CN210742867U - Support type radiator - Google Patents

Abstract

The utility model discloses a bracket type radiator, which comprises a fan, a mounting shell, radiating fins, a heat conducting pipe and a bracket component for placing external electronic equipment; the mounting shell is hollow, the radiating fins are fixedly mounted in the mounting shell, at least 2 radiating fins are uniformly arranged, and a radiating air channel is formed between every two adjacent radiating fins; the fan is fixedly arranged on one side of the mounting shell, an air outlet is formed in the fan, and the air outlet is communicated with the heat dissipation air channel. In the utility model, the radiator has simple structure; the processing difficulty is reduced, the heat conduction pipe cannot occupy the space inside the installation shell, so that the heat dissipation space of the radiator can be more fully utilized, the air flow blown out from the fan cannot be blocked by the heat conduction pipe, but more smoothly passes through the heat dissipation air duct, the air flow mobility in the heat dissipation air duct is improved, and the heat dissipation effect is improved.

Description

Support type radiator

Technical Field

The utility model belongs to the heat-dissipating equipment field, in particular to be used for giving radiating radiator of electronic equipment.

Background

With the continuous increase of the power consumption and heat productivity of internal components of electronic equipment (such as a computer host), how to effectively cool the electronic equipment becomes a problem to be solved urgently, various radiators compete, and from the aspect of heat dissipation, at present, air cooling, water cooling and passive heat dissipation are common, and the price of water cooling products is too high, so that the selection of consumers is less, and the air cooling becomes the most popular selection. And in prior art, heat dissipation equipment can include fan, casing, fin, heat pipe and place electronic equipment's rack usually, and fin fixed mounting is in the casing, and the fan is installed and is provided cold wind for the casing in one side of casing, and the one end and the rack fixed connection of heat pipe, the other end can stretch in the casing and contact with the fin, and the heat pipe can occupy partial heat dissipation space, can influence the radiating effect, and processing is complicated.

Patent application CN201720634186.5 discloses a computer radiator, which comprises a housin, the casing is hollow structure, casing downside inner wall is equipped with the base, still be equipped with the fin in the casing, and the fin is located the top of base, the cover is equipped with a plurality of heat pipes in the fin, and heat pipe and base fixed connection, the lateral wall of fin still is equipped with the heat dissipation fan, and the fin lateral wall still is equipped with the pivot assorted driving motor of output shaft and heat dissipation fan, casing bottom inner wall is equipped with the support, and the support rotates through the axis of rotation and is connected with the bull stick, the lateral wall of bull stick is equipped with the connecting rod, casing bottom inner wall still is equipped with the leading truck of two relative settings, and two leading trucks are located the support both sides respectively, two be equipped with the kelly between the leading truck, and the kelly runs through the leading. Its simple structure, convenient operation can carry out efficient heat dissipation to the host computer, reduces the harm of heat to the host computer. However, in the heat sink, the heat sink and the heat pipe are both installed in the housing, and the heat pipe is sleeved on the heat sink, which occupies the heat dissipation space of the heat sink, so that the air flow in the heat dissipation space around the heat sink is poor, the heat dissipation space is small, the heat pipe can also block part of cold air from the fan, and the processing is complex.

Disclosure of Invention

In order to solve the problem, the utility model provides a support type radiator, this radiator simple structure, can reduce the processing degree of difficulty during manufacturing, the heat pipe can not occupy the inside space of installation casing for the heat dissipation space of this radiator can obtain more abundant utilization, and the air current that blows off from the fan can not blockked by the heat pipe yet, but more smooth and easy through heat dissipation wind channel, has improved the air current mobility in the heat dissipation wind channel, has improved the radiating effect.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a rack type heat sink comprises a fan, a mounting shell, heat dissipation fins, a heat conduction pipe and a rack component for placing external electronic equipment (such as a computer mainboard); the mounting shell is hollow, the radiating fins are fixedly mounted in the mounting shell, at least 2 radiating fins are uniformly arranged, and a radiating air channel is formed between every two adjacent radiating fins; the fan is fixedly arranged on one side of the mounting shell, an air outlet is formed in the fan, and the air outlet is communicated with the heat dissipation air channel; one end fixed mounting of heat pipe is at the surface of installation casing, other end and bracket component fixed connection, and electronic equipment places on the bracket component as the heat source, and the heat pipe has the heat conduction effect, can be with on the heat transfer of bracket component installs the casing, and the heat is taken away to the air current that the fan blew off, realizes the heat dissipation to electronic equipment, and the theory of operation is simple.

