CN215766593U - Adjustable copper-aluminum composite radiator - Google Patents

Abstract

The application provides a copper aluminium composite heat radiator with adjustable belongs to radiator technical field. The adjustable copper-aluminum composite radiator comprises a radiating pipe fitting, a frame and an adjusting mechanism. The radiating pipe fitting comprises a liquid supply pipe and fins, and the liquid supply pipe is fixedly installed on the inner walls of the fins. First coupling is installed to frame one side, the inside slidable mounting of frame has the second coupling, second coupling one end with the feed pipe intercommunication, the bellows is installed to the second coupling other end, the bellows other end with first coupling intercommunication. This application utilizes the heat dissipation pipe fitting to be radiator main part for let in liquid and dispel the heat, distribute away the inside temperature of radiator, the frame is used for fixed heat dissipation pipe fitting, maintains the stability of heat dissipation pipe fitting position, installs the adjustment mechanism on the frame, is used for along the interval of frame adjustment heat dissipation pipe fitting, adapts to different circumstances installation and uses.

Description

Adjustable copper-aluminum composite radiator

Technical Field

The application relates to the technical field of radiators, in particular to an adjustable copper-aluminum composite radiator.

Background

The copper-aluminum composite radiator is one of copper water channel radiators, a 'double-water-channel' mode is mostly adopted, and although the thickness of the radiator is increased, the radiating effect is more ideal. The heat dissipation capacity of the three-dimensional double-water-channel radiator is much higher than that of the traditional single-water-channel radiator; and the convection space is optimized, so that the consumption is reduced and the resource consumption is reduced under the condition of equal heat dissipation.

But above-mentioned scheme still has certain defect, and the inventor finds through the research that current copper aluminium composite heat radiator's radiating fin is mostly fixed knot with the framework and constructs, inconvenient regulation, in the less usage space, the radiator can occupy great resource, and in the great usage space, the heat dissipation scope of radiator is less relatively, and inconvenient reply high strength heat dissipation demand.

How to invent an adjustable copper-aluminum composite radiator to improve the problems becomes a problem to be solved urgently by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In order to compensate for above not enough, the application provides a copper aluminium composite heat radiator with adjustable, aims at improving radiating fin and framework and mostly is fixed knot structure, the problem of inconvenient regulation.

The embodiment of the application provides a copper aluminium composite heat radiator with adjustable, including heat dissipation pipe fitting, frame and adjustment mechanism.

In the above-mentioned realization process, the heat dissipation pipe fitting is radiator main part for let in liquid and dispel the heat, distribute away the inside temperature of radiator, the frame is used for fixed heat dissipation pipe fitting, maintains the stability of heat dissipation pipe fitting position, installs the adjustment mechanism on the frame, is used for along the interval of frame adjustment heat dissipation pipe fitting, adapts to different circumstances installation and uses.

The radiating pipe fitting comprises a liquid supply pipe and fins, and the liquid supply pipe is fixedly installed on the inner walls of the fins.

In the above-mentioned realization process, by the heat dissipation pipe fitting that feed pipe and fin are constituteed, the feed pipe is used for letting in liquid, and liquid is near the fin of being connected with the feed pipe, because fin area of contact is great, can improve the radiating efficiency of liquid, gives out the heat of liquid.

First coupling is installed to frame one side, the inside slidable mounting of frame has the second coupling, second coupling one end with the feed pipe intercommunication, the bellows is installed to the second coupling other end, the bellows other end with first coupling intercommunication, frame lateral wall slidable mounting has the connecting piece, the fin is installed connecting piece one end.

In the implementation process, the first pipe joint and the second pipe joint are respectively installed on two side walls of the frame and used for liquid feeding and liquid discharging circulation of the liquid feeding pipe, circulation flowing of liquid in the middle of the heat dissipation pipe fitting is maintained, the corrugated pipe is used for communicating the first pipe joint and the second pipe joint, the corrugated sheet of the corrugated pipe can stretch out and draw back a certain distance along the folding direction, and the position of the corrugated pipe can be conveniently adjusted along with the movement of the heat dissipation pipe fitting.

