CN220254960U - Adjustable metal heat radiation plate structure - Google Patents

Abstract

The utility model discloses an adjustable metal heat radiation plate structure, relates to the related field of heat radiation plates, and aims to solve the problems that in the prior art, the mounting and the use of a heat radiation plate structure are specific, and when the production of partial electronic equipment is stopped or stopped due to surplus productivity, the heat radiation plate structure matched with the electronic equipment cannot be utilized, and the universality is low. The first length adjusting component and the second length adjusting component comprise longitudinal connecting rods, the first adjusting radiating plates are fixed on the first length adjusting component at equal intervals on the inner sides of the longitudinal connecting rods, the front end and the rear end of the first adjusting radiating plates are respectively provided with an adjusting sliding groove on the inner sides of the inner end faces of the first adjusting radiating plates and the inner sides of the front end faces and the rear end faces of the first adjusting radiating plates, the second adjusting radiating plates are fixed on the second length adjusting component at equal intervals on the inner sides of the longitudinal connecting rods, the number of the second adjusting radiating plates is one less than that of the first adjusting radiating plates, and the second adjusting radiating plates are arranged in a staggered mode with the first adjusting radiating plates.

Description

Adjustable metal heat radiation plate structure

Technical Field

The utility model relates to the field of heat dissipation plates, in particular to an adjustable metal heat dissipation plate structure.

Background

Because of the rapid progress of technology, the computing functions of electronic devices such as mobile phones, tablets, notebook computers and the like are more and more powerful, and internal Central Processing Units (CPUs), integrated Circuits (ICs) or other heating components can generate quite high heat during operation, and the heat energy generated by electric energy loss is discharged through the work of a heat dissipation structure, so that the internal working temperature is ensured to be lower than the limit temperature, and various electronic devices can work normally. However, modern people pursue high performance, low weight and attractive appearance, and the volume and appearance of electronic equipment are becoming flatter, thinner and lighter, so that the functions of each heat dissipation structure in the electronic equipment are extremely tested.

The traditional heat radiation structure radiates heat through the heat radiation fan, so that the simple heat radiation fan cannot meet the light and thin requirements and is insufficient for radiating all elements at present due to pursuit of performance and appearance, and therefore the heat radiation structure is provided with the heat radiation plate structure for matching, and for a high-performance notebook, the heat of the electronic element is led out and radiated by the heat radiation plate, and then the heat radiation fan is used for radiating heat; for mobile phones, flat panels or light notebooks, the heat dissipation plate is mainly used for heat dissipation.

Because the sizes of the heating elements in different electronic equipment are different, in order to ensure the heat dissipation effect, a plurality of heat dissipation plate structures matched with the sizes are required to conduct heat conduction and heat dissipation, namely, the installation and use of the existing heat dissipation plate structure are specific, and when the production of part of electronic equipment is stopped or stopped due to surplus productivity, the heat dissipation plate structure matched with the electronic equipment cannot be utilized, so that the universality is low.

Disclosure of Invention

The utility model aims to provide an adjustable metal heat radiation plate structure, which solves the problems that the installation and the use of the heat radiation plate structure proposed in the background technology are specific, and when the production of partial electronic equipment is stopped or stopped due to excessive productivity, the heat radiation plate structure matched with the heat radiation plate structure cannot be utilized, and the universality is low.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a metal heating panel structure with adjustable, includes first length adjustment subassembly and second length adjustment subassembly, first length adjustment subassembly and second length adjustment subassembly all include longitudinal connecting rod, the inboard equidistance of longitudinal connecting rod is fixed with first regulation heating panel on the first length adjustment subassembly, and the front and back end the inboard of terminal surface and other in the first regulation heating panel terminal surface all has seted up and has been adjusted the sliding tray around the first regulation heating panel, the inboard equidistance of longitudinal connecting rod is fixed with the second and adjusts the heating panel on the second length adjustment subassembly, and the quantity of second regulation heating panel is less than first regulation heating panel quantity one, and the second is adjusted the heating panel and is crisscross the setting with first regulation heating panel, the inboard of second regulation heating panel front and back end is equal fixedly connected with and is adjusted the slider, adjusts the length of slider and is less than the length of adjusting the sliding tray, adjusts the slider and slides along adjusting the sliding tray.

