CN113641226A - Radiator assembling system and assembling method - Google Patents

Abstract

The application provides a radiator assembling system and a radiator assembling method, wherein the radiator assembling system comprises: the liquid cooling radiator comprises a cold row module and a cold plate module arranged at the bottom of the cold row module, wherein the cold plate module is provided with a first connecting part and a second connecting part, and the first connecting part is used for being connected with the bottom wall of the case; the fixed bracket is fixedly connected with the cold row module and is used for being connected with the side wall of the case; the lifting piece comprises a lifting part and a stopping part connected with the lifting part, the stopping part is detachably connected with the second connecting part, a constraint space is limited between the stopping part and the lifting part, and the constraint space is used for fixing the cold row module under the condition that the stopping part is connected with the second connecting part. Through the technical scheme of this application, solved the technical problem of liquid cooling radiator at narrow and small space assembly difficulty, easy operation, swift has improved the assembly efficiency of liquid cooling radiator.

Description

Radiator assembling system and assembling method

Technical Field

The application relates to the technical field of radiator assembly, in particular to a radiator assembly system and an assembly method.

Background

With the rapid development of computer technology and products, the processing capacity of the system is greatly improved. Meanwhile, the power consumption of the system is almost synchronously increased, and particularly, the power of core components such as a central processing unit and a display card is increased at the highest speed, so that the common air-cooled radiator can not meet the requirement.

In order to meet different use scenes, some server products can simultaneously support a common air-cooled radiator and a liquid-cooled radiator, but because the two radiators are completely different in form and fixing modes, the two radiators are effectively fixed in a limited space, and the difficulty is very high.

Disclosure of Invention

An object of an embodiment of the first aspect of the present application is to provide a heat sink assembly system, so as to achieve rapid assembly of a heat sink.

An embodiment of a first aspect of the present application provides a heat sink assembly system, including: the liquid cooling radiator comprises a cold row module and a cold plate module arranged at the bottom of the cold row module, wherein the cold plate module is provided with a first connecting part and a second connecting part, and the first connecting part is used for being connected with the bottom wall of the case; the fixed bracket is fixedly connected with the cold row module and is used for being connected with the side wall of the case; the lifting piece comprises a lifting part and a stopping part connected with the lifting part, the stopping part is detachably connected with the second connecting part, a constraint space is limited between the stopping part and the lifting part, and the constraint space is used for fixing the cold row module under the condition that the stopping part is connected with the second connecting part.

In the above implementation process, the radiator assembly system includes a liquid-cooled radiator, a fixing bracket, and a lifting member. Specifically, the liquid cooling radiator includes the cold drawing module of arranging the module and locating cold drawing module of arranging the module bottom cold drawing, the cold drawing module is used for contacting with mainboard and the central processing unit of quick-witted incasement and is connected to cool down it, wherein, the cold drawing module is equipped with first connecting portion and second connecting portion, first connecting portion are used for with the diapire fixed connection of quick-witted incasement when the liquid cooling radiator is in the preset position of quick-witted incasement, then with fixed bolster and quick-witted lateral wall fixed connection, thereby realize the fixed mounting of liquid cooling radiator. The promotion piece is used for promoting the liquid cooling radiator, including promotion portion and the backstop portion that links to each other with promotion portion, the backstop portion is used for being connected (like the screw connection) with the second connecting portion of cold drawing module, because inject between backstop portion and the promotion portion and have the restraint space, when backstop portion is connected with the second connecting portion of cold drawing module, the restraint space can play and arrange the module restraint and limiting displacement to the cold, can prevent that cold drawing module relative cold drawing module from taking place relative motion, thereby avoid in liquid cooling radiator and the quick-witted case assembling process, the dislocation takes place to lead to increasing the assembly degree of difficulty between the cold drawing module of liquid cooling radiator and the cold drawing module, and then effectively improved the assembly efficiency of liquid cooling radiator, be particularly useful for narrow and small installation space, and convenient for operation, and assembly efficiency is higher.

In one possible implementation, the lifting portion comprises a lifting plate; the backstop portion includes the backstop muscle, the quantity of backstop muscle is a plurality of, and is a plurality of the backstop muscle divides two sets of settings to be in the both sides of promotion board, and with inject between the promotion board with cold row module looks adaptation restraint space.

