and fixed to the first box body by welding. .

As a preferred solution, in the above-mentioned multi-channel high-efficiency radiating water-cooling radiator, the water collection tank includes a second box body and a second box cover, and the second water divider is arranged on the In the second box body, the second box cover and the second box body are sealed and fixed to form the first water collection chamber and the second water collection chamber.

As a preferred solution, in the above-mentioned multi-channel high-efficiency heat dissipation water-cooling row, the fourth installation groove and the fifth installation groove are both provided on the second box cover.

As a preferred solution, in the above-mentioned multi-channel high-efficiency radiating water-cooled radiator, the second box body and the second box cover are made of copper or aluminum, and the second box cover is sealed and fixed to the second box body by welding. .

As a preferred solution, in the above-mentioned multi-channel high-efficiency heat dissipation water-cooling row, two fan fixing brackets are connected between the shunt tank and the water collection tank, and the two fan fixing brackets are arranged on the left and right. The tube, the third row of tubes, and the fourth row of tubes are located between the two fan fixing brackets. The first, second, third and fourth rows of tubes are all heat-dissipating metal flat tubes or heat-dissipating metal round tubes. Tube.

It can be seen from the above technical solutions that the present invention has obvious advantages and beneficial effects compared with the prior art. Specifically, a plurality of chambers are formed by arranging a flow divider in both the flow dividing groove and the water collecting groove, and Cooperate with each row pipe to communicate with the corresponding chamber, so that the flow channel in this product has multiple circuitous structures connected in sequence, which effectively prolongs the flow stroke of water in the water-cooled row, so that the water can effectively cool down and dissipate heat. The overall heat dissipation effect is very good.

The structural features and other functions and purposes of the present invention are described in detail according to the embodiments of the drawings as follows:

1 and 2, the first preferred embodiment of the present invention is a multi-channel high-efficiency heat dissipation water-cooling row. The first preferred embodiment includes a branch tank 10, a water collection tank 20, a plurality of first row tubes 31, and a plurality of The second row of tubes 32, the plurality of third rows of tubes 33, and the plurality of fourth rows of tubes 34, wherein:

The shunt groove 10 is made of heat-dissipating metal material. A plurality of first shunt water blocking plates 11 are arranged in the shunt groove 10 to separate the inside of the shunt groove 10 to form an inlet chamber 101, a transition chamber 102, and a water outlet chamber. Room 103, the branch groove 10 is provided with a water inlet 104, a water outlet 105, a first installation groove 106, a second installation groove 107 and a third installation groove 108; the water inlet 104 and the first installation The grooves 106 all communicate with the water inlet chamber 101, the water outlet hole 105 and the second installation groove 107 both communicate with the water outlet chamber 103, and the third installation groove 108 communicates with the transition chamber 102. Specifically, the above-mentioned diverging tank 10 includes a first box body 12 and a first box cover 13, and the above-mentioned first diverging water blocking plate 11 is arranged in the first box body 12 by welding or integral molding. The first box cover 13 and the first box body 12 are sealed and fixed to form the aforementioned water inlet chamber 101, transition chamber 102, and water outlet chamber 103. The water inlet hole 104 and the water outlet hole 105 are both provided in the first box body 12, a water inlet pipe joint 41 is sealedly installed in the water inlet hole 104, and a water outlet pipe joint 42 is sealedly installed in the water outlet hole 105; the first installation groove 106, the second installation groove 107 and the third installation groove 108 are all provided On the first cover 13. And, the water inlet pipe joint 41 is inserted into the water inlet hole 104 and sealed and installed and fixed with the first box body 12 by welding, and the water outlet pipe joint 42 is inserted into the water outlet hole 105 and is sealed and installed and fixed with the first box body 12 by welding. The first box body 12 and the first box cover 13 are made of copper or aluminum, and the first box cover 13 is sealed and fixed to the first box body 12 by welding.