The utility model discloses a radiator, which comprises a fan, a mounting shell, radiating fins, a heat conducting pipe and a bracket component for placing external electronic equipment, and has a simple structure; the heat dissipation device comprises a heat dissipation air duct, a heat pipe, a fan, a heat dissipation air duct, a heat dissipation fan, a heat dissipation fin, a heat pipe and a fan, wherein the heat dissipation fin is arranged in the installation shell, the heat pipe is arranged on the outer surface of the installation shell, the connection relation between the heat pipe and the installation shell is simple, the processing difficulty is reduced, the heat pipe does not occupy the space inside the installation shell, the heat dissipation space of the heat dissipation fan can be more fully utilized, air flow blown.

Specifically, the heat pipe has 2 at least, and all align to grid, and every heat pipe all includes first installation department, connecting portion and second installation department, and first installation department and second installation department integral type are connected at the both ends of connecting portion, and first installation department fixed mounting is on the bracket component, and second installation department fixed mounting is at the upper surface of installation casing. Wherein, connecting portion are the arc, the simple structure of heat pipe.

Specifically, the bracket component comprises a base and a bracket, the bracket is fixedly connected with the first installation part through the base, the connection relation is simple, and the base can be made of aluminum materials.

The base comprises a left mounting part, a middle mounting part and a right mounting part, and the left mounting part and the right mounting part are respectively connected to two sides of the middle mounting part in an integrated manner; the support includes left socle and right branch frame, and left socle fixed mounting is on the left installation department, and right branch frame fixed mounting is on the right installation department, and first installation department fixed mounting is on middle installation department, and left socle, right branch frame and first installation department form the space of placing outside electronic equipment.

Specifically, the outer sides of the left mounting part and the middle mounting part form a left accommodating groove for accommodating the left bracket, and the outer sides of the right mounting part and the middle mounting part form a right accommodating groove for accommodating the right bracket; all opened first fixed orifices on left side installation department and the right installation department, all opened the second fixed orifices on left socle and the right branch frame, all installed the mounting on first fixed orifices and the second fixed orifices, back in left socle and the right branch frame difference plug-in left holding tank and the right holding tank, through the mounting respectively with left socle and right branch frame respectively fixed mounting on left installation department and right installation department.

Specifically, the left support and the right support both comprise a first placing part, a support connecting part and a second placing part, the first placing part and the second placing part are respectively connected to two ends of the support connecting part in an integrated mode, and the second fixing hole is formed in the support connecting part.

Specifically, the bracket component still includes fixed screw, elasticity and detains and the spring, and first portion of placing and the second portion of placing are all opened the screw via hole, and elasticity is detained and the spring all cup joints on fixed screw, and the spring is located the top that elasticity was detained, and fixed screw passes through elasticity and detains and spring fixed mounting on the screw via hole.

The outer wall of the fixing screw is provided with a clamping groove, the elastic buckle is clamped on the clamping groove, the lower part of the fixing screw is also provided with an external thread positioned below the clamping groove, the fixing screw is sleeved with a spring and then installed in a screw through hole and is fixed by the elastic buckle, and the spring and the elastic buckle are respectively positioned above and below the screw through hole.

The utility model has the advantages that:

compared with the prior art, the utility model discloses a support type radiator, this radiator simple structure, can reduce the processing degree of difficulty during manufacturing, the heat pipe can not occupy the inside space of installation casing for the heat dissipation space of this radiator can obtain more abundant utilization, and the air current that blows off from the fan can not blockked by the heat pipe yet, but more smooth and easy through the heat dissipation wind channel, has improved the air current mobility in the heat dissipation wind channel, has improved the radiating effect.

Drawings

Fig. 1 is a schematic structural view of a rack-type heat sink implemented by the present invention.

Fig. 2 is an exploded view of a rack-mounted heat sink in accordance with the present invention.

Fig. 3 is an enlarged view of a portion I in fig. 2.

Fig. 4 is a schematic front view of a rack-type heat sink according to the present invention.

Fig. 5 is a schematic structural diagram of a base in a rack-type heat sink according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical scheme of the utility model as follows:

referring to fig. 1-5, the rack-type heat sink of the present invention includes a fan 1, a mounting housing 2, heat dissipating fins 3, a heat pipe 4, and a rack assembly 5 for placing an external electronic device (e.g., a computer motherboard); the mounting shell 2 is hollow, the radiating fins 3 are fixedly mounted in the mounting shell 2, at least 2 radiating fins 3 are uniformly arranged, and a radiating air duct 6 is formed between every two adjacent radiating fins 3; the fan 1 is fixedly arranged on one side of the mounting shell 2, and an air outlet (not shown) is formed in the fan 1 and is communicated with the heat dissipation air duct 6; one end fixed mounting of heat pipe 4 is at the surface of installation casing 2, and the other end and 5 fixed connection of bracket component, and electronic equipment places on bracket component 5 as the heat source, and heat pipe 4 has the heat conduction effect, can be with heat transfer on the bracket component 5 to installation casing 2 on, and the heat is taken away to the air current that fan 1 blew out, realizes the heat dissipation to electronic equipment, and the theory of operation is simple.

