CN210377342U - Water-cooling row - Google Patents

Abstract

The utility model discloses a water-cooling row, which relates to the technical field of water-cooling radiators and comprises a first liquid pipe, a lower water tank and an upper water tank which are mutually opposite, a plurality of second liquid pipes and a plurality of fins; the second liquid pipe is communicated with the lower water tank and the upper water tank; the lower water tank is provided with a quick connector for communicating the water cooling head in a penetrating way; the first end of the first liquid pipe is connected with the upper water tank, and the second end of the first liquid pipe is provided with another quick connector for communicating the water-cooled head in a penetrating manner; fins are arranged between every two adjacent second liquid pipes in an inserting mode, and fins are also arranged between the first liquid pipes and the adjacent second liquid pipes in an inserting mode. The utility model mainly solves the problem that the liquid pipe of the water cooling drainage is easy to be blocked, thereby affecting the performance of the water cooling radiator; the same volume of water cooled rows, in which the number of tubes (i.e., the second tube) through which the water cooled fluid flows in the same direction is greater than the prior art water cooled rows, have a slight effect on the performance of the rows even if the second tube is blocked compared to the prior art water cooled rows.

Description

Water-cooling row

Technical Field

The utility model relates to a water-cooling radiator technical field specifically is a water-cooling row.

Background

At present, the heat productivity of the CPU and the graphics card of the computer is large, and many users choose to configure a water-cooling radiator for the computer.

The water-cooled radiator in the prior art comprises a water-cooled head and a water-cooled row; as shown in fig. 9, the related art water cooling bank includes a first tank 10, a second tank 20, a plurality of liquid pipes 30, and a plurality of heat dissipation fins 40; the first water tank 10 is divided into a first part 101 and a second part 102 which are independent from each other from the center, the first part 101 and the second part 102 of the first water tank 10 are respectively provided with a quick connector in a penetrating way, and the two quick connectors are connected into a hose and then communicated with a water cooling head; half of the number of liquid tubes 30 communicate with the first portion 101 of the first tank 10 and the second tank 20, and the other half of the number of liquid tubes 30 communicate with the second portion 102 of the first tank 10 and the second tank 20; the heat dissipation fins 40 are interposed between the liquid tubes 30.

After the water-cooled radiator operates, a water pump of the water-cooled head operates to drive water-cooled liquid to circulate between the water-cooled discharge and the water-cooled head; in a water cooled bank, the water enters the first portion 101 of the first tank 10 through one of the quick connectors, then flows through half the number of the liquid tubes 30 into the second tank 20, enters the other half of the number of the liquid tubes 30 from the second tank 20, flows back to the second portion 102 of the first tank 10, and then flows out through the other quick connector.

In the water-cooling radiator with the above structure, in order to enhance the heat exchange efficiency between the liquid pipe 30 and the heat dissipation fins 40, the sectional area of the liquid pipe 30 is generally small, and in practice, one or more liquid pipes 30 are easily blocked, for example, soldering flux or metal chips generated in the production process can block the liquid pipe 30, thereby affecting the performance of the water-cooling radiator; in addition, if the liquid injection operation is improper, the water cooling bar is easily not filled with the water cooling liquid, and after the water cooling bar is installed, one or more liquid pipes 30 are easily not filled with the water cooling liquid all the time, which also affects the performance of the water cooling radiator.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a water-cooling is arranged, its liquid pipe blocks up or water-cooling liquid notes liquid is not full and is more slight to the performance influence phase in the water-cooling of the prior art with the volume arrange.

In order to achieve the above object, the utility model provides a following technical scheme: a water-cooling row comprises a first liquid pipe, a lower water tank, an upper water tank, a plurality of second liquid pipes and a plurality of fins, wherein the lower water tank and the upper water tank are opposite to each other; the second liquid pipe is communicated with the lower water tank and the upper water tank; the lower water tank is provided with a quick connector used for communicating the water cooling head in a penetrating way; the first end of the first liquid pipe is connected to the upper water tank, and the second end of the first liquid pipe is provided with another quick connector for communicating with the water-cooling head in a penetrating manner; the fins are arranged between every two adjacent second liquid pipes in an inserting mode, and the fins are arranged between the first liquid pipes and the adjacent second liquid pipes in an inserting mode.