Preferably, the outer sides of the lower ends of the first adjusting heat dissipation plates and the outer sides of the lower ends of the second adjusting heat dissipation plates are respectively provided with a lower heat conduction component, one lower heat conduction component is jointly fixed with the first adjusting heat dissipation plates, and the other lower heat conduction component is jointly fixed with the second adjusting heat dissipation plates.

Preferably, the lower heat conduction assembly comprises a connecting rectangular plate and a telescopic rectangular plate, the connecting rectangular plate is in telescopic connection with the telescopic rectangular plate, a silica gel buffer cavity is fixed inside the connecting rectangular plate along the inner end of the telescopic rectangular plate, and the inner end of the telescopic rectangular plate is embedded into the silica gel buffer cavity and is fixed with the silica gel buffer cavity.

Preferably, the outer end of the telescopic rectangular plate is welded and fixed with a lower heat conducting plate.

Preferably, the first adjusting heat dissipation plate is provided with a sliding limit groove along the inner end of the adjusting sliding groove, and the outer end of the second adjusting heat dissipation plate, which is provided with an adjusting sliding bar, is fixed with a sliding limit bar which slides along the sliding limit groove in a limiting manner.

Preferably, the upper ends of the first adjusting heat dissipation plate and the second adjusting heat dissipation plate are welded and fixed with heat dissipation plate bodies, and the heat dissipation plate bodies are composed of half ring bodies and rectangular plate bodies which are alternately arranged.

Preferably, the front end and the rear end of the outer part of the longitudinal connecting rod are fixedly welded with Z-shaped mounting plates, and the lower horizontal part of each Z-shaped mounting plate is provided with a mounting hole in a penetrating way.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the utility model, the longitudinal connecting rods on the first length adjusting assembly and the second length adjusting assembly are pulled outwards, and the adjusting sliding strips and the sliding limiting strips on the second adjusting radiating plate slide along the adjusting sliding grooves and the sliding limiting grooves on the first adjusting radiating plate, so that the length of the radiating plate structure is matched with the installation size of the target position; the length adjustment of the heat dissipation plate structure enlarges the use universality, and solves the problems that the heat dissipation plate structure matched with the heat dissipation plate structure cannot be utilized and has low universality when the production of partial electronic equipment is suspended or stopped due to excessive productivity due to the specificity of the installation and use of the existing heat dissipation plate structure. And the first adjusting radiating plate and the second adjusting radiating plate are used as a ring in the heat conduction system, so that heat conduction is realized, and the temperature rise around the heating element is avoided.

2. According to the utility model, the upper and lower heat conducting plates of the lower heat conducting component are pressed outside the heating element, and the telescopic rectangular plate moves inwards along with the screwing and fixing of the screw to be embedded into the silica gel buffer cavity, so that the lower heat conducting plate is tightly attached to the outside of the heating element, the contact area between the conducting piece and the heating element is maximized, and the heat conducting effect cannot be influenced due to different heights of the heating element.

3. In the utility model, heat on the heating element is conducted to a first adjusting heat dissipation plate on the first length adjusting assembly and a second adjusting heat dissipation plate on the second length adjusting assembly along the lower heat conduction plate, the telescopic rectangular plate and the connecting rectangular plate, and the plurality of first adjusting heat dissipation plates and the plurality of second adjusting heat dissipation plates conduct heat dissipation, and meanwhile, the heat dissipation is conducted by a heat dissipation plate main body outside the first adjusting heat dissipation plate and the second adjusting heat dissipation plate, so that the outer temperature of the heating element is prevented from being too high.

Drawings

FIG. 1 is a front view of an adjustable metal heat sink structure of the present utility model;

FIG. 2 is a top view of an adjustable metal heat sink structure according to the present utility model;

FIG. 3 is a schematic cross-sectional view of the lower heat conduction assembly of the present utility model;

FIG. 4 is a schematic perspective view of a first length adjustment assembly according to the present utility model;

fig. 5 is a schematic perspective view of a second length adjusting assembly according to the present utility model.