The adjusting mechanism comprises a pin shaft, a button, a connecting plate and an elastic sheet, the pin shaft movably penetrates through the lower end of the connecting piece, a groove structure is formed in the side wall of the connecting piece, the button is movably inserted in the middle of a groove in the side wall of the connecting piece, the connecting plate is slidably mounted on the inner wall of the connecting piece, one end of the connecting plate is fixedly connected with the button, the elastic sheet is fixedly mounted at the upper end of the pin shaft, and the other end of the elastic sheet is fixedly connected with the other end of the connecting plate.

In the implementation process, the adjusting mechanism is arranged on the side wall of the connecting piece and used for limiting and fixing the heat dissipation pipe fitting arranged on the connecting piece, after the interval of the heat dissipation pipe fitting is adjusted, the relative position is stable to adapt to adjustment of different intervals, when the adjusting mechanism is used, the button is pressed, the button can drive the connecting plate to move towards the inner side wall of the connecting piece under the action of pressure, the elastic sheet is further compressed, the elastic sheet and the connecting plate are not clamped on the inner side wall of the connecting piece any more, then upward thrust is applied to the button, the button can be matched with the elastic sheet through the connecting plate to pull the pin to move upwards, the lower end of the pin is separated from the side wall of the frame, the connecting piece is conveniently moved along the frame, the position of the heat dissipation pipe fitting arranged on the connecting piece is adjusted, the button is loosened, the pressure is lost, and deformation generated by the previous pressure application can be released, the connecting plate and the button are driven to be clamped on the inner side wall of the connecting piece again, the possibility that the pin shaft is loosened is reduced, and the pin shaft is conveniently fixed in the through hole in the side wall of the frame again.

In a specific embodiment, the end part of the button is of a boss structure, a spring is sleeved in the middle of the button, one end of the spring is in elastic contact with the connecting piece, and the other end of the spring is in elastic contact with a boss at the end part of the button.

In the above-mentioned realization in-process, increase the spring in the middle of the button, when button atress removed, the spring can produce certain compression deformation because of the atress for when unclamping the button, release compression deformation volume, on the connection basis of connecting piece, pop out the button with button cooperation shell fragment, conveniently with button assembly recovery normal position.

In a specific embodiment, a fixture block is arranged in the middle of the connecting plate, a step edge structure matched with the groove of the side wall of the connecting piece is arranged on the side wall of the fixture block, and the connecting plate is tightly attached to the inner side wall of the connecting piece.

In the above-mentioned realization process, set up the fixture block in the middle of even board, when upwards promoting even board subassembly through the button, the fixture block can move to in the middle of the connecting piece lateral wall recess, and the cooperation connecting piece blocks even board subassembly, maintains the stability of even board subassembly position.

In a specific embodiment, the frame comprises an upper frame and a lower frame, the upper frame is movably mounted at the upper end of the lower frame, the connecting piece is slidably mounted on the side wall of the lower frame, and through holes matched with the lower ends of the pins are formed in one side of the lower frame at equal intervals.

In the above-mentioned realization process, go up frame and underframe and constitute frame set spare, can adjust the interval of going up frame and underframe as required to change frame set spare's width for the length of the heat dissipation pipe fitting of adaptation adjustment installation in the middle of the frame adapts to different scenes and uses, increases the through-hole at the lower frame lateral wall, and the through-hole is used for cooperating the round pin axle to fix a position, maintains the stability of heat dissipation pipe fitting position.

In a specific embodiment, a screw rod is rotatably installed on one side of the top of the upper frame, and the lower end of the screw rod is in threaded connection with the top of the lower frame.

In the implementation process, the lower end of the screw rod is in threaded connection with the top of the lower frame, the bearing piece is additionally arranged to enable the screw rod to rotate at the top of the upper frame, the screw rod is rotated during use and can be lifted from the top of the lower frame, and then the upper frame is driven to be lifted along the lower frame, so that the combined length of the upper frame and the lower frame is changed along with the combined length of the upper frame and the lower frame, and the combined length adapts to the use requirements of different scenes.