In the above technical solution, the lower water tank is provided with a first lower liquid pipe hole matched with the first liquid pipe in shape, and the upper water tank is provided with a first upper liquid pipe hole matched with the first liquid pipe in shape; the lower water tank is provided with a first joint hole and a second joint hole which are matched with the quick joint, and the second end of the first liquid pipe is provided with a third joint hole which is matched with the quick joint; the first end of the first liquid pipe is inserted into the first upper liquid pipe hole, the second end of the first liquid pipe is inserted into the first lower liquid pipe hole, and the second joint hole and the third joint hole are aligned with each other; one of the quick connectors penetrates into the first connector hole, and the other quick connector penetrates into the second connector hole and the third connector hole in sequence.

In the above technical solution, the lower water tank is provided with second lower liquid pipe holes at intervals, the second lower liquid pipe holes are matched with the second liquid pipes in shape and are corresponding in number, and the upper water tank is provided with second upper liquid pipe holes at intervals, the second upper liquid pipe holes are matched with the second liquid pipes in shape and are corresponding in number; and two ends of the second liquid pipe are correspondingly inserted into the second lower liquid pipe hole and the second upper liquid pipe hole respectively.

In the above technical scheme, the water-cooling bar further comprises an inner fastener for fastening the first liquid pipe, the second liquid pipe and the fins.

In the technical scheme, two inner fastening pieces are arranged, and two ends of each inner fastening piece form clamping claws; the lower water tank is provided with lower fastener grooves matched with the clamping claws on two sides of the splicing surface of the second liquid pipe respectively, the upper water tank is provided with upper fastener grooves matched with the clamping claws on two sides of the splicing surface of the second liquid pipe respectively, and the lower fastener grooves and the upper fastener grooves are opposite to each other respectively; every of interior fastener both ends the joint claw corresponds the knot go into mutual opposition down the fastener groove with go up the fastener groove, two interior fastener is the fastening in opposite directions first liquid pipe, the second liquid pipe and the fin.

In the technical scheme, the water-cooling drainage pipe also comprises an outer fastener used for fastening the lower water tank and the upper water tank.

In the technical scheme, two ends of the lower water tank are lower openings, and two ends of the upper water tank are upper openings; the number of the outer fasteners is two, and two ends of each outer fastener are respectively provided with a sealing part matched with the lower opening and the upper opening; the sealing parts at two ends of each external fastener are correspondingly pressed into the lower opening and the upper opening which are positioned at the same end.

In the technical scheme, the outer fastener is bent to form the side wing part, and the side wing part is provided with the threaded hole for installing the radiating fan.

In the above technical scheme, the sealing part of the outer fastener is provided with a liquid injection port.

In the above technical scheme, the second liquid pipes are respectively arranged on two sides of the first liquid pipe.

Compared with the prior art, the beneficial effects of the utility model are that: in the water cooling bar, a second liquid pipe is communicated with a lower water tank and an upper water tank, a first end of a first liquid pipe is connected with the upper water tank, and a quick connector for communicating a water cooling head is arranged at a second end of the first liquid pipe in a penetrating manner; the water cooling liquid flows in all the second liquid pipes along the same direction, and compared with the water cooling drainage in the prior art, the water cooling drainage device has the advantages that the number of the liquid pipes (namely the second liquid pipes) for supplying the water cooling liquid to flow along the same direction is more, and meanwhile, the sectional area of the first liquid pipe is larger and is not easy to block; even if one or more second liquid pipes are blocked in the water-cooling row, the performance influence is slight compared with the water-cooling row in the prior art with the same volume; in addition, even if the water cooling drain is not filled with the water cooling liquid due to improper liquid injection operation, the one or more second liquid pipes are not filled with the water cooling liquid all the time, and the performance influence is slight compared with the water cooling drain in the prior art with the same volume.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a partially enlarged view of a in fig. 1.

Fig. 3 is an exploded view of the present invention.

Fig. 4 is another exploded view of the present invention.

Fig. 5 is a cross-sectional view of the present invention at the lower tank.

Fig. 6 is a sectional view taken along line a-a of fig. 5.

Fig. 7 is a schematic view of one embodiment of the water cooling fluid channel of the present invention.

Fig. 8 is a schematic view of another embodiment of the water-cooling fluid channel of the present invention.

Fig. 9 is a cross-sectional view of a prior art water cooled bank.