In the figure: 1. a first length adjustment assembly; 2. a second length adjustment assembly; 3. a longitudinal connecting rod; 4. z-shaped mounting pieces; 5. a mounting hole; 6. a first adjustment heat dissipation plate; 7. a second regulating heat radiating plate; 8. a heat dissipation plate main body; 9. a lower heat conducting assembly; 10. connecting a rectangular plate; 11. a silica gel buffer cavity; 12. a telescopic rectangular plate; 13. a lower heat-conducting plate; 14. adjusting the sliding groove; 15. a sliding limit groove; 16. adjusting the sliding bar; 17. and sliding the limit strip.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the utility model provides an adjustable metal heating panel structure, including first length adjustment subassembly 1 and second length adjustment subassembly 2, first length adjustment subassembly 1 and second length adjustment subassembly 2 all include longitudinal tie rod 3, the outside front and back end of longitudinal tie rod 3 is equal welded fastening has Z shape mounting panel 4,Z shape mounting panel 4's lower horizontal part runs through and has seted up mounting hole 5, the inboard equidistance of longitudinal tie rod 3 is fixed with first regulation heating panel 6 on the first length adjustment subassembly 1, the inboard of the first regulation heating panel 6 inner end of front and back end and the inboard of other first regulation heating panel 6 front and back terminal surfaces all have seted up regulation slide groove 14, the inboard equidistance of longitudinal tie rod 3 is fixed with second regulation heating panel 7 on the second length adjustment subassembly 2, the quantity of second regulation heating panel 7 is less than the quantity of first regulation heating panel 6, second regulation heating panel 7 and first regulation heating panel 6 are crisscross to be set up, thereby make the foremost end and the last end of this application all be first regulation heating panel 6, the inboard of second regulation 7 front and back end is equal fixedly connected with adjusts slide bar 16, the length of regulation slide bar 16 is less than regulation slide groove 14 and the limit slide groove 16, the limit slide groove 15 is adjusted along its regulation slide groove 14 is adjusted to the length of first regulation slide bar 16, the limit slide groove 17 is adjusted slide groove 15 along the length of the first regulation 16, the limit slide groove 17 is adjusted slide groove 15 is adjusted along the length 15, the limit groove 17 is adjusted slide groove 15 is adjusted; the upper ends of the first adjusting heat dissipation plate 6 and the second adjusting heat dissipation plate 7 are fixedly welded with a heat dissipation plate main body 8, the heat dissipation plate main body 8 is composed of a half ring body and a rectangular plate body, and the half ring body and the rectangular plate body are alternately arranged, so that the contact area is mainly increased, and heat dissipation is facilitated.

When the heat dissipation plate structure is used, the longitudinal connecting rods 3 on the first length adjusting assembly 1 and the second length adjusting assembly 2 are pulled outwards, the sliding strips 16 and the sliding limiting strips 17 on the second adjusting heat dissipation plate 7 slide along the holes formed in one side of the heating element, which are aligned with the mounting holes 5 on the Z-shaped mounting plate 4, of the first adjusting heat dissipation plate 6, and the length of the heat dissipation plate structure is adjusted to be proper size, so that the heat dissipation plate structure is fixed outside the heating element by using screws.

Further, the outer sides of the lower ends of the first adjusting heat dissipation plates 6 and the outer sides of the lower ends of the second adjusting heat dissipation plates 7 are respectively provided with a lower heat conduction component 9, the width of each lower heat conduction component 9 can be set as large as possible under the condition that the first adjusting heat dissipation plates 6 and the second adjusting heat dissipation plates 7 are not blocked from moving, the heat conduction area is improved, one lower heat conduction component 9 is jointly fixed with the first adjusting heat dissipation plates 6, and the other lower heat conduction component 9 is jointly fixed with the second adjusting heat dissipation plates 7; the lower heat conduction assembly 9 comprises a connecting rectangular plate 10 and a telescopic rectangular plate 12, the connecting rectangular plate 10 and the telescopic rectangular plate 12 are in telescopic connection, a silica gel buffer cavity 11 is fixed inside the connecting rectangular plate 10 along the inner end of the telescopic rectangular plate 12, silica gel is filled in the silica gel buffer cavity 11, the buffering effect is achieved, elastic deformation is not prone to occurring, the inner end of the telescopic rectangular plate 12 is embedded into the silica gel buffer cavity 11 and is fixed with the silica gel buffer cavity 11, and a lower heat conducting plate 13 is fixedly welded at the outer end of the telescopic rectangular plate 12.