In the above-mentioned realization process, the one end of backstop muscle links to each other with the lift plate, and the other end is used for being connected with the second connecting portion of cold drawing module, and the quantity of backstop muscle is a plurality of, and a plurality of backstop muscle divide into two sets of width direction's of locating the lift plate both sides to inject the restraint space that is used for retraining cold row module, thereby can effectively avoid cold row module to promote the in-process relative cold drawing module and take place relative motion, and then can effectively improve the assembly efficiency of liquid cooling radiator.

In a possible implementation manner, the lifting plate is provided with a plurality of operation windows, and the plurality of operation windows are symmetrically arranged on the lifting plate in two groups.

In the implementation process, the operation window is arranged on the lifting plate, so that an operator can observe the alignment condition or adjust the position of the liquid cooling radiator through the operation window in the assembling process of the liquid cooling radiator and the chassis. Specifically, the quantity of operation window is a plurality of, and a plurality of operation window symmetries set up the both sides at the lift plate to the observation or the adjustment operation of adaptation different positions further improve the assembly efficiency of liquid cooling radiator, and overall structure is comparatively regular, helps improving the pleasing to the eye degree of product.

In a possible implementation manner, one end of the stopping rib, which is far away from the lifting plate, is provided with a third connecting part, and the third connecting part is used for being detachably connected with the second connecting part; and/or a fourth connecting part connected with the lifting plate is arranged in the operation window, and the fourth connecting part is used for being connected with the cold row module.

In the implementation process, one end of the stop rib far away from the lifting plate is provided with a third connecting part connected with the second connecting part of the cold plate module, the third connecting part can be a screw or a clamping protrusion, the second connecting part can be a threaded hole or a clamping groove, namely, the third connecting part and the second connecting part can be connected in a screwing or clamping manner, and the purpose of the application can be achieved, so that the lifting plate and the cold plate module are all within the protection range of the application.

Be provided with the fourth connecting portion that links to each other with the lift plate in the operation window, if be equipped with the connecting plate that links to each other with the lift plate, be equipped with first connecting hole on the connecting plate, be equipped with the second connecting hole towards one side of lift plate at the cold row module, the fastener passes first connecting hole and second connecting hole to realize the rapid Assembly of lift plate and cold row module, in order to further improve the reliability that promotes the piece and promote the in-process connection to liquid cooling radiator equipment.

In one possible implementation, the cold row module includes: a water pump; the cold row assembly comprises a first cold row and a second cold row, and the first cold row and the second cold row are arranged on two sides of the water pump and are communicated with the water pump; the water tank module comprises a first water tank and a second water tank, the first water tank and the second water tank are respectively arranged at two ends of the cold row assembly in the length direction and are respectively communicated with the first cold row and the second cold row; one end of the power supply connector is electrically connected with the water pump, and the other end of the power supply connector is electrically connected with the main board in the case; and the wind shielding foam is arranged above the cold row module.

In the implementation process, the cold discharge module comprises a water pump, a cold discharge assembly, a water tank module, a power connector and a wind shielding foam. Wherein, the cold row subassembly is including locating the water pump both sides and the first cold row and the cold row of second that are linked together with the water pump both sides, and the other end of first cold row and the cold row of second is linked together with first water tank and second water tank respectively to make the water pump can drive the circulation flow of coolant liquid between water pump module and the cold row subassembly. One end of the power supply connector is connected with the water pump, and the other end of the power supply connector is connected with the power supply interface at the case end, so that power is supplied to the water pump. The cotton wind shielding foam plays a role in shielding wind, prevents cold air from diffusing to the outside of the cold radiator, and further contributes to improving the heat exchange efficiency of the liquid cooling radiator and the central processing unit.

In a possible implementation manner, the first cold row comprises a plurality of first flat cooling copper pipes arranged at intervals in the height direction and first cooling fins arranged between the flat cooling copper pipes, and the first flat cooling copper pipes are communicated with the water pump and the first water tank; the second cold row comprises a plurality of second cooling copper flat tubes arranged at intervals in the height direction and second cooling fins arranged between the cooling copper flat tubes, and the second cooling copper flat tubes are communicated with the water pump and the second water tank.