The reference signs are: 1. a lower water tank; 11. a first lower liquid pipe hole; 12. a second lower liquid pipe hole; 13. a lower fastener groove; 14. a first joint hole; 15. a second joint hole; 16. a lower opening; 2. a water feeding tank; 21. a first upper liquid tube hole; 22. a second upper liquid tube hole; 23. mounting a fastener groove; 24. an upper opening; 3. a first liquid pipe; 31. a third joint hole; 32. a first end; 33. a second end; 4. a second liquid pipe; 5. a fin; 6. a quick connector; 7. an inner fastener; 71. a clamping claw; 8. an outer fastener; 81. a sealing part; 82. a flank portion; 83. a threaded hole; 84. a liquid injection port; 10. a first water tank; 101. a first portion; 102. a second portion; 20. a second water tank; 30. a liquid pipe; 40. and heat dissipation fins.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, a water-cooling bank includes a first liquid pipe 3, a lower water tank 1 and an upper water tank 2 opposite to each other, a plurality of second liquid pipes 4, and a plurality of fins 5; the second liquid pipe 4 is communicated with the lower water tank 1 and the upper water tank 2; the lower water tank 1 is provided with a quick connector 6 for communicating with a water cooling head in a penetrating way; a first end 32 of the first liquid pipe 3 is connected to the upper water tank 2, and a second end 33 of the first liquid pipe 3 is provided with another quick connector 6 for communicating with a water cooling head in a penetrating way; fins 5 are arranged between every two adjacent second liquid pipes 4 in an inserting mode, and fins 5 are also arranged between the first liquid pipe 3 and the adjacent second liquid pipes 4 in an inserting mode.

The lower water tank 1 and the upper water tank 2 are both square aluminum alloy tank bodies, the first liquid pipe 3 and the second liquid pipe 4 are both aluminum alloy pipes, and the fins 5 are aluminum alloy sheets which are bent to form wrinkles so as to increase the contact area with air; after the quick connector 6 is connected to the hose, the quick connector can be communicated with a water cooling head; in other possible embodiments, the lower water tank 1, the upper water tank 2, the first liquid pipe 3, the second liquid pipe 4 and the fins 5 may be made of other metal materials with good thermal conductivity; in this embodiment, the parts are made of the same aluminum alloy material, so that the parts can be conveniently welded into a whole.

The first liquid pipe 3 is square and has two ends, namely a first end 32 and a second end 33, wherein the end surface of the first end 32 is open and the end surface of the second end 33 is closed. The cross-sectional area of the first liquid pipe 3 is larger than that of the second liquid pipe 4, and the flow rate of the fluid carried by the first liquid pipe 3 is the sum of the flow rates of all the second liquid pipes 4.

Referring to fig. 5-6, the lower water tank 1 is provided with a first lower pipe hole 11 matching with the first pipe 3 in shape, and the upper water tank 2 is provided with a first upper pipe hole 21 matching with the first pipe 3 in shape; the lower water tank 1 is also provided with a first joint hole 14 and a second joint hole 15 which are matched with the quick joint 6, and a second end 33 of the first liquid pipe 3 is provided with a third joint hole 31 which is matched with the quick joint 6; the first end 32 of the first liquid pipe 3 is inserted into the first upper pipe hole 21, the second end 33 of the first liquid pipe 3 is inserted into the first lower pipe hole 11, and the second joint hole 15 and the third joint hole 31 are aligned with each other; one of the quick connectors 6 penetrates the first connector hole 14, and the other quick connector 6 penetrates the second connector hole 15 and the third connector hole 31 in this order.

It should be further explained that the quick connector 6 is a tubular workpiece made of engineering plastic; after the second end 33 of the first liquid pipe 3 is inserted into the first downcomer hole 11, the second joint hole 15 and the third joint hole 31 are aligned, and the axes of the second joint hole 15 and the third joint hole 31 are aligned on the same straight line, so that the alignment is completed; after the second joint hole 15 and the third joint hole 31 are aligned with each other, the quick joint 6 penetrates into the lower water tank 1 from the second joint hole 15 of the lower water tank 1, and the quick joint 6 continues to penetrate deeply until penetrating into the third joint hole 31 of the first liquid pipe 3; one quick connector 6 is in interference fit or threaded fit with the first connector hole 14, and the other quick connector 6 is in interference fit or threaded fit with the second connector hole 15 and the third connector hole 31 respectively; since the side wall of the quick connector 6 blocks the third connector hole 31, the first liquid pipe 3 only connects the upper tank 2 with the outside, and the lower tank 1 does not directly connect with the first liquid pipe 3, i.e. the lower tank 1 must pass through the second liquid pipe 4 and the upper tank 2 to exchange fluid with the first liquid pipe 3.