In a specific embodiment, a handle bolt is screwed on the side wall of the upper frame, and the end of the handle bolt penetrates through the side wall of the upper frame and is in contact with the lower frame.

In the implementation process, the handle bolt is installed on the side wall of the upper frame, the handle bolt is screwed, the end part of the handle bolt penetrates through the side wall of the upper frame to be in contact with the lower frame, the lower frame is clamped, the upper frame is fixed at the upper end of the lower frame, and the relative position of the upper frame and the lower frame is maintained stable.

In a specific embodiment, the number of the fins and the number of the liquid supply pipes are two, and the two groups of the fins are respectively fixedly arranged on the side walls of the upper frame and the lower frame.

In the implementation process, the fins are used for being connected with the liquid supply pipe, the fins can improve the heat dissipation efficiency of the liquid supply pipe, and the fins are convenient to dissipate heat on the periphery.

In a specific implementation scheme, the two groups of fin end parts are mutually clamped together, the two groups of liquid supply pipe end parts are communicated through a hose, and the inner side wall of each fin is provided with an avoiding groove structure matched with the hose.

In the above-mentioned realization process, two sets of feed pipes about increasing the hose connection, can maintain the feed pipe along with the fin when going up and down, keep the feed pipe can stably let in liquid, make things convenient for liquid to dispel the heat.

In a specific embodiment, a tray is fixedly installed at the bottom of the frame, and the side wall of the tray is clamped on the side wall of the frame.

In the above implementation process, the tray is installed at the bottom of the frame and used for supporting the frame assembly, so that the position of the frame assembly is kept stable, and the radiator assembly is fixed on the supporting base through the tray.

In a specific embodiment, the tray is mounted below the fins, and legs are threadedly attached to the bottom of the tray.

In the implementation process, the supporting legs are installed at the bottom of the tray and used for supporting the tray, condensed liquid falling from the lower portion of the fin assembly can be received by the tray, and the fin assembly is conveniently cleaned.

Drawings

In order to more clearly explain the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments 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 for those skilled in the art, other related drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic structural diagram of a copper-aluminum composite heat sink provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a heat dissipation pipe according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a frame member according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of an adjustment mechanism assembly provided in an embodiment of the present application;

fig. 5 is a schematic structural diagram of internal components of a frame according to an embodiment of the present disclosure.

In the figure: 100-heat dissipation pipe fittings; 110-a supply tube; 120-a fin; 130-a hose; 200-a frame; 210-a first pipe joint; 220-a second pipe joint; 230-a bellows; 240-a connector; 250-an upper frame; 251-a screw rod; 252-handle bolt; 260-a lower frame; 261-a via; 270-a tray; 280-support legs; 300-an adjustment mechanism; 310-a pin shaft; 320-a button; 321-a spring; 330-connecting plate; 331-a fixture block; 340-spring plate.

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.

To make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection of the present application.

Thus, the following detailed description of the embodiments of the present application, as presented in the figures, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments obtained by a person of ordinary skill in the art without any inventive work based on the embodiments in the present application are within the scope of protection 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.

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and thus should not be considered limiting.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact of the first and second features, or may comprise contact of the first and second features not directly but through another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1-5, the present application provides an adjustable copper-aluminum composite heat sink, which includes a heat dissipating pipe 100, a frame 200, and an adjusting mechanism 300.

When specifically setting up, heat dissipation pipe fitting 100 is the radiator main part for let in liquid and dispel the heat, distribute away the inside temperature of radiator, frame 200 is used for fixed heat dissipation pipe fitting 100, maintains the stability in heat dissipation pipe fitting 100 position, installs adjustment mechanism 300 on frame 200 for adjust the interval of heat dissipation pipe fitting 100 along frame 200, adapt to different circumstances installation and use.

