CN207639059U - Adjustable radiation device - Google Patents

Abstract

The utility model discloses a kind of adjustable radiation devices, including primary heat dissipation ring, secondary heat dissipating ring, final stage thermal column, heat-removal bar and compressed spring, primary heat dissipation ring to be mounted on and wait on radiator；Secondary heat dissipating ring is arranged in primary heat dissipation ring, and slides up and down connection by sliding slot between the lateral surface and the medial surface of primary heat dissipation ring of secondary heat dissipating ring；Final stage thermal column is arranged in secondary heat dissipating ring, and slides up and down connection by sliding slot between the lateral surface of final stage thermal column and the medial surface of secondary heat dissipating ring；The lateral surface of secondary heat dissipating ring is provided with horizontal heat emission hole, and heat-removal bar is arranged in heat emission hole；The both ends of compressed spring are fixedly connected with the bottom surface of the inner end of heat-removal bar and radiating block respectively.The utility model releases out of heat emission hole thermal column by will be pulled out in primary heat dissipation ring in secondary heat dissipating ring and final stage thermal column, and by compressed spring, to realize the effect for increasing radiator heat-dissipation area, promotes its heat dissipation performance.

Description

Adjustable radiation device

Technical field

The utility model is related to field of radiating more particularly to a kind of adjustable radiation devices.

Background technology

For radiator as the device being arranged on the outside of electronic equipment, main function is by the contact with air by electronics In the heat transfer to air that equipment work generates, the temperature of electronic equipment is reduced, avoids it because high temperature influences its work Situation.Radiator at this stage is fixed structure, and radiating state can not be adjusted as needed.

Utility model content

The purpose of this utility model is that solve the above-mentioned problems and provides a kind of adjustable radiation device.

The utility model is achieved through the following technical solutions above-mentioned purpose：

A kind of adjustable radiation device, including,

Primary heat dissipation ring, the primary heat dissipation ring are mounted on and wait on radiator；

Secondary heat dissipating ring, the secondary heat dissipating ring are arranged in the primary heat dissipation ring, and the secondary heat dissipating ring is outer Connection is slided up and down by sliding slot between side and the medial surface of the primary heat dissipation ring；

Final stage thermal column, the final stage thermal column setting is in the secondary heat dissipating ring, and the final stage thermal column is outer Connection is slided up and down by sliding slot between side and the medial surface of the secondary heat dissipating ring；

The lateral surface of heat-removal bar, the secondary heat dissipating ring is provided with horizontal heat emission hole, and the heat-removal bar is arranged described In heat emission hole, and it can be slided inside and outside the heat emission hole；

Compressed spring, the compressed spring are arranged in the heat emission hole, and the both ends of the compressed spring respectively with institute The inner end for stating heat-removal bar is fixedly connected with the bottom surface of the heat emission hole.

Preferably, the central axes of the primary heat dissipation ring, the secondary heat dissipating ring and the final stage thermal column overlap, institute The internal diameter for stating primary heat dissipation ring is equal with the secondary outer diameter of heat dissipating ring, and the internal diameter of the secondary heat dissipating ring is dissipated with the final stage The diameter of plume is equal.

Specifically, multiple heat emission holes are divided into upper layer heat emission hole, middle level heat emission hole and lower layer's heat dissipation from top to bottom Hole, the plane where the upper layer heat emission hole, the middle level heat emission hole and lower layer's heat emission hole is mutually parallel, and the heat dissipation Kong Jun along the secondary heat dissipating ring radial direction setting, multiple heat-removal bars be divided into upper layer heat-removal bar, middle level heat-removal bar and Lower layer's heat-removal bar is separately positioned in the upper layer heat emission hole, middle level heat emission hole and lower layer's heat emission hole.

Further, the radiator further includes resetting cable and link block, the bottom surface of the heat emission hole be provided with it is described The through-hole being connected to inside secondary heat dissipating ring, the first end for resetting cable pass through the inner end of the through-hole and the heat-removal bar solid Fixed connection, the second end for resetting cable are fixedly connected with the link block, and the link block setting is in the secondary heat dissipation On the central axes of ring.

Specifically, with the reset cable of the upper layer heat-removal bar, the reset cable being connect with the middle level heat-removal bar and with The length of the reset cable of lower layer's heat-removal bar connection is sequentially reduced.

