CN209459455U - High-efficiency radiator - Google Patents

Abstract

The utility model relates to a kind of high-efficiency radiators, comprising: pedestal, pedestal are equipped with several slots；The bottom of several radiating fins, radiating fin is equipped with the transplanting portion mating with slot, and the utensil receiving opening of at least one side opening is offered in transplanting portion；And it is carried on the heat conducting pipe group of the radiating fin；Wherein, heat conducting pipe group includes: the first heat conducting pipe for being threaded through the utensil receiving opening, offers several in corresponding first card slot of the slot on first heat conducting pipe, and radiating fin is mutually clamped with the first card slot, and first heat conducting pipe fits with the pedestal；The second heat conducting pipe being connected with first heat conducting pipe, second heat conducting pipe is L-shaped, and the first side of second heat conducting pipe and the upper end of radiating fin are pressed against each other；And connecting tube.The radiator of the utility model can be by all radiating fin integral disassembly, assemblies, and installation process is simple and fast.

Description

High-efficiency radiator

Technical field

The utility model relates to heat sink technology field, in particular to a kind of high-efficiency radiator.

Background technique

Radiator is usually made of the pedestal that radiating fin and one are in contact with heater, and in order to improve leading for cooling fin Hot property usually can also be embedded heat conducting pipe on the base, and the quantity of radiating fin and area are to influence radiator heat-dissipation performance One of principal element, the closeer the quantity of usual radiating fin the more, and heat dissipation effect is better；And produce for convenience, usually will Radiating fin and pedestal are arranged to removably, but since the quantity of radiating fin is more, radiating fin is successively assembled to base Process is relatively complicated on seat, when especially needing reusing in radiating fin dismounting replacement to other pedestals.

Utility model content

In order to solve the above technical problems, the utility model provides a kind of high-efficiency radiator, there is assembly and disassembly radiating fin more Add convenient advantage.

In order to achieve the above objectives, the technical solution of the utility model is as follows:

A kind of high-efficiency radiator, comprising:

Pedestal, the pedestal are equipped with several slots；

The bottom of several radiating fins, the radiating fin is equipped with the transplanting portion mating with the slot, and described The utensil receiving opening of at least one side opening is offered in transplanting portion；And

It is carried on the heat conducting pipe group of the radiating fin；

Wherein, the heat conducting pipe group includes:

It is threaded through the first heat conducting pipe of the utensil receiving opening, is offered on first heat conducting pipe several opposite in the slot The first card slot answered, the radiating fin are mutually clamped with first card slot, and first heat conducting pipe is affixed with the pedestal It closes；

The second heat conducting pipe being connected with first heat conducting pipe, second heat conducting pipe is L-shaped, and described second thermally conductive Second side of pipe and the upper end of radiating fin are pressed against each other；And

It is set between first heat conducting pipe and the second heat conducting pipe and is located at leading with described second for the radiating fin The opposite side in first side of heat pipe, the connecting tube for connecting first heat conducting pipe Yu second heat conducting pipe.

Realize that each radiating fin is first corresponded to inlay card in each of the first heat conducting pipe when being assembled by above-mentioned technical proposal In first card slot, it is connected after radiating fin is all installed, then by the second heat conducting pipe with the first heat conducting pipe, and make second First side of heat conducting pipe and the upper end of radiating fin are pressed against each other, and the first heat conducting pipe and the second heat conducting pipe form U in whole combination The overall structure of type shape is connected by being fixedly clamped for each radiating fin, then by connecting tube with the first heat conducting pipe and the second heat conducting pipe It connects, so that the frame-type structure of an entirety is formed, so that several radiating fins form an entirety, finally directly by all heat dissipations Fin directly correspondence is plugged on slot, can form the radiator of completion；And it is installed to when needing to remove each radiating fin , only need to be by integral installation again after all radiating fin overall pulling downs when on the pedestal of other equipment, installation process is simply fast It is prompt；Meanwhile first ingress pipe the heat on pedestal can be quickly transferred to the end of radiating fin, enable heat quick It is dispersed on radiating fin, improves radiating efficiency and heat dissipation effect.