Referring to fig. 2, the heat dissipating pipe 100 includes a liquid supply pipe 110 and a fin 120, and the liquid supply pipe 110 is fixedly installed on an inner wall of the fin 120.

When the heat dissipation pipe fitting 100 is specifically arranged, the heat dissipation pipe fitting is composed of the liquid supply pipe 110 and the fins 120, the liquid supply pipe 110 is used for introducing liquid, and when the liquid passes through the position near the fins 120 connected with the liquid supply pipe 110, the contact area of the fins 120 is large, so that the heat dissipation efficiency of the liquid can be improved, and the heat of the liquid can be dissipated.

Referring to fig. 1 and 5, a first pipe joint 210 is installed at one side of a frame 200, a second pipe joint 220 is installed in the frame 200 in a sliding manner, one end of the second pipe joint 220 is communicated with a liquid supply pipe 110, a corrugated pipe 230 is installed at the other end of the second pipe joint 220, the other end of the corrugated pipe 230 is communicated with the first pipe joint 210, a connecting member 240 is installed on the side wall of the frame 200 in a sliding manner, and a fin 120 is installed at one end of the connecting member 240.

When the heat dissipation pipe fitting 100 is specifically arranged, the first pipe joint 210 and the second pipe joint 220 are respectively installed on two side walls of the frame 200, the first pipe joint 210 and the second pipe joint 220 are used for liquid inlet and liquid outlet circulation of the liquid supply pipe 110, circulation flow of liquid in the middle of the heat dissipation pipe fitting 100 is maintained, the corrugated pipe 230 is used for communicating the first pipe joint 210 with the second pipe joint 220, and the corrugated sheet of the corrugated pipe 230 can stretch out and draw back for a certain distance along the folding direction, so that the position can be conveniently adjusted along with the movement of the heat dissipation pipe fitting 100.

Referring to fig. 1 and 4, the adjusting mechanism 300 includes a pin 310, a button 320, a connecting plate 330 and a spring plate 340, the pin 310 movably penetrates through the lower end of the connecting member 240, a groove structure is formed on the sidewall of the connecting member 240, the button 320 is movably inserted in the middle of the groove on the sidewall of the connecting member 240, the connecting plate 330 is slidably mounted on the inner wall of the connecting member 240, one end of the connecting plate 330 is fixedly connected with the button 320, the spring plate 340 is fixedly mounted at the upper end of the pin 310, the other end of the spring plate 340 is fixedly connected with the other end of the connecting plate 330, the end of the button 320 is of a boss structure, a spring 321 is sleeved in the middle of the button 320, one end of the spring 321 is in elastic contact with the connecting member 240, and the other end of the spring 321 is in elastic contact with the boss at the end of the button 320.

When the adjusting mechanism 300 is specifically arranged, the adjusting mechanism 300 is composed of a pin 310, a button 320, a connecting plate 330 and an elastic sheet 340, the adjusting mechanism 300 is installed on the side wall of the connecting piece 240 and used for limiting and fixing the heat dissipation pipe fitting 100 installed on the connecting piece 240, after the distance adjustment of the heat dissipation pipe fitting 100 is maintained, the relative position is stable and the adjusting mechanism adapts to the adjustment of different distances, when the adjusting mechanism is used, the button 320 is pressed, the button 320 can drive the connecting plate 330 to move towards the inner side wall of the connecting piece 240 under the action of pressure, the elastic sheet 340 is further compressed, the elastic sheet 340 and the connecting plate 330 are not clamped on the inner side wall of the connecting piece 240 any more, then upward thrust is applied to the button 320, the button 320 can pull the pin 310 to move upwards through the connecting plate 330 under the cooperation of the elastic sheet 340, the lower end of the pin 310 is separated from the side wall of the frame 200, the connecting piece 240 is convenient to move along the frame 200, and the position of the heat dissipation pipe fitting 100 installed on the connecting piece 240 is adjusted, when the button 320 is released, the elastic sheet 340 loses pressure, deformation generated by pressure applied during previous movement is released, the connecting plate 330 and the button 320 are driven to be clamped on the inner side wall of the connecting piece 240 again, the possibility that the pin shaft 310 is loosened is reduced, the pin shaft 310 is conveniently fixed in the through hole in the side wall of the frame 200 again, the spring 321 is additionally arranged in the middle of the button 320, when the button 320 is stressed and moved, the spring 321 can generate certain compression deformation due to stress, the compression deformation is released when the button 320 is released, the button 320 is matched with the elastic sheet 340 to eject the button 320 on the basis of connection of the connecting piece 240, and the button 320 assembly is conveniently restored to the original position.