In the implementation process, one end of the first copper flat tube and one end of the second copper flat tube are communicated with the water pump, and the other end of the first copper flat tube and the other end of the second copper flat tube are communicated with the first water tank and the second water tank respectively, so that the circulating flow of cooling liquid between the first water tank and the second water tank can be realized, the heat of the first copper flat tube and the heat of the second copper flat tube are transferred to the first cooling fin and the second cooling fin, the temperature of the cooling liquid is reduced after heat exchange, and then the cooling liquid can flow into the cold plate in a recyclable manner to cool and radiate the central processing unit.

In one possible implementation, the cold plate module includes: the first cold plate and the second cold plate are arranged at the bottom of the cold row module at intervals and are used for being in contact fit with the main plate in the case; the buffer foam is arranged between the cold plate module and the cold row module; the corrugated pipe module comprises a first corrugated pipe, a second corrugated pipe and a third corrugated pipe, wherein two ends of the first corrugated pipe are respectively communicated with the first cold plate and the second cold plate, one end of the second corrugated pipe is communicated with the cold plate, the other end of the second corrugated pipe is used for being communicated with the first water tank of the cold row module, one end of the third corrugated pipe is communicated with the second cold plate, and the other end of the third corrugated pipe is used for being communicated with the second water tank of the cold row module.

In the above-mentioned realization process, the cold plate module includes first cold plate, the cold plate of second, the buffering bubble is cotton and bellows module. The two ends of the first corrugated pipe are respectively communicated with the first cold plate and the second cold plate, the two ends of the second corrugated pipe are respectively communicated with the first water tank and the first cold plate, and the two ends of the third corrugated pipe are respectively communicated with the second water tank and the second cold plate, so that the cooling liquid circularly flows between the cold row module and the cold plate module. The buffering foam is arranged between the cold plate module and the cold row module, so that the heat insulation effect is achieved, and the heat dissipation effect is improved.

In a possible implementation manner, the fixing bracket includes a first bracket and a second bracket, and the first bracket and the second bracket are respectively and fixedly connected to two ends of the cold row module in the length direction and are used for being connected to a side wall of the chassis.

In the implementation process, the fixed support comprises a first support and a second support which are arranged at two ends of the length direction of the cold row module, and the first support and the second support are respectively fixedly connected with two side walls of the case to fix the cold row module.

In one possible implementation manner, the method further includes: the chassis comprises a bottom wall, a first side wall and a second side wall, wherein the first side wall and the second side wall are arranged on two sides of the bottom wall; the liquid cooling radiator comprises a first side wall, a second side wall, a first support, a second support and a liquid cooling radiator, wherein the first side wall and the second side wall are respectively provided with a first limiting part and a second limiting part, the first support and the second support are respectively provided with a first limiting matching part and a second limiting matching part, the first limiting part is matched with the second limiting matching part, and the second limiting part is matched with the second limiting matching part to limit the relative position of the liquid cooling radiator and the case.

In the implementation process, the first spacing portion and the second spacing portion can be convex, the third spacing portion and the fourth spacing portion can be clamping grooves matched with the convex portions of the clamp, otherwise, the first spacing portion and the second spacing portion can also be clamping grooves, the third spacing portion and the fourth spacing portion can be convex matched with the clamping grooves, the convex portions of the clamp are inserted into the clamping grooves, the case is in spacing matching with the fixed support, the case is fixed by screws conveniently, and the case is fixedly connected with the cold row module.

An embodiment of a second aspect of the present application provides a heat sink assembly method, which is applied to the heat sink assembly system described in any one of the embodiments of the first aspect, and includes: presetting the relative position of a cold plate module and a cold row module of the liquid cooling radiator; fixedly connecting a lifting piece with the cold plate module, and fixing the cold row module through a constraint space defined by the lifting piece; lifting the lifting piece and the liquid cooling radiator to a preset assembly position in the case; the lifting piece is disconnected with the cold plate module, and the lifting piece is taken away, so that the constraint force of the lifting piece on the cold row module is relieved; adjusting the position of the cold plate module, fixedly connecting the cold plate module with the bottom wall of the case, and fixedly connecting a first support and a second support of the liquid cooling radiator with a first side wall and a second side wall of the case respectively; and electrically connecting the radiator-end power connector with the mainboard-end power connector of the case.