As a kind of preferred embodiment of the utility model, first heat conducting pipe is set close to one end of second heat conducting pipe There is the linkage section of inverted U, the linkage section is connect with the first side of second heat conducting pipe by the first connector sleeve.

As a kind of preferred embodiment of the utility model, the connecting tube is C-shaped, and the first horizontal segment of the connecting tube It is connected with first heat conducting pipe by the second connector sleeve, the of the second horizontal segment of the connecting tube and second heat conducting pipe Two sides are connected by third connector sleeve.

Above-mentioned technical proposal is realized, by the first connector sleeve, the second connector sleeve and third connector sleeve by the first heat conducting pipe, the Two heat conducting pipes and third heat conducting pipe are connected to form a whole, and since the first connector sleeve is numerical value arrangement, the second connector sleeve It is horizontal layout with third connector sleeve, so that the first heat conducting pipe and the second heat conducting pipe are not easily disconnected from, makes the two connection more It is firm.

As a kind of preferred embodiment of the utility model, the vertical section of the connecting tube and the outermost radiating fin It fits.

It realizes above-mentioned technical proposal, can be convenient connecting tube and carry out heat transfer, further increase radiating efficiency.

As a kind of preferred embodiment of the utility model, offered on the pedestal compatible with first heat conducting pipe Thermal trough, first heat conducting pipe are embedded in the thermal trough.

Above-mentioned technical proposal is realized, so that the contact area of the first heat conducting pipe and pedestal is bigger, so that the heat on pedestal It can more quickly be transmitted on the first heat conducting pipe.

As a kind of preferred embodiment of the utility model, second side of second heat conducting pipe is offered and first card The second card slot that slot matches, the upper end of the radiating fin are caught in second card slot.

As a kind of preferred embodiment of the utility model, the upper end of the radiating fin is equipped with mutually fits with second card slot The bayonet matched.

It realizes above-mentioned technical proposal, by the second card slot and bayonet the second heat conducting pipe and radiating fin is clamped more Closely, so that fixed more firm of each radiating fin.

As a kind of preferred embodiment of the utility model, on the first side of first heat conducting pipe and second heat conducting pipe Equipped with the first caulking groove compatible with first connector sleeve, in the first horizontal segment of first heat conducting pipe and the connecting tube Equipped with the second caulking groove compatible with second connector sleeve, second side of second heat conducting pipe and the second of the connecting tube Horizontal segment is equipped with third caulking groove compatible with the third connector sleeve.

Above-mentioned technical proposal is realized, so that connect with connecting tube more stable of the first heat conducting pipe, the second heat conducting pipe and not Easily slip.

As a kind of preferred embodiment of the utility model, the radiating fin waveform.

It realizes above-mentioned technical proposal, increases the heat dissipation area of radiating fin, improve heat dissipation effect.

In conclusion the utility model has the following beneficial effects:

The utility model embodiment is by providing a kind of high-efficiency radiator, comprising: pedestal, the pedestal are equipped with several insert Slot；Several radiating fins, the bottom of the radiating fin are equipped with the transplanting portion mating with the slot, and the transplanting portion On offer the utensil receiving opening of at least one side opening；And it is carried on the heat conducting pipe group of the radiating fin；Wherein, described Heat conducting pipe group includes: the first heat conducting pipe for being threaded through the utensil receiving opening, is offered on first heat conducting pipe several in described slotting Corresponding first card slot of slot, the radiating fin are mutually clamped with first card slot, and first heat conducting pipe and the base Seat fits；The second heat conducting pipe being connected with first heat conducting pipe, second heat conducting pipe is L-shaped, and described second leads First side of heat pipe and the upper end of radiating fin are pressed against each other；And be set between first heat conducting pipe and the second heat conducting pipe, And it is located at the side opposite with the first side of second heat conducting pipe of the radiating fin, for connecting first heat conducting pipe With the connecting tube of second heat conducting pipe.When being assembled, each radiating fin is first corresponded into inlay card in each of the first heat conducting pipe In first card slot, it is connected after radiating fin is all installed, then by the second heat conducting pipe with the first heat conducting pipe, and make second First side of heat conducting pipe and the upper end of radiating fin are pressed against each other, and the first heat conducting pipe and the second heat conducting pipe form U in whole combination The overall structure of type shape is connected by being fixedly clamped for each radiating fin, then by connecting tube with the first heat conducting pipe and the second heat conducting pipe It connects, so that the frame-type structure of an entirety is formed, so that several radiating fins form an entirety, finally directly by all heat dissipations Fin directly correspondence is plugged on slot, can form the radiator of completion；And it is installed to when needing to remove each radiating fin , only need to be by integral installation again after all radiating fin overall pulling downs when on the pedestal of other equipment, installation process is simply fast It is prompt；Meanwhile first ingress pipe the heat on pedestal can be quickly transferred to the end of radiating fin, enable heat quick It is dispersed on radiating fin, improves radiating efficiency and heat dissipation effect.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the main view of the utility model embodiment.

Fig. 2 is the side view of the utility model embodiment.

Fig. 3 is the structural schematic diagram of radiating fin in the utility model embodiment.

Fig. 4 is the structural schematic diagram of the first heat conducting pipe in the utility model embodiment.

Fig. 5 is the structural schematic diagram of the second heat conducting pipe in the utility model embodiment.

Number and corresponding component title represented by letter in figure:

1, pedestal；11, slot；12, thermal trough；2, radiating fin；21, transplanting portion；22, utensil receiving opening；23, bayonet；31, One heat conducting pipe；311, the first card slot；312, linkage section；32, the second heat conducting pipe；321, the first side；322, second side；323, second Card slot；33, connecting tube；331, first horizontal segment；332, the second horizontal segment；333, vertical section；34, the first connector sleeve；341, One caulking groove；35, the second connector sleeve；351, the second caulking groove；36, third connector sleeve；361, third caulking groove.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts Every other embodiment obtained, fall within the protection scope of the utility model.

Embodiment

A kind of high-efficiency radiator, as shown in Figures 1 to 5, comprising: pedestal 1, pedestal 1 are equipped with several slots 11；It is several to dissipate The bottom of hot fin 2, radiating fin 2 is equipped with the transplanting portion 21 mating with slot 11, and offers at least in transplanting portion 21 The utensil receiving opening 22 of one side opening；And it is carried on the heat conducting pipe group of radiating fin 2.

Specifically, 2 waveform of radiating fin, the heat dissipation area of radiating fin 2 is increased by wavy radiating surface, from And heat dissipation effect is improved, transplanting portion 21 can be the shapes such as dove-tail form, T-type or L-type, and in the present embodiment, transplanting portion 21 is With the U-shaped of elastic deformation ability, when transplanting portion 21 is plugged in slot 11, plug division can occur elastic deformation and be clamped on In slot 11.

Heat conducting pipe group includes: the first heat conducting pipe 31 for being threaded through utensil receiving opening 22, offered on the first heat conducting pipe 31 it is several in Corresponding first card slot 311 of slot 11, radiating fin 2 are clamped with 311 phase of the first card slot, and the first heat conducting pipe 31 and pedestal 1 It fits；The second heat conducting pipe 32 being connected with the first heat conducting pipe 31, the second heat conducting pipe 32 is L-shaped, and the second heat conducting pipe 32 Second side 322 and the upper end of radiating fin 2 are pressed against each other；And be set between the first heat conducting pipe 31 and the second heat conducting pipe 32 and Positioned at the side opposite with the first side 321 of the second heat conducting pipe 32 of radiating fin 2, for connecting the first heat conducting pipe 31 and second The connecting tube 33 of heat conducting pipe 32；In the present embodiment, heat conducting pipe group is arranged two groups, and two groups of heat conducting pipe groups are separately positioned on radiating fin 2 lean on the position of two close end.