In the utility model, the radiator comprises a fan 1, a mounting shell 2, radiating fins 3, a heat conducting pipe 4 and a bracket component 5 for placing external electronic equipment, and the structure is simple; install heat radiation fins 3 in installation casing 2, and heat pipe 4 installs the surface at installation casing 2, the relation of connection between heat pipe 4 and the installation casing 2 is simple, the processing degree of difficulty has been reduced, heat pipe 4 can not occupy the inside space of installation casing 2, make the heat dissipation space of this radiator can obtain more abundant utilization, the air current that blows off from fan 1 also can not be blockked by heat pipe 4, but more smooth and easy the wind channel 6 that dispels the heat that passes through, the air current mobility in the wind channel 6 that dispels the heat has been improved, the radiating effect has been improved.

In this embodiment, there are 3 heat conduction pipes 4, and all the heat conduction pipes are arranged uniformly, each heat conduction pipe 4 includes a first installation portion 41, a connection portion 42, and a second installation portion 43, the first installation portion 41 and the second installation portion 43 are integrally connected to both ends of the connection portion 42, the first installation portion 41 is fixedly installed on the bracket assembly 5, and the second installation portion 43 is fixedly installed on the upper surface of the installation housing 2. The connecting portion 42 is arc-shaped, and the heat pipe 4 has a simple structure.

In this embodiment, the bracket assembly 5 includes a base 51 and a bracket 52, the bracket 52 is fixedly connected to the first mounting portion 41 through the base 51, the connection relationship is simple, and the base 51 may be made of aluminum.

In the present embodiment, the base 51 includes a left mounting portion 511, a middle mounting portion 512, and a right mounting portion 513, and the left mounting portion 511 and the right mounting portion 513 are respectively integrally connected to both sides of the middle mounting portion 512; the stand 52 includes a left stand 521 and a right stand 522, one each of the left stand 521 and the right stand 522, the left stand 521 is fixedly mounted on the left mounting portion 511, the right stand 522 is fixedly mounted on the right mounting portion 513, the first mounting portion 41 is fixedly mounted on the middle mounting portion 512, and the left stand 521, the right stand 522 and the first mounting portion 41 form a space for placing an external electronic device.

In the present embodiment, the outer sides of the left and middle mounting parts 511 and 512 form a left receiving groove 514 for receiving the left bracket 521, and the outer sides of the right and middle mounting parts 513 and 512 form a right receiving groove 515 for receiving the right bracket 522; first fixing holes 516 are formed in the left mounting portion 511 and the right mounting portion 513, second fixing holes 523 are formed in the left support 521 and the right support 522, fixing pieces (not shown) are mounted on the first fixing holes 516 and the second fixing holes 523, and after the left support 521 and the right support 522 are inserted into the left accommodating groove 514 and the right accommodating groove 515 respectively, the left support 521 and the right support 522 are fixedly mounted on the left mounting portion 511 and the right mounting portion 513 respectively through the fixing pieces.

In the present embodiment, the left bracket 521 and the right bracket 522 each include a first placing portion 01, a bracket coupling portion 02, and a second placing portion 03, the first placing portion 01 and the second placing portion 03 are integrally coupled to both ends of the bracket coupling portion 02, the second fixing hole 523 is opened in the bracket coupling portion 02, and the left bracket 521 and the right bracket 522 may have the same structure.

In this embodiment, the bracket assembly 5 further includes a fixing screw 53, an elastic buckle 54 and a spring 55, the first placing portion 01 and the second placing portion 02 are both provided with a screw through hole 04, the elastic buckle 54 and the spring 55 are both sleeved on the fixing screw 51, the spring 55 is located above the elastic buckle 54, and the fixing screw 53 is fixedly mounted on the screw through hole 04 through the elastic buckle 54 and the spring 55; the fixing screws 53 and the bracket 52 may form an accommodating space, and for small-sized electronic devices, the electronic devices may be directly placed in the accommodating space, and limited by the 4 fixing screws 53.