The radiator assembling method provided by the embodiment of the second aspect of the application comprises the steps that the cold plate module is arranged at the bottom of the cold plate module, the stop part of the lifting piece is connected with the cold plate module, the cold plate is fixed through the constraint space defined between the lifting plate and the stop part of the lifting piece, the situation that the cold plate module is in disorder before falling or assembling in the lifting process is prevented, then the liquid cooling radiator is lifted to the preset device position in the case through the lifting piece, the cold plate module can be fixed in position through the limiting effect of the fixing mechanism and the side wall of the case in the process, then the connection relation between the lifting piece and the cold plate module is removed, the cold plate module and the bottom wall of the case are fixed through screws, then the fixing mechanism and the side wall of the case are fixedly connected through screws, and therefore the fixed assembling of the liquid cooling radiator is completed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

FIG. 1 is an exploded view of a heat sink assembly system according to an embodiment of the present disclosure;

fig. 2 is a schematic view of an assembly structure of a liquid-cooled heat sink according to an embodiment of the present disclosure;

fig. 3 is a schematic view of a cold row module according to an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of a heat sink assembly system according to an embodiment of the present disclosure in a first installation process;

FIG. 5 is a schematic diagram of a heat sink assembly system according to an embodiment of the present disclosure during a second installation process;

FIG. 6 is a schematic structural view of a heat sink mounting system according to an embodiment of the present disclosure with the lifting member disengaged;

fig. 7 is a schematic flowchart of a heat sink assembly method according to an embodiment of the present disclosure.

Icon: 10. a cold row module; 100. a cold row assembly; 101. a first water tank; 102. a second water tank; 103. a water pump; 104. a power supply connector; 105. a first cold row; 1051. a first copper flat tube; 1052. a first cooling fin; 106. a second cold row; 1061. a second copper flat tube; 1062. a second cooling fin; 20. a cold plate module; 201. a first cold plate; 202. a second cold plate; 203. a first connection portion; 204. a second connecting portion; 205. a first bellows; 206. a second bellows; 207. a third bellows; 30. a lifting member; 301. a lifting plate; 3011. a fourth connecting portion; 302. a stopper rib; 3021. a third connecting portion; 401. a first bracket; 402. a second bracket; 50. buffering foam; 60. wind shielding foam; 70. a chassis; 701. a bottom wall; 702. a first side wall; 703. a second side wall.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 6, in a first aspect, an embodiment of the present application provides a heat sink mounting system, and an embodiment of the first aspect of the present application provides a heat sink mounting system, including: the liquid cooling radiator comprises a cold row module 10 and a cold plate module 20 arranged at the bottom of the cold row module 10, wherein the cold plate module 20 is provided with a first connecting part 203 and a second connecting part 204, and the first connecting part 203 is used for being connected with the bottom wall 701 of the chassis 70; the fixed bracket is fixedly connected with the cold row module 10 and is used for being connected with the side wall of the case 70; the lifting member 30 includes a lifting portion and a stopping portion connected to the lifting portion, the stopping portion is detachably connected to the second connecting portion 204, and a constraint space is defined between the stopping portion and the lifting portion, and the constraint space is used for fixing the cold row module 10 when the stopping portion is connected to the second connecting portion 204.

In the above implementation, the radiator assembly system includes a liquid-cooled radiator, a fixed bracket, and a lifting member 30. Specifically, the liquid cooling radiator includes the cold row module 10 and locates the cold plate module 20 of cold row module 10 bottom, the cold plate module 20 is used for contacting with mainboard and central processing unit in the quick-witted case 70 and is connected, in order to cool down it, wherein, the cold plate module 20 is equipped with first connecting portion 203 and second connecting portion 204, first connecting portion 203 is used for when the liquid cooling radiator is in the predetermined position in quick-witted case 70 with diapire 701 fixed connection in quick-witted case 70, then with fixed bolster and quick-witted case 70 lateral wall fixed connection, thereby realize the fixed mounting of liquid cooling radiator. Lifting member 30 is used for promoting liquid cooling radiator, including lifting part and the backstop portion that links to each other with lifting part, backstop portion is used for being connected (like screw connection) with second connecting portion 204 of cold plate module 20, because it has the restraint space to inject between backstop portion and the lifting part, when backstop portion and cold plate module 20's second connecting portion 204 are connected, the restraint space can play and arrange module 10 restraint and limiting displacement to the cold, can prevent that cold row module 10 from taking place relative motion to cold plate module 20, thereby avoid liquid cooling radiator and quick-witted case 70 assembling process, the dislocation of taking place between cold row module 10 of liquid cooling radiator and the cold plate module 20 leads to increasing the assembly degree of difficulty, and then effectively improved liquid cooling radiator's assembly efficiency, be particularly useful for narrow and small installation space, and convenient to operate, and assembly efficiency is higher.