The lower water tank 1 is provided with second lower liquid pipe holes 12 at intervals, the shapes of which are matched with those of the second liquid pipes 4, and the number of the second lower liquid pipe holes is corresponding to that of the second liquid pipes 4, and the upper water tank 2 is provided with second upper liquid pipe holes 22 at intervals, the shapes of which are matched with those of the second liquid pipes 4, and the number of the second upper liquid pipe holes is; the two ends of the second liquid pipe 4 are inserted into the second lower liquid pipe hole 12 and the second upper liquid pipe hole 22 respectively.

In this embodiment, the two sides of the first lower liquid tube hole 11 are both provided with the second lower liquid tube holes 12, the distance between every two adjacent second lower liquid tube holes 12 is equal, the two sides of the first upper liquid tube hole 21 are both provided with the second upper liquid tube holes 22, and the distance between every two adjacent second upper liquid tube holes 22 is equal; the number of the second lower liquid pipe holes 12 and the number of the second upper liquid pipe holes 22 on the corresponding side are equal; after the assembly is completed, the second liquid pipes 4 are respectively arranged at two sides of the first liquid pipe 3, namely, the second liquid pipes 4 are arranged at two sides of the first liquid pipe 3; the distance between the adjacent second lower liquid tube holes 12 and the distance between the adjacent second upper liquid tube holes 22 define the distance between the second liquid tubes 4 after the assembly is completed, in the embodiment, the distance is uniform, and the distance can accommodate one fin 5 and enable the fin 5 to generate elastic deformation within the limit, so that the fin 5 can be tightly matched with the second liquid tubes 4; fins are also arranged between the first liquid pipe 3 and the second liquid pipe 4, the distance between the first lower liquid pipe hole 11 and the second lower liquid pipe holes 12 on two sides of the first lower liquid pipe hole and the distance between the first upper liquid pipe hole 21 and the second upper liquid pipe holes 22 on two sides of the first upper liquid pipe hole define the distance between the first liquid pipe 3 and the second liquid pipe 4 after assembly is completed, the distance can accommodate one fin 5 and enable the fin 5 to be elastically deformed within the limit, and the fin 5 can be respectively matched with the first liquid pipe 3 and the second liquid pipe 4 tightly.

Further, the water cooling bank also comprises an inner fastener 7 for fastening the first liquid pipe 3, the second liquid pipe 4 and the fin 5. Two inner fasteners 7 are arranged, and two ends of each inner fastener 7 form clamping claws 71; the lower water tank 1 is respectively provided with a lower fastener groove 13 matched with the clamping claw 71 at two sides of the splicing surface of the second liquid pipe 4, the upper water tank 2 is respectively provided with an upper fastener groove 23 matched with the clamping claw 71 at two sides of the splicing surface of the second liquid pipe 4, and the lower fastener groove 13 and the upper fastener groove 23 are respectively opposite to each other; the clamping claws 71 at two ends of each inner fastener 7 are correspondingly buckled into the lower fastener groove 13 and the upper fastener groove 23 which are opposite to each other, and the two inner fasteners 7 oppositely buckle the first liquid pipe 3, the second liquid pipe 4 and the fin 5.

It should be further explained that the clamping claws 71 are raised parts located at both ends of the inner fastener 7; the lower fastener grooves 13 are square grooves formed in the surface of the lower water tank 1 and do not enter the lower water tank 1, the lower fastener grooves 13, the first lower liquid pipe holes 11 and the second lower liquid pipe holes 12 are formed in the same surface of the lower water tank 1, and the two lower fastener grooves 13 are respectively arranged on the edges of the two sides of the surface; similarly, the upper fastener groove 23 is a square groove formed in the surface of the upper water tank 2, and does not open into the upper water tank 2, the upper fastener groove 23, the first upper liquid pipe hole 21 and the second upper liquid pipe hole 22 are all formed in the same surface of the lower water tank 1, and the two upper fastener grooves 23 are respectively arranged on the edges of the two sides of the surface; after the assembly is completed, the two inner fasteners 7 press the first liquid pipe 3, the second liquid pipe 4 and the fins 5 oppositely, so that the first liquid pipe 3, the second liquid pipe 4 and the fins 5 are prevented from being scattered, and meanwhile, the fins 5 are elastically deformed within the limit, so that the fins 5 can be tightly matched with the first liquid pipe 3 and the second liquid pipe 4.

