CN220601003U - Interactive intelligent flat plate and heat conduction structure - Google Patents

Abstract

The utility model belongs to the technical field of intelligent flat plate heat conduction and discloses an interactive intelligent flat plate and a heat conduction structure, wherein the heat conduction flat plate comprises a heat conduction plate, a main body support plate and a rotary groove, the rotary groove is formed in the lower part of the rear end face of the intelligent flat plate, a rotary rod is arranged at the top end of the inner wall of the rotary groove, the main body support plate is sleeved on the rotary rod, the heat conduction plate is arranged in the rotary groove, and the heat conduction plate is contacted with the surface of the main body support plate.

Description

Interactive intelligent flat plate and heat conduction structure

Technical Field

The utility model belongs to the technical field of intelligent flat plate heat conduction, and particularly relates to an interactive intelligent flat plate and a heat conduction structure.

Background

At present most intelligence flat board when using, the support auxiliary stay intelligence flat board on the dull and stereotyped protective sheath of intelligence is mostly utilized in order to reach the purpose that improves use travelling comfort, but because the protective sheath is mostly rubber material, effect is relatively poor in the aspect of the heat dissipation, the heat of the dull and stereotyped rear end face of intelligence can't in time dispel when the operation, and then lead to the temperature of the dull and stereotyped rear end face of intelligence to gradually improve, if take off the protective sheath although can improve the dull and stereotyped heat-sinking capability of intelligence, under the circumstances that has lost the protective sheath support, use travelling comfort greatly reduced, so interactive intelligent flat board and heat-conducting structure have been designed for solve current intelligent flat board and can't take into account the problem of heat dispersion when the installation protective sheath improves use travelling comfort.

Disclosure of Invention

The utility model aims to provide an interactive intelligent flat plate and a heat conduction structure so as to solve the problem that the heat dissipation performance of the current intelligent flat plate cannot be considered when the protection sleeve is installed to improve the use comfort.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the intelligent flat plate and the heat conducting structure comprise a heat conducting plate, a main body supporting plate and a rotary groove, wherein the rotary groove is formed in the lower portion of the rear end face of the intelligent flat plate, a rotary rod is arranged at the top end of the inner wall of the rotary groove, the main body supporting plate is sleeved on the rotary rod, the heat conducting plate is arranged in the rotary groove, the heat conducting plate is in surface contact with the main body supporting plate, and the main body supporting plate is used for controlling the opening and closing of the rotary groove.

Preferably, the first magnetic stripe is symmetrically arranged at the lower part of the inner wall of the rotary groove, the heat conducting plate is positioned between the first magnetic stripe and the rotary rod, the second magnetic stripe is symmetrically arranged at the position of the main body supporting plate corresponding to the first magnetic stripe, and the clamping holes are symmetrically arranged at the two sides of the outer end face of the main body supporting plate.

Preferably, the auxiliary support plate is symmetrically arranged on two sides of the main support plate and sleeved on the rotating rod, the heat-conducting plate is symmetrically provided with a heat dissipation strip and a partition plate, the partition plate is positioned between the main support plate and the auxiliary support plate, through holes are formed in the auxiliary support plate and the main support plate at positions corresponding to the heat dissipation strip, the heat dissipation strip is embedded into the through holes, and the auxiliary support plate is connected with the main support plate through a movable assembly.

Preferably, the movable assembly comprises a sliding groove, an elastic block and a sliding rod, wherein the sliding groove and the sliding rod are in an L shape, the sliding rod is arranged inside the sliding groove, the sliding groove is formed in the lower surface of the auxiliary supporting plate, the outlet end of the sliding groove is opposite to the main supporting plate, a hole is formed in the side wall of the main supporting plate opposite to the position of the sliding rod, one end of the sliding rod is embedded into the main supporting plate, the elastic block is symmetrically arranged in the middle of the inside of the sliding groove, and the distance between the elastic blocks is smaller than the width of the sliding rod.

Preferably, a blocking plate is installed on one side of the inner wall of the rotary groove and opposite to the rotary rod, the blocking plate is an inclined plate and is used for controlling the rotation angle of the main body supporting plate and the auxiliary supporting plate, and the lower part of the outer end surface of the main body supporting plate is provided with a movable groove.

An interactive intelligent tablet comprises a heat conduction structure.

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

(1) According to the intelligent flat plate heat dissipation device, the main body supporting plate, the heat conducting plate, the heat dissipation strips and the like are arranged, when the intelligent flat plate heat dissipation device is used, the main body supporting plate can be rotated to enable the main body supporting plate to form an included angle with the intelligent flat plate, and the rotating groove is opened when the intelligent flat plate is supported, so that the heat conducting plate and the heat dissipation strips are in contact with outside air, the contact area between the rear end face of the intelligent flat plate and the air is increased, the heat dissipation efficiency is further improved, and the problem that the heat dissipation performance cannot be considered when the protective sleeve is installed on the intelligent flat plate to improve the use comfort is solved.