The water collection tank 20 is also made of heat-dissipating metal material. A plurality of second water dividing and blocking plates 21 are arranged in the water collection tank 20, and the inside of the water collection tank 20 is divided to form a first water collection chamber 201 and a second water collection chamber. 202, the water collection tank 20 is provided with a fourth installation groove 203 and a fifth installation groove 204, the fourth installation groove 203 is connected to the first water collection chamber 201, and the fifth installation groove 204 is connected to the second water collection chamber 202 . Specifically, the water collection tank 20 includes a second box body 22 and a second box cover 23. The above-mentioned second flow divider plate 21 is installed in the second box body 22 by welding or integral molding. The second box cover 23 and the second box body 22 are sealed and fixed to form the aforementioned first water collection chamber 201 and the second water collection chamber 202; the fourth installation groove 203 and the fifth installation groove 204 are both provided in the On the second box cover 23; the second box body 22 and the second box cover 23 are made of copper or aluminum, and the second box cover 23 is sealed and fixed to the second box body 22 by welding.

The first row of tubes 31, the second row of tubes 32, the third row of tubes 33, and the fourth row of tubes 34 are all provided with radiating fins 50; in this embodiment, the first row of tubes 31, the second row of tubes 32. The third row of tubes 33 and the fourth row of tubes 34 are both heat-dissipating metal flat tubes, of course, they can also be heat-dissipating metal round tubes, without limitation, the first row of tubes 31, the second row of tubes 32, and the third row Both ends of the pipe 33 and the fourth row of pipes 34 are welded and fixed to the branch tank 10 and the water collection tank 20 respectively. Specifically: one end of the first row of tubes 31 is sealed and installed in the first installation groove 106 and communicated with the water inlet chamber 101, and the other end of the first row of tubes 31 is sealed and installed in the corresponding fourth installation groove 203 The middle part is connected to the first water collection chamber 201; in this embodiment, the first row of tubes 31 are two arranged side by side at an interval, but it is not limited.

One end of the second row of tubes 32 is sealed and installed in the corresponding third installation groove 108 and communicated with the transition chamber 102, and the other end of the second row of tubes 32 is sealed and installed in the corresponding fourth installation groove 203 and connected with the transition chamber 102. The first water collection chamber 201 is in communication; in this embodiment, the second row of tubes 32 are two arranged side by side at an interval, but it is not limited.

One end of the third row of tubes 33 is sealed and installed in the third installation groove 108 and communicated with the transition chamber 102, and the other end of the third row of tubes 33 is sealed and installed in the corresponding fifth installation groove 204 and connected with the second installation groove 204. The water collection chamber 202 is in communication; in this embodiment, the third row of tubes 33 are two arranged side by side at an interval, but it is not limited.

One end of the fourth row of tubes 34 is installed in the second installation groove 107 in a sealed manner and communicated with the water outlet chamber 103, and the other end of the fourth row of tubes 34 is installed in a sealed manner in the corresponding fifth installation groove 204 and connected with the second installation groove 107. The water collection chamber 202 is in communication; in this embodiment, the fourth row of tubes 34 are six arranged side by side at intervals, but it is not limited.

In addition, two fan fixing brackets 60 are connected between the branch tank 10 and the water collection tank 20, and the two fan fixing brackets 60 are arranged on the left and right sides. The first row of tubes 31, the second row of tubes 32, the third row of tubes 33 and The fourth row of tubes 34 is located between the two fan fixing brackets 60, so that the overall structure of the product is more stable, and the fan can be installed and fixed.

The working principle of this embodiment is described in detail as follows:

When in use, as shown in Figure 2, water with a higher temperature enters the water inlet chamber 101 from the water inlet pipe joint 41, and then the water flows through the first row pipe 31, the first water collection chamber 201, and the second row pipe in sequence. 32. The transition chamber 102, the third row pipe 33, the second water collection chamber 202, the fourth row pipe 34 and the water outlet chamber 103, and finally the water is output from the outlet pipe joint 42, and the water is flowing through the water inlet chamber 101 , The first row of tubes 31, the first water collection chamber 201, the second row of tubes 32, the transition chamber 102, the third row of tubes 33, the second water collection chamber 202, the fourth row of tubes 34 and the water outlet chamber 103 During the process, the temperature gradually decreases, and the temperature of the water output from the outlet pipe joint 42 is lower, which achieves a good cooling and heat dissipation effect.