First heat conducting pipe 31 is equipped with the linkage section 312 of inverted U, linkage section 312 and the close to one end of the second heat conducting pipe 32 First side 321 of two heat conducting pipes 32 is connected by the first connector sleeve 34, and linkage section 312 and the first heat conducting pipe 31 are integrally formed, even Adapter tube 33 is C-shaped, and the first horizontal segment 331 of connecting tube 33 is connected with the first heat conducting pipe 31 by the second connector sleeve 35, is connected Second horizontal segment 332 of pipe 33 is connected with second side 322 of the second heat conducting pipe 32 by third connector sleeve 36；First connector sleeve 34, the second connector sleeve 35, third connector sleeve 36 are rubber sleeve or metallic sheath, and by the first heat conducting pipe 31, the second heat conducting pipe 32 and 33 banding of connecting tube；By the first connector sleeve 34, the second connector sleeve 35 and third connector sleeve 36 by the first heat conducting pipe 31, Two heat conducting pipes 32 and third heat conducting pipe are connected to form a whole, and since the first connector sleeve 34 is numerical value arrangement, the second company Female connector 35 and third connector sleeve 36 are horizontal layouts, so that the first heat conducting pipe 31 and the second heat conducting pipe 32 are not easily disconnected from, make two Person connects more firm.

And in general, when connecting tube 33 is connected with the first heat conducting pipe 31 and the second heat conducting pipe 32, the vertical section of connecting tube 33 333 fit with outermost radiating fin 2, so as to facilitate connecting tube 33 to carry out heat transfer, further increase heat dissipation effect Rate.

It is more stable in order to connect the first heat conducting pipe 31, the second heat conducting pipe 32 and connecting tube 33, in the first heat conducting pipe 31 are equipped with first caulking groove 341 compatible with the first connector sleeve 34, the first heat conducting pipe with the first side 321 of the second heat conducting pipe 32 31 are equipped with second caulking groove 351 compatible with the second connector sleeve 35, the second heat conducting pipe with the first horizontal segment 331 of connecting tube 33 32 second side 322 is equipped with third caulking groove 361 compatible with third connector sleeve 36 with the second horizontal segment 332 of connecting tube 33, First connector sleeve 34 is embedded in the first caulking groove 341, and the second connector sleeve 35 is embedded in the second caulking groove 351, and third connector sleeve 36 is embedded in In third caulking groove 361, thus only could when the first connector sleeve 34, the second connector sleeve 35 and third connector sleeve 36 are flared out It is enough to remove.

Further, the second card slot to match with the first card slot 311 is offered in second side 322 of the second heat conducting pipe 32 323, the upper end of radiating fin 2 is caught in the second card slot 323, correspondingly, being equipped with and the second card slot 323 in the upper end of radiating fin 2 Compatible bayonet 23；Make what the second heat conducting pipe 32 and radiating fin 2 be clamped more to step up by the second card slot 323 and bayonet 23 It is close, so that the fixation of each radiating fin 2 is more firm.

Further, thermal trough 12 compatible with the first heat conducting pipe 31 is offered on pedestal 1, the first heat conducting pipe 31 is embedding It is located in thermal trough 12, makes the contact area of the first heat conducting pipe 31 and pedestal 1 bigger by thermal trough 12, so that on pedestal 1 Heat can more quickly be transmitted on the first heat conducting pipe 31.