(2) The utility model is provided with the slide bar, the slide groove, the elastic block and the like, when in use, the slide bar can be moved in the slide groove by stirring, the elastic block is extruded, the slide bar is forced to be separated from the hole in the main body supporting plate, the auxiliary supporting plate can be independently rotated after the fixed connection between the auxiliary supporting plate and the main body supporting plate is released, and the normal installation of the semiconductor radiator is ensured by matching with the clamping hole in the main body supporting plate.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of a rotary tank according to the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

fig. 4 is an enlarged view at a in fig. 1;

FIG. 5 is an enlarged view at B in FIG. 3;

in the figure: 1. an auxiliary supporting plate; 2. a blocking plate; 3. a through hole; 4. a partition panel; 5. a main body support plate; 6. a chute; 7. a clamping hole; 8. a heat dissipation strip; 9. a rotary groove; 10. a heat conductive plate; 11. a first magnetic stripe; 12. an elastic block; 13. a second magnetic stripe; 14. and a slide bar.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3 and 5, the present utility model provides the following technical solutions: the interactive intelligent flat plate and the heat conducting structure comprise a heat conducting plate 10, a main body supporting plate 5 and a rotating groove 9, wherein the rotating groove 9 is formed in the lower portion of the rear end face of the intelligent flat plate, a rotating rod is arranged at the top end of the inner wall of the rotating groove 9, the main body supporting plate 5 is sleeved on the rotating rod, the heat conducting plate 10 is arranged in the rotating groove 9, the heat conducting plate 10 is in surface contact with the main body supporting plate 5, the main body supporting plate 5 is used for controlling the opening and closing of the rotating groove 9, a first magnetic strip 11 is symmetrically arranged at the lower portion of the inner wall of the rotating groove 9, the heat conducting plate 10 is located between the first magnetic strip 11 and the rotating rod, a second magnetic strip 13 is symmetrically arranged at the position of the main body supporting plate 5 relative to the first magnetic strip 11, clamping holes 7 are symmetrically formed in the two sides of the outer end face of the main body supporting plate 5, auxiliary supporting plates 1 are symmetrically arranged on the two sides of the main body supporting plate 5, the auxiliary supporting plates 1 are sleeved on the rotating rod, heat radiating strips 8 and partition plates 4 are symmetrically arranged on the heat conducting plate 10, the auxiliary supporting plates 1 are located between the main body supporting plates 5 and the auxiliary supporting plates 1, through holes 3 are formed in positions of the main body supporting plates 5 relative to the heat radiating strips 8, the positions of the auxiliary supporting plates 8 are embedded into through holes 3, and the positions between the auxiliary supporting plates 1 and the main supporting plates 5 are connected through movable components.

Through the technical scheme: because be connected through movable component between auxiliary stay board 1 and the main part backup pad 5, when using, accessible rotatory main part backup pad 5 makes it rotate with auxiliary stay board 1, force the backup pad wholly to form the contained angle with intelligent dull and stereotyped, and open rotatory groove 9, make the inside heat conduction board 10 of rotatory groove 9 and heat dissipation strip 8 and outside air contact, increase the area of contact of intelligent dull and stereotyped rear end face and air and improve radiating efficiency, the problem that can't compromise the heat dispersion when the installation protective sheath improves the use travelling comfort at present intelligent dull and stereotyped, when need install semiconductor radiator to further improve radiating efficiency, accessible adjustment movable component, disconnect auxiliary stay board 1 and main part backup pad 5 after being connected, because second magnetic stripe 13 sets up on main part backup pad 5, through the appeal between first magnetic stripe 11 and the second magnetic stripe 13, force main part backup pad 5 is fixed inside rotatory groove 9, utilize the card hole 7 in main part backup pad 5 to accomplish the installation of semiconductor radiator, and the auxiliary stay board 1 of both sides then replaces main part backup pad 5, support whole intelligent flat board, because strip 8 is embedded into through hole 3 in addition, very big reduction thickness when needing to improve radiating efficiency, and install semiconductor radiator, can not cause the clearance to rotate at the side stand alone with auxiliary stay board 1, it is convenient for the user, the clearance is to install 1.