Please refer to FIGS. 3 and 4, which show the specific structure of the second preferred embodiment of the present invention. The specific structure of this embodiment is basically the same as the specific structure of the first preferred embodiment described above, with the differences Is:

In this embodiment, there are two transition chambers 102 described above. The two transition chambers 102 are located between the water inlet chamber 101 and the water outlet chamber 103, and a third water collection chamber is formed in the water collection tank 20. The third water collection chamber 205 is located between the first water collection chamber 201 and the second water collection chamber 202, the water collection tank 20 is provided with a sixth installation groove 206, the sixth installation groove 206 is connected to the third water collection chamber 205, each transition chamber 102 and the third water collection chamber 205 are connected through a fifth row of tubes 35, and one end of each fifth row of tubes 35 is sealed and installed in the corresponding In the third installation groove 108, the other end of each fifth row of tubes 35 is sealed and installed in the corresponding sixth installation groove 206, which can extend the stroke of water in the product and achieve a better cooling and heat dissipation effect.

The working principle of this embodiment is basically the same as the working principle of the first preferred embodiment, and the working principle of this embodiment will not be described in detail here.

The key point of the design of the present invention is to form a plurality of chambers by arranging a flow divider in the branch tank 10 and the water collection tank 20, and arrange each row pipe to communicate with the corresponding chamber, so that the The flow channel has multiple circuitous structures connected in sequence, which effectively prolongs the flow of water in the water-cooled row, so that the water can effectively cool down and dissipate heat, and the overall heat dissipation effect of the product is very good.

The above are only preferred embodiments of the present invention, and do not limit the technical scope of the present invention. Therefore, any minor modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present invention are still valid. It belongs to the scope of the technical solution of the present invention.

In summary, the multi-channel high-efficiency radiating water-cooling radiator of the present invention has indeed practicability and creativity, and the application of its technical means is undoubtedly novel, and the efficacy and design goals are indeed in line with it, and it has been said that it has been reasonable and improved. . For this reason, I filed an application for a patent for invention in accordance with the law, but I implore the Jun Bureau for a detailed review and grant the patent as a prayer.

10: Diversion tank 11: The first shunt baffle 12: The first box 13: The first box cover 101: Water inlet chamber 102: Transition chamber 103: Outlet chamber 104: water inlet 105: water outlet 106: The first installation slot 107: second installation slot 108: Third installation slot 20: Sump 21: The second splitter baffle 22: The second box 23: second box cover 201: The first collection chamber 202: The second collection chamber 203: The fourth installation slot 204: Fifth installation slot 205: The third collection chamber 206: Sixth installation slot 31: The first row of tubes 32: The second row of tubes 33: The third row of tubes 34: The fourth row of tubes 35: The fifth row of tubes 41: Water inlet pipe joint 42: Outlet pipe joint 50: cooling fins 60: Fan fixing bracket

[Figure 1] is an exploded schematic view of the first preferred embodiment of the present invention. [Figure 2] is a schematic top view of the first preferred embodiment of the present invention. [Figure 3] is an exploded schematic view of the second preferred embodiment of the present invention. [Figure 4] is a schematic top view of the second preferred embodiment of the present invention.

10: Diversion tank

11: The first shunt baffle

12: The first box

13: The first box cover

101: Water inlet chamber

102: Transition chamber

103: Outlet chamber

104: water inlet

105: water outlet

106: The first installation slot

107: second installation slot

108: Third installation slot

20: Sump

21: The second splitter baffle

22: The second box

23: second box cover

201: The first collection chamber

202: The second collection chamber

203: The fourth installation slot

204: Fifth installation slot

31: The first row of tubes

32: The second row of tubes

33: The third row of tubes

34: The fourth row of tubes

41: Water inlet pipe joint

42: Outlet pipe joint

50: cooling fins

60: Fan fixing bracket

Claims (10)