As shown in fig. 1, in one possible implementation, the lifting portion comprises a lifting plate 301; the backstop portion includes backstop muscle 302, and the quantity of backstop muscle 302 is a plurality of, and a plurality of backstop muscle 302 divide two sets of settings in the both sides of lifting plate 301 to with lifting plate 301 between inject the restraint space with cold row module 10 looks adaptation.

In the above-mentioned realization process, the one end of backstop muscle 302 links to each other with promotion board 301, the other end is used for being connected with the second connecting portion 204 of cold plate module 20, and the quantity of backstop muscle 302 is a plurality of, a plurality of backstop muscle 302 divide into two sets of width direction's of locating promotion board 301 both sides, and inject the restraint space that is used for retraining cold row module 10, thereby can effectively avoid cold row module 10 to take place relative motion at promotion in-process relative cold plate module 20, and then can effectively improve the assembly efficiency of liquid cooling radiator.

In one possible implementation, the lifting plate 301 is provided with a plurality of operation windows, and the plurality of operation windows are symmetrically arranged on the lifting plate 301 in two groups.

In the above implementation process, by setting the operation window on the lifting plate 301, an operator can observe the alignment condition through the operation window or adjust the position of the liquid cooling radiator through the operation window in the assembling process of the liquid cooling radiator and the chassis 70. Specifically, the quantity of operation window is a plurality of, and a plurality of operation window symmetries set up in the both sides of promoting board 301 to the observation or the adjustment operation of adaptation different positions further improve the assembly efficiency of liquid cooling radiator, and overall structure is comparatively regular, helps improving the pleasing to the eye degree of product.

In a possible implementation, an end of the stop rib 302 away from the lifting plate 301 is provided with a third connecting portion 3021, and the third connecting portion 3021 is used for being detachably connected with the second connecting portion 204.

In the above implementation process, one end of the stopping rib 302, which is far away from the lifting plate 301, is provided with a third connecting portion 3021, which is used for connecting with the second connecting portion 204 of the cold plate module 20, the third connecting portion 3021 may be a screw or a snap, and the second connecting portion 204 may be a threaded hole or a snap, that is, the third connecting portion 3021 and the second connecting portion 204 may be connected in a screwed or snapped manner, and both the purposes of the present application can be achieved, so that the present application is within the protection scope.

In a possible implementation manner, a fourth connection portion 3011 connected to the lifting plate 301 is provided in the operation window, and the fourth connection portion 3011 is used to connect to the cold row module 10.

Be provided with the fourth connecting portion 3011 that links to each other with the lift plate 301 in the operation window, if be equipped with the connecting plate that links to each other with lift plate 301, be equipped with first connecting hole on the connecting plate, be equipped with the second connecting hole in the cold row module 10 face towards one side of lift plate 301, the fastener passes first connecting hole and second connecting hole to realize lift plate 301 and the quick assembly of cold row module 10, in order to further improve the reliability that the promotion piece is connected to liquid cooling radiator equipment promotion in-process.

As shown in fig. 1 and 2, in one possible implementation, the cold row module 10 includes: a water pump 103; the cold row assembly 100 comprises a first cold row 105 and a second cold row 106, wherein the first cold row 105 and the second cold row 106 are arranged on two sides of the water pump 103 and are communicated with the water pump 103; the water tank module comprises a first water tank 101 and a second water tank 102, wherein the first water tank 101 and the second water tank 102 are respectively arranged at two ends of the cold row assembly 100 in the length direction and are respectively communicated with a first cold row 105 and a second cold row 106; one end of the power supply connector 104 is electrically connected with the water pump 103, and the other end of the power supply connector is electrically connected with the main board in the case 70; and the wind shielding foam 60 is arranged above the cold row module 10.