Specifically, referring to fig. 4, a clamping block 331 is disposed in the middle of the connecting plate 330, a step edge structure matched with the groove of the side wall of the connecting member 240 is disposed on the side wall of the clamping block 331, and the connecting plate 330 is tightly attached to the inner side wall of the connecting member 240.

In a specific arrangement, a clamping block 331 is disposed in the middle of the connecting plate 330, and when the connecting plate 330 is pushed upwards by the button 320, the clamping block 331 moves to the middle of the groove on the sidewall of the connecting member 240, and cooperates with the connecting member 240 to clamp the connecting plate 330, so as to maintain the position stability of the connecting plate 330.

Specifically, referring to fig. 3 and 5, the frame 200 includes an upper frame 250 and a lower frame 260, the upper frame 250 is movably mounted on the upper end of the lower frame 260, the connecting member 240 is slidably mounted on the sidewall of the lower frame 260, and one side of the lower frame 260 is provided with through holes 261 which are matched with the lower end of the pin shaft 310 at equal intervals, one side of the top of the upper frame 250 is rotatably provided with a screw rod 251, the lower end of the screw rod 251 is connected with the top of the lower frame 260 in a threaded manner, the side wall of the upper frame 250 is connected with a handle bolt 252 in a threaded manner, the end part of the handle bolt 252 penetrates through the side wall of the upper frame 250 to be contacted with the lower frame 260, the number of the fins 120 and the liquid supply tubes 110 is two corresponding groups, the two groups of fins 120 are respectively and fixedly arranged on the side walls of the upper frame 250 and the lower frame 260, the end parts of the two groups of fins 120 are mutually clamped together, the ends of the two groups of liquid supply pipes 110 are communicated through a hose 130, and the inner side wall of the fin 120 is provided with an avoiding groove structure matched with the hose 130.

When the assembly is specifically arranged, the upper frame 250 and the lower frame 260 form a frame 200 assembly, the distance between the upper frame 250 and the lower frame 260 can be adjusted as required, so as to change the width of the frame 200 assembly, so as to adapt to the adjustment of the length of the heat dissipation pipe fitting 100 installed in the middle of the frame 200, and adapt to different scenes for use, a through hole 261 is added on the side wall of the lower frame 260, the through hole 261 is used for being matched with the pin shaft 310 for positioning, so as to maintain the position stability of the heat dissipation pipe fitting 100, the lower end of the screw rod 251 is connected to the top of the lower frame 260 in a threaded manner, meanwhile, a bearing member is added, so that the screw rod 251 can rotate at the top of the upper frame 250, when the screw rod 251 is rotated in use, the screw rod 251 can rise from the top of the lower frame 260, and then the upper frame 250 is lifted along the lower frame 260, so that the combined length of the upper frame 250 and the lower frame 260 is changed along with the change, so as to adapt to the use requirements of different scenes, the handle bolt 252 is installed on the side wall of the upper frame 250, the handle bolts 252 are screwed, the end parts of the handle bolts 252 penetrate through the side wall of the upper frame 250 to be in contact with the lower frame 260, the lower frame 260 is further clamped, the upper frame 250 is fixed at the upper end of the lower frame 260, the stability of the relative position of the upper frame 250 and the lower frame 260 is maintained, the fins 120 are used for being connected with the liquid supply pipes 110, the heat dissipation efficiency of the liquid supply pipes 110 can be improved through the fins 120, the heat dissipation of the periphery of the fins 120 is facilitated, the hose 130 is additionally arranged to connect the upper liquid supply pipe 110 and the lower liquid supply pipe 110, when the liquid supply pipes 110 are lifted along with the fins 120, the liquid can be stably introduced into the liquid supply pipes 110, and the liquid can be conveniently dissipated.