A multi-channel type high-efficiency heat-radiating water-cooling row, comprising: a branch tank, a water collection tank, a first row of pipes, a second row of pipes, a third row of pipes, and a fourth row of pipes; The diverting groove is made of heat-dissipating metal material, and a plurality of first diverging water blocking plates are arranged in the diverging groove to separate the interior of the diverging groove to form an inlet chamber, a transition chamber, and an outlet chamber. There is a water inlet hole, a water outlet hole, a first installation groove, a second installation groove and a third installation groove. The water inlet hole and the first installation groove are both connected to the water inlet chamber, and the water outlet hole and the Both installation grooves communicate with the water outlet chamber, and the third installation groove communicates with the transition chamber; The water collection tank is also made of heat-dissipating metal material, and a plurality of second water dividers are arranged in the water collection tank to separate the inside of the water collection tank to form a first water collection chamber and a second water collection chamber. The water tank is provided with a fourth installation groove and a fifth installation groove, the fourth installation groove communicates with the first water collection chamber, and the fifth installation groove communicates with the second water collection chamber; The first row of tubes, the second row of tubes, the third row of tubes, and the fourth row of tubes are all provided with radiating fins; The chamber is connected, and the other end of the first row of tubes is sealed and installed in the corresponding fourth installation groove and communicated with the first water collection chamber; one end of the second row of tubes is sealed and installed on the corresponding first The other end of the second row of pipes is sealed in the corresponding fourth installation groove and communicated with the first water collection chamber; one end of the third row of pipes The part is sealedly installed in the third installation groove and communicated with the transition chamber, and the other end of the third row of pipes is installed in the corresponding fifth installation groove and communicated with the second water collection chamber in a sealing manner; One end of the fourth row of tubes is hermetically installed in the second installation groove and communicated with the water outlet chamber, and the other end of the fourth row of tubes is hermetically installed in the corresponding fifth installation groove and connected with the second assembly. The water chamber is connected. The multi-channel high-efficiency radiating water-cooling radiator according to claim 1, wherein there are two transition chambers, the two transition chambers are located between the water inlet chamber and the water outlet chamber, and a water collection tank is formed The third water collection chamber, the third water collection chamber is located between the first water collection chamber and the second water collection chamber, the water collection tank is provided with a sixth installation groove, the sixth installation groove and The third water collection chamber is connected, each transition chamber and the third water collection chamber are communicated with each other through the fifth row of tubes, and one end of each fifth row of tubes is sealed and installed in the corresponding third In the installation groove, the other end of each fifth row of tubes is sealed and installed in the corresponding sixth installation groove. The multi-channel high-efficiency heat-radiating water-cooling row according to claim 1 or 2, wherein the shunt groove includes a first box body and a first box cover, and the first shunt baffle is arranged in welding or integrally formed In the first box body, the first box cover and the first box body are sealed and fixed to form the water inlet chamber, the transition chamber and the water outlet chamber. The multi-channel high-efficiency radiating water-cooling radiator according to claim 3, wherein the water inlet hole and the water outlet hole are both provided on the first box body, and a water inlet pipe joint is sealed and installed in the water inlet hole, and the water outlet hole A water outlet pipe joint is installed in the middle seal; the first installation groove, the second installation groove and the third installation groove are all arranged on the first box cover. The multi-channel high-efficiency radiating water-cooled radiator according to claim 4, wherein the water inlet pipe joint is inserted into the water inlet hole and is sealed and installed with the first box body by welding, and the water outlet pipe joint is inserted into the water outlet hole and Sealed installation and fixation with the first box body by welding. The multi-channel high-efficiency radiating water-cooling radiator according to claim 3, wherein the first box body and the first box cover are made of copper or aluminum, and the first box cover is sealed and fixed to the first box body by welding . The multi-channel high-efficiency radiating water-cooling radiator according to claim 1 or 2, wherein the water collection tank includes a second box body and a second box cover, and the second water dividing plate is arranged by welding or integral molding In the second box body, the second box cover and the second box body are sealed and fixed to form the first water collection chamber and the second water collection chamber. According to claim 7, the multi-channel type high-efficiency heat dissipation water-cooling radiator, wherein the fourth installation groove and the fifth installation groove are both arranged on the second box cover. The multi-channel high-efficiency radiating water-cooled radiator according to claim 7, wherein the second box body and the second box cover are made of copper or aluminum, and the second box cover is sealed and fixed to the second box body by welding . According to claim 1 or 2, the multi-channel high-efficiency radiating water-cooling row, wherein two fan fixing brackets are connected between the shunt trough and the water collection trough, the two fan fixing brackets are arranged on the left and right, the first row of tubes, the first The second row of tubes, the third row of tubes and the fourth row of tubes are located between the two fan fixing brackets. The first row of tubes, the second row of tubes, the third row of tubes and the fourth row of tubes are all heat-dissipating metal flat tubes or heat sinks. Metal round tube.

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