Further, the water-cooling drainage also comprises an outer fastener 8 for fastening the lower water tank 1 and the upper water tank 2. The two ends of the lower water tank 1 are provided with lower openings 16, and the two ends of the upper water tank 2 are provided with upper openings 24; the number of the external fasteners 8 is two, and two ends of each external fastener 8 are respectively provided with a sealing part 81 matched with the lower opening 16 and the upper opening 24; the sealing parts 81 at the two ends of each external fastener 8 are correspondingly pressed into the lower opening 16 and the upper opening 24 at the same end; sealing portion 81 respectively with lower opening 16 and upper shed 24 interference fit, the assembly is accomplished the back, through two outer fasteners 8 respectively from both sides straining lower water tank 1 and upper water tank 2, avoid lower water tank 1 and upper water tank 2 to scatter.

Further, outer fastener 8 is buckled and is formed flank portion 82, and two flank portions 82 all are provided with to the both sides of every outer fastener 8, and flank portion 82 and outer fastener 8's main part mutually perpendicular make flank portion 82 extend to the ventilation face of fin 5, and flank portion 82 offers the screw hole 83 that is used for installing radiator fan, makes the two sides of this kind of water-cooling row all have four screw hole 83 to fixed radiator fan's four corners.

Further, the sealing portion 81 of the external clip 8 is provided with a pouring port 84. in this embodiment, the pouring port 84 is provided in one of the sealing portions 81 in which the external clip 8 is pressed into the lower tank 1. in other possible embodiments, the pouring port 84 may be provided in one of the sealing portions 81 in which the external clip 8 is pressed into the upper tank 2. In normal use, the liquid injection port 84 is plugged by a rubber sealing plug, and when water-cooling liquid needs to be added, the rubber sealing plug is taken down, so that the liquid can be injected into the water-cooling discharge through the liquid injection port 84.

This kind of water-cooling row is whole through the stove that welds after the assembly, accomplishes the welding, makes lower water tank 1, upper water tank 2, first liquid pipe 3, second liquid pipe 4, fin 5, interior fastener 7 and outer fastener 8 welding as an organic whole, then penetrates first joint hole 14 with a quick-operation joint 6 again, and another quick-operation joint 6 penetrates second joint hole 15 and third joint hole 31 in proper order.

Referring to fig. 7, in some embodiments, the water cooling fluid is pumped from the water cooling head, passes through the hose, enters the lower tank 1 through the quick connector 6 penetrating the first connector hole 14, then flows into the second fluid pipes 4, passes through the second fluid pipes 4, enters the upper tank 2, converges, enters the first fluid pipe 3 from the upper tank 2, passes through the first fluid pipe 3, passes through the quick connector 6 penetrating the second connector hole 15 and the third connector hole 31, and then flows back to the water cooling head through the hose.

Referring to fig. 8, in another embodiment, the water cooling fluid is pumped from the water cooling head, passes through the hose, enters the first fluid pipe 3 through the quick connector 6 penetrating the second connector hole 15 and the third connector hole 31, flows through the first fluid pipe 3, enters the upper water tank 2 for split flow, then flows into the second fluid pipes 4, enters the lower water tank 1 through the second fluid pipes 4 for confluence, passes through the quick connector 6 penetrating the first connector hole 14 from the lower water tank 1, and then flows back to the water cooling head through the hose.

In the water-cooling drainage, a second liquid pipe 4 is communicated with a lower water tank 1 and an upper water tank 2, a first end 32 of a first liquid pipe 3 is connected into the upper water tank 2, and a second end 33 of the first liquid pipe 3 is provided with a quick connector 6 for communicating a water-cooling head in a penetrating way; the water cooling liquid flows in all the second liquid pipes 4 along the same direction, and compared with the water cooling rows in the prior art, the number of the liquid pipes (namely the second liquid pipes 4) for supplying the water cooling liquid to flow along the same direction is more under the same volume, and meanwhile, the sectional area of the first liquid pipe 3 is larger and is not easy to block; even if one or more second liquid pipes 4 are blocked in the water-cooling row, the performance of the water-cooling row is slightly influenced compared with the water-cooling row in the prior art with the same volume; in addition, even if the water-cooling drainage is not filled with the water-cooling liquid due to improper liquid injection operation, the one or more second liquid pipes 4 are not filled with the water-cooling liquid all the time, and the performance influence is slight compared with the water-cooling drainage of the prior art with the same volume.