Referring to fig. 1 and fig. 3-4, the movable assembly includes a sliding groove 6, an elastic block 12 and a sliding rod 14, the sliding groove 6 and the sliding rod 14 are all L-shaped, the sliding rod 14 is disposed inside the sliding groove 6, the sliding groove 6 is disposed on the lower surface of the auxiliary supporting plate 1, the outlet end of the sliding groove 6 is opposite to the main supporting plate 5, a hole is disposed on a side wall of the main supporting plate 5 opposite to the sliding rod 14, one end of the sliding rod 14 is embedded into the main supporting plate 5, the elastic block 12 is symmetrically disposed in the middle of the sliding groove 6, a distance between the elastic blocks 12 is smaller than a width of the sliding rod 14, a blocking plate 2 is disposed on one side of an inner wall of the rotating groove 9 opposite to the rotating rod, the blocking plate 2 is an inclined plate, and the blocking plate 2 is used for controlling a rotation angle between the main supporting plate 5 and the auxiliary supporting plate 1, and the movable groove is disposed on the lower portion of an outer end surface of the main supporting plate 5.

Through the technical scheme: utilize elastic block 12 to divide into connecting region and disconnection district with spout 6, when main part backup pad 5 and auxiliary support board 1 need be disconnected, the accessible outwards stirs slide bar 14, make it remove and press in the elastic block 12 back by the connecting region gets into the disconnection district in spout 6, force slide bar 14 one end to break away from the hole in main part backup pad 5 inside, because the distance between the elastic block 12 is less than the width of slide bar 14, under not receiving external force influence, slide bar 14 can't independently remove, after relieving auxiliary support board 1 and main part backup pad 5's fixed connection, can rotatory auxiliary support board 1 alone, cooperate the card hole 7 in main part backup pad 5, guarantee the normal installation of radiator, in addition through the movable slot of seting up, make the user can more efficient stir main part backup pad 5, improve the convenience of subassembly.

The utility model provides an interactive intelligent flat board and heat conduction structure, heat conduction structure is fixed on interactive intelligent flat board's rear end face.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Heat conduction structure, its characterized in that: including heat-conducting plate (10), main part backup pad (5) and rotary tank (9), rotary tank (9) are seted up in intelligent dull and stereotyped rear end face lower part, and rotary rod is installed on rotary tank (9) inner wall top, main part backup pad (5) cup joint on the rotary rod, heat-conducting plate (10) set up in rotary tank (9), and heat-conducting plate (10) and main part backup pad (5) surface contact, main part backup pad (5) are used for controlling opening and shutting of rotary tank (9).

2. The thermally conductive structure of claim 1, wherein: the rotary groove is characterized in that first magnetic stripes (11) are symmetrically arranged on the lower portion of the inner wall of the rotary groove (9), the heat conducting plate (10) is located between the first magnetic stripes (11) and the rotary rod, second magnetic stripes (13) are symmetrically arranged on the main body supporting plate (5) relative to the positions of the first magnetic stripes (11), and clamping holes (7) are symmetrically formed in two sides of the outer end face of the main body supporting plate (5).

3. The thermally conductive structure of claim 2, wherein: the novel heat-dissipation device is characterized in that auxiliary support plates (1) are symmetrically arranged on two sides of the main support plate (5), the auxiliary support plates (1) are sleeved on the rotating rods, heat dissipation strips (8) and partition plates (4) are symmetrically arranged on the heat-conduction plates (10), the partition plates (4) are located between the main support plates (5) and the auxiliary support plates (1), through holes (3) are formed in the parts, opposite to the heat dissipation strips (8), of the auxiliary support plates (1) and the main support plates (5), the heat dissipation strips (8) are embedded into the through holes (3), and the auxiliary support plates (1) are connected with the main support plates (5) through movable components.

4. A thermally conductive structure as claimed in claim 3, wherein: the movable assembly comprises a sliding groove (6), an elastic block (12) and a sliding rod (14), wherein the sliding groove (6) and the sliding rod (14) are in an L shape, the sliding rod (14) is arranged inside the sliding groove (6), the sliding groove (6) is formed in the lower surface of the auxiliary supporting plate (1), the outlet end of the sliding groove (6) is opposite to the main supporting plate (5), a hole is formed in the side wall of the main supporting plate (5) opposite to the position of the sliding rod (14), one end of the sliding rod (14) is embedded into the main supporting plate (5), the elastic block (12) is symmetrically arranged in the middle inside the sliding groove (6), and the distance between the elastic blocks (12) is smaller than the width of the sliding rod (14).

5. The thermally conductive structure of claim 2, wherein: the rotary device is characterized in that a blocking plate (2) is arranged on one side of the inner wall of the rotary groove (9) and opposite to the rotary rod, the blocking plate (2) is an inclined plate, the blocking plate (2) is used for controlling the rotation angle of the main body supporting plate (5) and the auxiliary supporting plate (1), and a movable groove is formed in the lower portion of the outer end face of the main body supporting plate (5).

6. An interactive intelligent tablet computer, characterized in that: comprising a thermally conductive structure as claimed in any of claims 1-5.