In the implementation process, the cold row module 10 includes a water pump 103, a cold row assembly 100, a water tank module, a power connector 104, and a wind shielding foam 60. The cold row assembly 100 comprises a first cold row 105 and a second cold row 106 which are arranged on two sides of the water pump 103 and communicated with two sides of the water pump 103, and the other ends of the first cold row 105 and the second cold row 106 are respectively communicated with the first water tank 101 and the second water tank 102, so that the water pump 103 can drive the circulating flow of cooling liquid between the water pump 103 module and the cold row module 10. One end of the power connector 104 is connected to the water pump 103, and the other end is used for being connected to a power interface at the chassis 70 end, so as to supply power to the water pump 103. The wind shielding foam 60 plays a role in shielding wind, prevents cold air from being diffused to the outside of the cold radiator, and further contributes to improving the heat exchange efficiency of the liquid cooling radiator and the central processing unit.

As shown in fig. 3, in a possible implementation manner, the first cold row 105 includes a plurality of first flat cooling copper pipes arranged at intervals in the height direction and first cooling fins 1052 arranged between the flat cooling copper pipes, and the first flat cooling copper pipes are communicated with the water pump 103 and the first water tank 101; the second cold row 106 comprises a plurality of second cooling copper flat pipes arranged at intervals in the height direction and second cooling fins 1062 arranged between the cooling copper flat pipes, and the second cooling copper flat pipes are communicated with the water pump 103 and the second water tank 102.

In the implementation process, one end of each of the first copper flat tube 1051 and the second copper flat tube 1061 is communicated with the water pump 103, and the other end of each of the first copper flat tube 1051 and the second copper flat tube 1061 is communicated with the first water tank 101 and the second water tank 102, so that the cooling liquid can circulate between the first water tank 101 and the second water tank 102, the heat of the first copper flat tube 1051 and the heat of the second copper flat tube 1061 are transferred to the first cooling fins 1052 and the second cooling fins 1062, the temperature of the cooling liquid after heat exchange is reduced, and then the cooling liquid can flow into the cold plate to cool and dissipate heat of the central processing unit in a recyclable manner.

As shown in fig. 1, in one possible implementation, the cold plate module 20 includes: the first cold plate 201 and the second cold plate 202 are arranged at the bottom of the cold row module 10 at intervals and are used for being in contact fit with a main plate in the chassis 70; the buffer foam 50 is arranged between the cold plate module 20 and the cold row module 10; the bellows module comprises a first bellows 205, a second bellows 206 and a third bellows 207, wherein two ends of the first bellows 205 are respectively communicated with a first cold plate 201 and a second cold plate 202, one end of the second bellows 206 is communicated with the cold plates, the other end of the second bellows is used for being communicated with a first water tank 101 of the cold row module 10, one end of the third bellows 207 is communicated with the second cold plate 202, and the other end of the third bellows is used for being communicated with a second water tank 102 of the cold row module 10.

In the implementation process, the cold plate module 20 includes a first cold plate 201, a second cold plate 202, a buffer foam 50, and a bellows module. Wherein, the both ends of first bellows 205 are linked together with first cold plate 201 and second cold plate 202 respectively, the both ends of second bellows 206 are linked together with first water tank 101 and first cold plate 201 respectively, the both ends of third bellows 207 are linked together with second water tank 102 and second cold plate 202 respectively year to realize the coolant liquid circulation flow between cold row module 10 and cold drawing module 20, because cold drawing module 20 cooperates with the central processing unit contact in the quick-witted case 70, and then can realize the purpose of central processing unit circulation cooling. The buffer foam 50 is arranged between the cold plate module 20 and the cold row module 10, so that a heat insulation effect is achieved, and the heat dissipation effect is improved.

As shown in fig. 1, in a possible implementation manner, the fixing brackets include a first bracket 401 and a second bracket 402, and the first bracket 401 and the second bracket 402 are respectively fixedly connected to two ends of the cold row module 10 in the length direction, and are used for being connected to a side wall of the chassis 70.