Further, the number of plies of the middle level heat emission hole can be multilayer.

Further, the quantity of the secondary heat dissipating ring can be multiple, and multiple secondary heat dissipating rings are same successively from outside to inside Axis slidable connection.

The beneficial effects of the utility model are：

The utility model adjustable radiation device is being needed by the way that can slide up and down secondary heat dissipating ring and final stage thermal column is arranged When increasing its heat dissipation performance, it will be pulled out in primary heat dissipation ring in secondary heat dissipating ring and final stage thermal column, and pass through compressed spring Thermal column is released out of heat emission hole, to realize the effect for increasing radiator heat-dissipation area, promotes its heat dissipation performance.

Description of the drawings

Fig. 1 is the sectional view of adjustable radiation device described in the utility model；

Fig. 2 is the vertical view of adjustable radiation device described in the utility model.

Specific implementation mode

The utility model is described in further detail below in conjunction with the accompanying drawings：

As depicted in figs. 1 and 2, a kind of adjustable radiation device of the utility model, including primary heat dissipation ring 1, secondary heat dissipating ring 2, final stage thermal column 3, heat-removal bar 4, reset cable 7, link block 8 and compressed spring 6, primary heat dissipation ring 1, which is mounted on, waits for heat dissipation dress It sets；Secondary heat dissipating ring 2 is arranged in primary heat dissipation ring 1, and the inside of the lateral surface and primary heat dissipation ring 1 of secondary heat dissipating ring 2 Connection is slided up and down by sliding slot between face；Final stage thermal column 3 is arranged in secondary heat dissipating ring 2, and the outside of final stage thermal column 3 Connection is slided up and down by sliding slot between face and the medial surface of secondary heat dissipating ring 2；The lateral surface of secondary heat dissipating ring 2 is provided with level Heat emission hole 5, heat-removal bar 4 is arranged in heat emission hole 5, and can be along the inside and outside sliding of heat emission hole 5；Compressed spring 6 is arranged in heat emission hole 5 It is interior, and the both ends of compressed spring 6 are fixedly connected with the bottom surface of the inner end of heat-removal bar 4 and heat emission hole respectively.Radiator further includes dissipating The bottom surface of hot hole 5 is provided with the through-hole being connected to inside secondary heat dissipating ring, and the first end for resetting cable 7 passes through through-hole and heat-removal bar 4 inner end is fixedly connected, and the second end for resetting cable 7 is fixedly connected with link block 8, and link block 8 is arranged in secondary heat dissipating ring On central axes.

The central axes of primary heat dissipation ring 1, secondary heat dissipating ring 2 and final stage thermal column 3 overlap, the internal diameter of primary heat dissipation ring 1 Equal with the outer diameter of secondary heat dissipating ring 2, the internal diameter of secondary heat dissipating ring 2 is equal with the diameter of final stage thermal column 3.

Multiple heat emission holes 5 are divided into upper layer heat emission hole, middle level heat emission hole and lower layer's heat emission hole, upper layer heat dissipation from top to bottom Plane where hole, middle level heat emission hole and lower layer's heat emission hole is mutually parallel, and heat emission hole is along the radial direction of secondary heat dissipating ring Setting, multiple heat-removal bars 4 divide for upper layer heat-removal bar 4, middle level heat-removal bar 4 and lower layer's heat-removal bar 4 be separately positioned on upper layer heat emission hole, In middle level heat emission hole and lower layer's heat emission hole, with upper layer heat-removal bar 4 reset cable 7, the reset cable that is connect with middle level heat-removal bar 4 7 and the length of the reset cable 7 being connect with lower layer heat-removal bar 4 be sequentially reduced.

In addition, as the case may be, the number of plies of middle level heat emission hole can be multilayer.The quantity of secondary heat dissipating ring 2 can be more It is a, multiple secondary heat dissipating rings 2 sequentially coaxially slidable connection from outside to inside.

The operation principle of the utility model adjustable radiation device is as follows：

When that need not carry out extra heat dissipation, the outer end of heat-removal bar 4 is resisted against on the medial surface of primary heat dissipation ring 1, at this time Compressed spring 6 is in compressive state (shown on the right side of Fig. 1), and final stage thermal column 3 is located in secondary heat dissipating ring 2, secondary heat dissipation Ring 2 is located in primary heat dissipation ring 1.