The upper and lower heat conducting plates 13 of the lower heat conducting component 9 are pressed outside the heating element, and the telescopic rectangular plate 12 moves inwards along with the screwing and fixing of the screw to be embedded into the silica gel buffer cavity 11, so that the lower heat conducting plate 13 is tightly attached to the outside of the heating element.

The heat on the heating element is conducted to the first adjusting heat dissipation plate 6 on the first length adjusting component 1 and the second adjusting heat dissipation plate 7 on the second length adjusting component 2 along the lower heat conduction plate 13, the telescopic rectangular plate 12 and the connecting rectangular plate 10, the first adjusting heat dissipation plates 6 and the second adjusting heat dissipation plates 7 are used for dissipating heat, meanwhile, the first adjusting heat dissipation plates 6 and the second adjusting heat dissipation plates 7 are used for dissipating heat through the heat dissipation plate main body 8 outside the heat dissipation plates 7, and the outer temperature of the heating element is prevented from being too high.

When the heat dissipating fan is installed in an electronic device with a part of the heat dissipating fan, the heat outside the heat dissipating plate body 8 is taken away by the air flow disturbed by the heat dissipating fan.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. An adjustable metal heating panel structure, includes first length adjustment subassembly (1) and second length adjustment subassembly (2), its characterized in that: the utility model discloses a length adjusting device, including first length adjusting component (1) and second length adjusting component (2), the inboard equidistance of longitudinal connecting rod (3) is fixed with first regulation heating panel (6) on first length adjusting component (1), front and back end the inboard of terminal surface and others in first regulation heating panel (6) terminal surface all has seted up regulation sliding tray (14), the inboard equidistance of longitudinal connecting rod (3) is fixed with second regulation heating panel (7) on second length adjusting component (2), and the quantity of second regulation heating panel (7) is less than the quantity of first regulation heating panel (6) one, and second regulation heating panel (7) are crisscross with first regulation heating panel (6) to be set up, the inboard of second regulation heating panel (7) front and back end is all fixedly connected with and is adjusted sliding bar (16), and the length of adjusting sliding bar (16) is less than the length of adjusting sliding tray (14), adjusts sliding bar (16) and slides along adjusting sliding tray (14).

2. An adjustable metallic heat sink structure as recited in claim 1, wherein: the outer sides of a plurality of first regulation heating panel (6) lower extreme and a plurality of the outside of second regulation heating panel (7) lower extreme all are provided with down heat conduction subassembly (9), one of them down heat conduction subassembly (9) with a plurality of first regulation heating panel (6) are fixed jointly, another down heat conduction subassembly (9) with a plurality of second regulation heating panel (7) are fixed jointly.

3. An adjustable metallic heat sink structure as recited in claim 2, wherein: the lower heat conduction assembly (9) comprises a connecting rectangular plate (10) and a telescopic rectangular plate (12), the connecting rectangular plate (10) and the telescopic rectangular plate (12) are in telescopic connection, a silica gel buffer cavity (11) is fixed inside the connecting rectangular plate (10) along the inner end of the telescopic rectangular plate (12), and the inner end of the telescopic rectangular plate (12) is embedded into the silica gel buffer cavity (11) and is fixed with the silica gel buffer cavity (11).

4. An adjustable metallic heat sink structure as recited in claim 3, wherein: the outer end of the telescopic rectangular plate (12) is fixedly welded with a lower heat conducting plate (13).

5. An adjustable metallic heat sink structure as recited in claim 1, wherein: the inner end along adjusting sliding groove (14) on first regulation heating panel (6) is seted up and is slided spacing groove (15), the outer end of adjusting slider (16) on second regulation heating panel (7) is fixed with and slides spacing (17), slides spacing (17) and slides along slideing spacing groove (15) spacing.

6. An adjustable metallic heat sink structure as recited in claim 1, wherein: the upper ends of the first adjusting radiating plate (6) and the second adjusting radiating plate (7) are fixedly welded with radiating plate bodies (8), and the radiating plate bodies (8) are composed of half-ring bodies and rectangular plate bodies which are alternately arranged.

7. An adjustable metallic heat sink structure as recited in claim 1, wherein: the front end and the rear end of the outer part of the longitudinal connecting rod (3) are fixedly welded with Z-shaped mounting plates (4), and mounting holes (5) are formed in the lower horizontal part of each Z-shaped mounting plate (4) in a penetrating mode.