In the above implementation process, the fixing bracket includes a first bracket 401 and a second bracket 402 disposed at two ends of the cold row module 10 in the length direction, and the first bracket 401 and the second bracket 402 are respectively used for being fixedly connected to two sidewalls of the chassis 70 to fix the cold row module 10.

As shown in fig. 4 to 6, in a possible implementation manner, the method further includes: the chassis 70 comprises a bottom wall 701, and a first side wall 702 and a second side wall 703 which are arranged on two sides of the bottom wall 701; the first side wall 702 and the second side wall 703 are respectively provided with a first limiting portion and a second limiting portion, the first support 401 and the second support 402 are respectively provided with a first limiting matching portion and a second limiting matching portion, the first limiting portion is matched with the second limiting matching portion, and the second limiting portion is matched with the second limiting matching portion to limit the relative position of the liquid cooling radiator and the case 70.

In the implementation process, the first spacing portion and the second spacing portion can be convex, the third spacing portion and the fourth spacing portion can be clamping grooves matched with the convex portions of the clamping grooves, otherwise, the first spacing portion and the second spacing portion can also be clamping grooves, the third spacing portion and the fourth spacing portion can be convex matched with the clamping grooves, the convex portions of the clamping grooves are inserted into the clamping grooves, the spacing matching between the case 70 and the fixed support is achieved, the fixing through screws is facilitated, and the fixed connection between the case 70 and the cold row module 10 is achieved.

As shown in fig. 7, an embodiment of the second aspect of the present application provides a heat sink assembly method, which is applied to the heat sink assembly system in any one of the embodiments of the first aspect, and includes:

step S100: and presetting the relative positions of the cold plate module and the cold row module of the liquid cooling radiator.

Step S102: the lifting piece is fixedly connected with the cold plate module, and the cold row module is fixed through the constraint space limited by the lifting piece.

Step S104: and lifting the lifting piece and the liquid cooling radiator to a preset assembly position in the case.

Step S106: and the lifting piece is removed from the cold plate module, so that the constraint force of the lifting piece on the cold row module is relieved.

Step S108: the position of the cold plate module is adjusted, the cold plate module is fixedly connected with the bottom wall of the case, and the first support and the second support of the liquid cooling radiator are fixedly connected with the first side wall and the second side wall of the case respectively.

Step S110: and electrically connecting the radiator-end power connector with the mainboard-end power connector of the case.

The radiator assembling method provided by the embodiment of the second aspect of the application comprises the steps that the cold plate module is arranged at the bottom of the cold plate module, the stop part of the lifting piece is connected with the cold plate module, the cold plate is fixed through the constraint space defined between the lifting plate and the stop part of the lifting piece, the situation that the cold plate module is in disorder before falling or assembling in the lifting process is prevented, then the liquid cooling radiator is lifted to the preset device position in the case through the lifting piece, the cold plate module can be fixed in position through the limiting effect of the fixing mechanism and the side wall of the case in the process, then the connection relation between the lifting piece and the cold plate module is removed, the cold plate module and the bottom wall of the case are fixed through screws, then the fixing mechanism and the side wall of the case are fixedly connected through screws, and therefore the fixed assembling of the liquid cooling radiator is completed.

In a possible implementation manner, before the lifting member and the liquid cooling radiator are lifted to a preset assembly position in the chassis, the method further includes: and the lifting piece is connected with the cold row module through a fastener.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims (10)

1. A heat sink assembly system, comprising:

the liquid cooling radiator comprises a cold row module and a cold plate module arranged at the bottom of the cold row module, wherein the cold plate module is provided with a first connecting part and a second connecting part, and the first connecting part is used for being connected with the bottom wall of the case;

the fixed bracket is fixedly connected with the cold row module and is used for being connected with the side wall of the case;

the lifting piece comprises a lifting part and a stopping part connected with the lifting part, the stopping part is detachably connected with the second connecting part, a constraint space is limited between the stopping part and the lifting part, and the constraint space is used for fixing the cold row module under the condition that the stopping part is connected with the second connecting part.

2. The heat sink assembly system of claim 1,

the lifting portion comprises a lifting plate;

the backstop portion includes the backstop muscle, the quantity of backstop muscle is a plurality of, and is a plurality of the backstop muscle divides two sets of settings to be in the both sides of promotion board, and with inject between the promotion board with cold row module looks adaptation restraint space.