When needing to carry out extra heat dissipation, final stage thermal column 3 is pulled out out of secondary heat dissipating ring 2, by secondary heat dissipating ring 2 from It is pulled out in primary heat dissipation ring 1, under the action of compressed spring 6, heat-removal bar 4 is stretched out out of heat emission hole 5, and increasing heat radiation area dissipates Heat.

When needing to store radiator, final stage thermal column 3 is pressed into secondary heat dissipating ring 2, final stage thermal column 3 Lower end is compressed to resetting cable 7, resets cable 7 and heat-removal bar 4 is pulled to be contracted in heat emission hole 5, be convenient for secondary heat dissipating ring 2 In storage to primary heat dissipation ring 1.

The technical solution of the utility model is not limited to the limitation of above-mentioned specific embodiment, every skill according to the present utility model The technology deformation that art scheme is made, each falls within the scope of protection of the utility model.

Claims (7)

1. a kind of adjustable radiation device, it is characterised in that：Including,

Primary heat dissipation ring, the primary heat dissipation ring are mounted on and wait on radiator；

Secondary heat dissipating ring, the secondary heat dissipating ring are arranged in the primary heat dissipation ring, and the lateral surface of the secondary heat dissipating ring It is slided up and down and is connect by sliding slot between the medial surface of the primary heat dissipation ring；

Final stage thermal column, the final stage thermal column setting is in the secondary heat dissipating ring, and the lateral surface of the final stage thermal column It is slided up and down and is connect by sliding slot between the medial surface of the secondary heat dissipating ring；

The lateral surface of heat-removal bar, the secondary heat dissipating ring is provided with horizontal heat emission hole, and the heat-removal bar is arranged in the heat dissipation In hole, and it can be slided inside and outside the heat emission hole；

Compressed spring, the compressed spring are arranged in the heat emission hole, and the both ends of the compressed spring are dissipated with described respectively The inner end of hot rod is fixedly connected with the bottom surface of the heat emission hole.

2. adjustable radiation device according to claim 1, it is characterised in that：The primary heat dissipation ring, the secondary heat dissipation The central axes of ring and the final stage thermal column overlap, the outer diameter phase of the internal diameter of the primary heat dissipation ring and the secondary heat dissipating ring Deng, it is described secondary heat dissipating ring internal diameter it is equal with the diameter of final stage thermal column.

3. adjustable radiation device according to claim 1, it is characterised in that：Multiple heat emission holes divide successively from top to bottom For upper layer heat emission hole, middle level heat emission hole and lower layer's heat emission hole, the upper layer heat emission hole, the middle level heat emission hole and the lower layer dissipate Plane where hot hole is mutually parallel, and the heat emission hole is along the radial direction setting of the secondary heat dissipating ring, multiple described Heat-removal bar is divided into upper layer heat-removal bar, middle level heat-removal bar and lower layer's heat-removal bar and is separately positioned on the upper layer heat emission hole, middle level heat dissipation In hole and lower layer's heat emission hole.

4. adjustable radiation device according to claim 3, it is characterised in that：Further include resetting cable and link block, it is described The bottom surface of heat emission hole is provided with the through-hole being connected to inside the secondary heat dissipating ring, and the first end for resetting cable passes through described Through-hole is fixedly connected with the inner end of the heat-removal bar, and the second end for resetting cable is fixedly connected with the link block, described Link block is arranged on the central axes of the secondary heat dissipating ring.

5. adjustable radiation device according to claim 4, it is characterised in that：With the reset cable of the upper layer heat-removal bar, The length of the reset cable being connect with the middle level heat-removal bar and the reset cable being connect with lower layer's heat-removal bar is sequentially reduced.

6. adjustable radiation device according to claim 4, it is characterised in that：The number of plies of the middle level heat emission hole can be more Layer.

7. adjustable radiation device according to claim 1, it is characterised in that：The quantity of the secondary heat dissipating ring can be more It is a, multiple secondary heat dissipating rings sequentially coaxially slidable connection from outside to inside.