Specifically, referring to fig. 1 and 5, a tray 270 is fixedly mounted at the bottom of the frame 200, the side wall of the tray 270 is clamped to the side wall of the frame 200, the tray 270 is mounted below the fins 120, and the bottom of the tray 270 is connected with the supporting legs 280 through threads.

During specific setting, the tray 270 is installed at the bottom of the frame 200, the tray 270 is used for supporting the frame 200 assembly and maintaining the position stability of the frame 200 assembly, the heat sink assembly is fixed on a supporting base through the tray 270, the supporting legs 280 are installed at the bottom of the tray 270, the supporting legs 280 are used for supporting the tray 270, the tray 270 can receive condensed liquid falling from the lower side of the fin 120 assembly, and the fin 120 assembly is convenient to clean.

The working principle of the copper-aluminum composite radiator is as follows: when the cooling fin is used, the screw rod 251 is rotated, the screw rod 251 is lifted from the top of the lower frame 260, and then the upper frame 250 is lifted along the lower frame 260, so that the combined length of the upper frame 250 and the lower frame 260 is changed, the cooling fin is adapted to different use requirements, the handle bolt 252 is mounted on the side wall of the upper frame 250, the handle bolt 252 is screwed, the end of the handle bolt 252 penetrates through the side wall of the upper frame 250 to be in contact with the lower frame 260, and then the lower frame 260 is clamped, the upper frame 250 is fixed at the upper end of the lower frame 260, the relative position of the upper frame 250 and the lower frame 260 is maintained stable, the fin 120 is used for being connected with the liquid supply pipe 110, the fin 120 can improve the heat dissipation efficiency of the liquid supply pipe 110, the heat dissipation of the periphery of the fin 120 is facilitated, the hose 130 is additionally connected with the upper and the lower two groups of liquid supply pipes 110, so that the liquid supply pipe 110 can be stably introduced into the liquid supply pipe 110 when the fin 120 is lifted, the heat dissipation is facilitated, an adjusting mechanism 300 composed of a pin 310, a button 320, a connecting plate 330 and a spring plate 340, wherein the adjusting mechanism 300 is installed on the side wall of the connecting piece 240 and used for limiting and fixing the heat dissipation pipe fitting 100 installed on the connecting piece 240, after the distance adjustment of the heat dissipation pipe fitting 100 is maintained, the relative position is stable to adapt to the adjustment of different distances, when in use, the button 320 is pressed, the button 320 drives the connecting plate 330 to move towards the inner side wall of the connecting piece 240 under the action of pressure, the spring plate 340 is further compressed, the spring plate 340 and the connecting plate 330 are not clamped on the inner side wall of the connecting piece 240 any more, then upward thrust is applied to the button 320, the button 320 pulls the pin 310 to move upwards under the coordination of the spring plate 340 through the connecting plate 330, the lower end of the pin 310 is separated from the side wall of the frame 200, the connecting piece 240 is convenient to move along the frame 200, the position of the heat dissipation pipe fitting 100 installed on the connecting piece 240 is adjusted, the button 320 is released, the pressure of the spring plate 340 is lost, will exert the deformation release that the pressure produced when removing before, drive even board 330 and button 320 and block in the connecting piece 240 inside wall again, reduce the possibility that round pin axle 310 pine takes off, conveniently fix round pin axle 310 in the through-hole of frame 200 lateral wall again, increase spring 321 in the middle of button 320, when button 320 atress removes, spring 321 can produce certain compression deformation because of the atress, be used for when loosening button 320, release compression deformation volume, on the connection basis of connecting piece 240, with button 320 cooperation shell fragment 340 with button 320 pop out, conveniently restore the normal position with button 320 subassembly.

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.