3. The heat sink assembly system of claim 2,

the lifting plate is provided with a plurality of operation windows, and the operation windows are symmetrically arranged on the lifting plate in two groups.

4. The heat sink assembly system of claim 3,

a third connecting part is arranged at one end, far away from the lifting plate, of the stopping rib and is detachably connected with the second connecting part; and/or

And a fourth connecting part connected with the lifting plate is arranged in the operation window, and the fourth connecting part is used for being connected with the cold row module.

5. The heat sink assembly system according to any one of claims 1 to 4, wherein the cold row module comprises:

a water pump;

the cold row assembly comprises a first cold row and a second cold row, and the first cold row and the second cold row are arranged on two sides of the water pump and are communicated with the water pump;

the water tank module comprises a first water tank and a second water tank, the first water tank and the second water tank are respectively arranged at two ends of the cold row assembly in the length direction and are respectively communicated with the first cold row and the second cold row;

one end of the power supply connector is electrically connected with the water pump, and the other end of the power supply connector is electrically connected with the main board in the case;

and the wind shielding foam is arranged above the cold row module.

6. The heat sink assembly system of claim 5,

the first cold row comprises a plurality of first cooling copper flat tubes arranged at intervals in the height direction and first cooling fins arranged among the cooling copper flat tubes, and the first cooling copper flat tubes are communicated with the water pump and the first water tank;

the second cold row comprises a plurality of second cooling copper flat tubes arranged at intervals in the height direction and second cooling fins arranged between the cooling copper flat tubes, and the second cooling copper flat tubes are communicated with the water pump and the second water tank.

7. The heat sink assembly system according to any one of claims 1 to 4, wherein the cold plate module comprises:

the first cold plate and the second cold plate are arranged at the bottom of the cold row module at intervals and are used for being in contact fit with the main plate in the case;

the buffer foam is arranged between the cold plate module and the cold row module;

the corrugated pipe module comprises a first corrugated pipe, a second corrugated pipe and a third corrugated pipe, wherein two ends of the first corrugated pipe are respectively communicated with the first cold plate and the second cold plate, one end of the second corrugated pipe is communicated with the cold plate, the other end of the second corrugated pipe is used for being communicated with the first water tank of the cold row module, one end of the third corrugated pipe is communicated with the second cold plate, and the other end of the third corrugated pipe is used for being communicated with the second water tank of the cold row module.

8. The heat sink mounting system according to any one of claims 1 to 4,

the fixed support comprises a first support and a second support, and the first support and the second support are fixedly connected with the two ends of the cold row module in the length direction respectively and are used for being connected with the side wall of the case.

9. The heat sink assembly system of claim 8, further comprising:

the chassis comprises a bottom wall, a first side wall and a second side wall, wherein the first side wall and the second side wall are arranged on two sides of the bottom wall;

the liquid cooling radiator comprises a first side wall, a second side wall, a first support, a second support and a liquid cooling radiator, wherein the first side wall and the second side wall are respectively provided with a first limiting part and a second limiting part, the first support and the second support are respectively provided with a first limiting matching part and a second limiting matching part, the first limiting part is matched with the second limiting matching part, and the second limiting part is matched with the second limiting matching part to limit the relative position of the liquid cooling radiator and the case.

10. A heat sink assembling method applied to the heat sink assembling system according to any one of claims 1 to 9, comprising:

presetting the relative position of a cold plate module and a cold row module of the liquid cooling radiator;

fixedly connecting a lifting piece with the cold plate module, and fixing the cold row module through a constraint space defined by the lifting piece;

lifting the lifting piece and the liquid cooling radiator to a preset assembly position in the case;

the lifting piece is disconnected with the cold plate module, and the lifting piece is taken away, so that the constraint force of the lifting piece on the cold row module is relieved;

adjusting the position of the cold plate module, fixedly connecting the cold plate module with the bottom wall of the case, and fixedly connecting a first support and a second support of the liquid cooling radiator with a first side wall and a second side wall of the case respectively;

and electrically connecting the radiator-end power connector with the mainboard-end power connector of the case.

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