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

Claims (10)

1. A water cooling row is characterized by comprising a first liquid pipe, a lower water tank, an upper water tank, a plurality of second liquid pipes and a plurality of fins, wherein the lower water tank and the upper water tank are opposite to each other; the second liquid pipe is communicated with the lower water tank and the upper water tank; the lower water tank is provided with a quick connector used for communicating the water cooling head in a penetrating way; the first end of the first liquid pipe is connected to the upper water tank, and the second end of the first liquid pipe is provided with another quick connector for communicating with the water-cooling head in a penetrating manner; the fins are arranged between every two adjacent second liquid pipes in an inserting mode, and the fins are arranged between the first liquid pipes and the adjacent second liquid pipes in an inserting mode.

2. A water-cooled bank according to claim 1, wherein: the lower water tank is provided with a first lower liquid pipe hole matched with the first liquid pipe in shape, and the upper water tank is provided with a first upper liquid pipe hole matched with the first liquid pipe in shape; the lower water tank is provided with a first joint hole and a second joint hole which are matched with the quick joint, and the second end of the first liquid pipe is provided with a third joint hole which is matched with the quick joint; the first end of the first liquid pipe is inserted into the first upper liquid pipe hole, the second end of the first liquid pipe is inserted into the first lower liquid pipe hole, and the second joint hole and the third joint hole are aligned with each other; one of the quick connectors penetrates into the first connector hole, and the other quick connector penetrates into the second connector hole and the third connector hole in sequence.

3. A water-cooled bank according to claim 1 or 2, wherein: the lower water tank is provided with second lower liquid pipe holes at intervals, the shapes of the second lower liquid pipe holes are matched with those of the second liquid pipes, the number of the second lower liquid pipe holes corresponds to that of the second lower liquid pipe holes, and the upper water tank is provided with second upper liquid pipe holes at intervals, the shapes of the second upper liquid pipe holes are matched with those of the second liquid pipes, and the number of the second; and two ends of the second liquid pipe are correspondingly inserted into the second lower liquid pipe hole and the second upper liquid pipe hole respectively.

4. A water-cooled bank according to claim 1, wherein: the inner fastener is used for fastening the first liquid pipe, the second liquid pipe and the fins.

5. A water-cooled bank according to claim 4, wherein: two inner fastening pieces are arranged, and two ends of each inner fastening piece form clamping claws; the lower water tank is provided with lower fastener grooves matched with the clamping claws on two sides of the splicing surface of the second liquid pipe respectively, the upper water tank is provided with upper fastener grooves matched with the clamping claws on two sides of the splicing surface of the second liquid pipe respectively, and the lower fastener grooves and the upper fastener grooves are opposite to each other respectively; every of interior fastener both ends the joint claw corresponds the knot go into mutual opposition down the fastener groove with go up the fastener groove, two interior fastener is the fastening in opposite directions first liquid pipe, the second liquid pipe and the fin.

6. A water-cooled bank according to claim 1, wherein: the water tank comprises a lower water tank and an upper water tank, and further comprises an outer fastener for fastening the lower water tank and the upper water tank.

7. A water-cooled bank according to claim 6, wherein: the two ends of the lower water tank are lower openings, and the two ends of the upper water tank are upper openings; the number of the outer fasteners is two, and two ends of each outer fastener are respectively provided with a sealing part matched with the lower opening and the upper opening; the sealing parts at two ends of each external fastener are correspondingly pressed into the lower opening and the upper opening which are positioned at the same end.

8. A water-cooled bank according to claim 6 or 7, wherein: the outer fastener is bent to form a side wing part, and a threaded hole for installing a radiating fan is formed in the side wing part.

9. A water-cooled bank according to claim 7, wherein: the sealing part of the outer fastener is provided with a liquid injection port.

10. A water-cooled bank according to claim 1, wherein: the second liquid pipe is respectively arranged on two sides of the first liquid pipe.

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