The outer wall of the fixing screw 53 is provided with a clamping groove 56, the elastic buckle 54 is clamped on the clamping groove 56, the lower portion of the fixing screw 53 is further provided with an external thread located below the clamping groove 56, the fixing screw 53 is sleeved with a spring 55 and then installed into the screw through hole 04 and fixed by the elastic buckle 54, and the spring 55 and the elastic buckle 54 are located above and below the screw through hole 04 respectively.

The utility model has the advantages that:

compared with the prior art, the utility model discloses the posture radiator that implements, this radiator simple structure, can reduce the processing degree of difficulty during manufacturing, heat pipe 4 can not occupy the space of installing 2 inside of casing for the heat dissipation space of this radiator can obtain more abundant utilization, and the air current that blows off from fan 1 also can not be blockked by heat pipe 4, but more smooth and easy through heat dissipation wind channel 6, has improved the air current mobility in heat dissipation wind channel 6, has improved the radiating effect.

The above description is intended to be illustrative of the present invention and is not intended to be limiting, and all such modifications, equivalents and improvements as fall within the spirit and scope of the invention are intended to be included therein.

Claims (9)

1. A bracket type radiator is characterized by comprising a fan, a mounting shell, radiating fins, a heat conducting pipe and a bracket assembly for placing external electronic equipment; the mounting shell is hollow, the radiating fins are fixedly mounted in the mounting shell, at least 2 radiating fins are uniformly arranged, and a radiating air channel is formed between every two adjacent radiating fins; the fan is fixedly arranged on one side of the mounting shell, an air outlet is formed in the fan, and the air outlet is communicated with the heat dissipation air duct; one end of the heat conduction pipe is fixedly arranged on the outer surface of the mounting shell, and the other end of the heat conduction pipe is fixedly connected with the support component.

2. The rack-type heat sink of claim 1, wherein the number of the heat pipes is at least 2, and the heat pipes are uniformly arranged, each heat pipe comprises a first mounting portion, a connecting portion and a second mounting portion, the first mounting portion and the second mounting portion are integrally connected to two ends of the connecting portion, the first mounting portion is fixedly mounted on the bracket assembly, and the second mounting portion is fixedly mounted on the upper surface of the mounting housing.

3. The rack-mounted heat sink of claim 2, wherein the connecting portion is arcuate.

4. The rack-mounted heat sink of claim 2, wherein the bracket assembly includes a base and a rack, the rack being fixedly coupled to the first mounting portion via the base.

5. The rack-mounted heat sink of claim 4, wherein the base includes a left mounting portion, a middle mounting portion, and a right mounting portion, and the left mounting portion and the right mounting portion are integrally connected to both sides of the middle mounting portion, respectively; the support includes left socle and right branch frame, left socle fixed mounting be in on the left side installation department, right branch frame fixed mounting be in on the right side installation department, first installation department fixed mounting be in on the middle installation department, left socle, right branch frame and first installation department form the space of placing outside electronic equipment.

6. The rack mounted heat sink of claim 5, wherein the outer sides of said left mounting portion and said intermediate mounting portion form a left receiving groove for receiving a left rack, and the outer sides of said right mounting portion and said intermediate mounting portion form a right receiving groove for receiving a right rack; the left side installation department with all open on the installation department of the right side has first fixed orifices, the left socle with all open on the right branch frame has the second fixed orifices, first fixed orifices with all install the mounting on the second fixed orifices, the left socle with the right branch frame is inserted respectively and is advanced back in left holding tank and the right holding tank, through the mounting will respectively the left socle with the right branch frame is fixed mounting respectively the left side installation department with on the installation department of the right side.

7. The bracket-type heat sink according to claim 6, wherein the left bracket and the right bracket each include a first placing portion, a bracket coupling portion, and a second placing portion, the first placing portion and the second placing portion are integrally coupled to both ends of the bracket coupling portion, respectively, and the second fixing hole is opened in the bracket coupling portion.

8. The rack-type heat sink of claim 7, wherein the rack assembly further comprises a fixing screw, an elastic buckle and a spring, the first and second placing portions are respectively provided with a screw through hole, the elastic buckle and the spring are respectively sleeved on the fixing screw, the spring is located above the elastic buckle, and the fixing screw is fixedly mounted on the screw through hole through the elastic buckle and the spring.

9. The rack-type heat sink as claimed in claim 8, wherein the outer wall of the fixing screw is provided with a slot, the elastic buckle is fastened on the slot, the lower part of the fixing screw is further provided with an external thread below the slot, the fixing screw is sleeved with a spring and then installed in the screw through hole and fixed by the elastic buckle, and the spring and the elastic buckle are respectively located above and below the screw through hole.

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