Claims (10)

1. An adjustable copper-aluminum composite radiator is characterized by comprising

The heat dissipation pipe fitting (100) comprises a liquid supply pipe (110) and fins (120), wherein the liquid supply pipe (110) is fixedly arranged on the inner walls of the fins (120);

a first pipe joint (210) is installed on one side of the frame (200), a second pipe joint (220) is installed in the frame (200) in a sliding mode, one end of the second pipe joint (220) is communicated with the liquid supply pipe (110), a corrugated pipe (230) is installed at the other end of the second pipe joint (220), the other end of the corrugated pipe (230) is communicated with the first pipe joint (210), a connecting piece (240) is installed on the side wall of the frame (200) in a sliding mode, and the fin (120) is installed at one end of the connecting piece (240);

the adjusting mechanism (300) comprises a pin shaft (310), a button (320), a connecting plate (330) and an elastic sheet (340), wherein the pin shaft (310) movably penetrates through the lower end of the connecting piece (240), the side wall of the connecting piece (240) is provided with a groove structure, the button (320) is movably inserted in the middle of a groove of the side wall of the connecting piece (240), the connecting plate (330) is slidably mounted on the inner wall of the connecting piece (240), one end of the connecting plate (330) is fixedly connected with the button (320), the elastic sheet (340) is fixedly mounted at the upper end of the pin shaft (310), and the other end of the elastic sheet (340) is fixedly connected with the other end of the connecting plate (330).

2. The adjustable copper-aluminum composite radiator as claimed in claim 1, wherein the end of the button (320) is of a boss structure, a spring (321) is sleeved in the middle of the button (320), one end of the spring (321) is in elastic contact with the connecting piece (240), and the other end of the spring (321) is in elastic contact with the boss at the end of the button (320).

3. The adjustable copper-aluminum composite radiator as claimed in claim 1, wherein a fixture block (331) is provided in the middle of the connecting plate (330), a step edge structure matched with the groove of the side wall of the connecting member (240) is provided on the side wall of the fixture block (331), and the connecting plate (330) is tightly attached to the inner side wall of the connecting member (240).

4. The adjustable copper-aluminum composite heat sink as claimed in claim 1, wherein the frame (200) comprises an upper frame (250) and a lower frame (260), the upper frame (250) is movably mounted on the upper end of the lower frame (260), the connecting member (240) is slidably mounted on the sidewall of the lower frame (260), and through holes (261) matched with the lower ends of the pins (310) are formed in one side of the lower frame (260) at equal intervals.

5. The adjustable copper-aluminum composite heat sink as recited in claim 4, wherein a screw rod (251) is rotatably installed on one side of the top of said upper frame (250), and the lower end of said screw rod (251) is screwed on the top of said lower frame (260).

6. The adjustable copper-aluminum composite heat sink as recited in claim 5, characterized in that a handle bolt (252) is screwed on the sidewall of said upper frame (250), and the end of said handle bolt (252) penetrates through the sidewall of said upper frame (250) and contacts with said lower frame (260).

7. The adjustable copper-aluminum composite heat sink as claimed in claim 6, wherein the number of the fins (120) and the number of the liquid supply pipes (110) are two corresponding groups, and the two groups of fins (120) are respectively and fixedly mounted on the sidewalls of the upper frame (250) and the lower frame (260).

8. The adjustable copper-aluminum composite radiator as claimed in claim 7, wherein the ends of two sets of fins (120) are clamped together, the ends of two sets of liquid supply pipes (110) are communicated through a hose (130), and the inner side wall of each fin (120) is provided with an avoiding groove structure matched with the hose (130).

9. The adjustable copper-aluminum composite heat sink as recited in claim 1, wherein a tray (270) is fixedly mounted at the bottom of said frame (200), and the side wall of said tray (270) is fastened to the side wall of said frame (200).

10. The adjustable copper-aluminum composite heat sink as recited in claim 9, characterized in that the tray (270) is installed under the fins (120), and the bottom of the tray (270) is threaded with legs (280).

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