When being assembled, first by the corresponding inlay card of each radiating fin 2 in each first card slot 311 of the first heat conducting pipe 31, It is connected after radiating fin 2 is all installed, then by the second heat conducting pipe 32 with the first heat conducting pipe 31, and makes the second heat conducting pipe 32 the first side 321 and the upper end of radiating fin 2 are pressed against each other, and the first heat conducting pipe 31 and the second heat conducting pipe 32 are in whole combination shape At the overall structure of U-shaped shape, led by being fixedly clamped for each radiating fin 2, then by connecting tube 33 and the first heat conducting pipe 31 and second Heat pipe 32 is connected, so that the frame-type structure of an entirety is formed, so that several radiating fins 2 form an entirety, and it is last straight It connects and all directly correspondences of radiating fin 2 is plugged on slot 11, the radiator of completion can be formed；And works as and need each heat dissipation It, only need to be by integral installation is again after all 2 overall pulling downs of radiating fin when the dismounting of fin 2 is installed on the pedestal 1 of other equipment Can, installation process is simple and fast；Meanwhile first ingress pipe the heat on pedestal 1 can be quickly transferred to the end of radiating fin 2 Portion enables heat to be quickly dispersed on radiating fin 2, improves radiating efficiency and heat dissipation effect.

The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The widest scope consistent with features of novelty.

Claims (9)

1. a kind of high-efficiency radiator characterized by comprising

Pedestal, the pedestal are equipped with several slots；

Several radiating fins, the bottom of the radiating fin are equipped with the transplanting portion mating with the slot, and the transplanting The utensil receiving opening of at least one side opening is offered in portion；And

It is carried on the heat conducting pipe group of the radiating fin；

Wherein, the heat conducting pipe group includes:

It is threaded through the first heat conducting pipe of the utensil receiving opening, is offered on first heat conducting pipe several corresponding in the slot First card slot, the radiating fin are mutually clamped with first card slot, and first heat conducting pipe fits with the pedestal；

The second heat conducting pipe being connected with first heat conducting pipe, second heat conducting pipe is L-shaped, and second heat conducting pipe The upper end of second side and radiating fin is pressed against each other；And

It is set between first heat conducting pipe and the second heat conducting pipe and being located at the radiating fin with second heat conducting pipe The opposite side in the first side, the connecting tube for connecting first heat conducting pipe Yu second heat conducting pipe.

2. high-efficiency radiator according to claim 1, which is characterized in that first heat conducting pipe is thermally conductive close to described second First side of linkage section of the one end of pipe equipped with inverted U, the linkage section and second heat conducting pipe passes through the first connector sleeve and connects It connects.

3. high-efficiency radiator according to claim 2, which is characterized in that the connecting tube is C-shaped, and the connecting tube First horizontal segment is connected with first heat conducting pipe by the second connector sleeve, the second horizontal segment of the connecting tube and described second Second side of heat conducting pipe is connected by third connector sleeve.

4. high-efficiency radiator according to claim 3, which is characterized in that the vertical section of the connecting tube and outermost institute Radiating fin is stated to fit.

5. high-efficiency radiator according to claim 1, which is characterized in that offered on the pedestal with it is described first thermally conductive Compatible thermal trough is managed, first heat conducting pipe is embedded in the thermal trough.

6. high-efficiency radiator according to claim 1, which is characterized in that second side of second heat conducting pipe offer with The second card slot that first card slot matches, the upper end of the radiating fin are caught in second card slot.

7. high-efficiency radiator according to claim 6, which is characterized in that the upper end of the radiating fin is equipped with and described the The compatible bayonet of two draw-in groove.

8. high-efficiency radiator according to claim 3, which is characterized in that first heat conducting pipe and second heat conducting pipe The first side be equipped with the first caulking groove compatible with first connector sleeve, the of first heat conducting pipe and the connecting tube One horizontal segment is equipped with the second caulking groove compatible with second connector sleeve, second side of second heat conducting pipe and the company Second horizontal segment of adapter tube is equipped with third caulking groove compatible with the third connector sleeve.

9. high-efficiency radiator according to claim 1, which is characterized in that the radiating fin waveform.