CN214901029U

CN214901029U - A heating panel support for intelligent monitoring probe

Info

Publication number: CN214901029U
Application number: CN202121018695.8U
Authority: CN
Inventors: 杨昌昱; 唐晓东; 方倩
Original assignee: Everest Technology Ltd
Current assignee: Everest Technology Ltd
Priority date: 2021-05-13
Filing date: 2021-05-13
Publication date: 2021-11-26
Anticipated expiration: 2031-05-13

Abstract

The utility model discloses a heating panel bracket for an intelligent monitoring probe, which comprises a plate body; a first mounting table and a second mounting table are connected and arranged above the plate body; the first mounting table is of a columnar structure; the top of the first mounting table is provided with a first thread groove; the second mounting table comprises a base body and an adjusting plate; the top of the seat body is provided with a clamping column; the section of the clamping column is of a regular polygon structure; the adjusting plate is provided with a clamping hole in a penetrating way along the height direction; the clamping hole is in nested fit with the clamping column; the top of the adjusting plate is also provided with a second thread groove; the position of the second thread groove is synchronously changed along with the rotationally adjusted clamping hole; the second mounting table can be used for adapting hole sites at special positions on the power panel structure by means of position adjustment of the second threaded groove, so that better component compatibility is obtained, and the power panel structure can be adapted to various power panel structures conveniently.

Description

A heating panel support for intelligent monitoring probe

Technical Field

The utility model relates to a monitor probe technical field especially relates to a heating panel support for intelligent monitoring probe.

Background

The intelligent monitoring probe is an optical instrument which acquires images by using an optical element and feeds back corresponding analysis results in time. The apparatus is widely used for functions such as automatic correction of a projector screen. The cooling plate bracket is an important structural component in a monitoring probe product and is mainly used for connecting a camera board and a power supply board. Most of the existing heat dissipation plates realize heat exchange with a power supply plate only through a layer of heat dissipation silica gel, and the heat dissipation performance is limited. Meanwhile, due to the fact that sizes of various camera boards and power boards are different, the radiating plates which are punched in advance are difficult to be completely compatible. Therefore, it is necessary to provide a heat dissipation plate bracket for an intelligent monitoring probe, which has good assembly adaptability and excellent heat dissipation performance.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the not enough of existence among the prior art, the utility model provides a be used for intelligent monitoring probe's heating panel support that equipment adaptability is good, heat dispersion is excellent.

The technical scheme is as follows: in order to achieve the purpose, the utility model discloses a heating panel bracket for an intelligent monitoring probe, which comprises a plate body; a first mounting table and a second mounting table are connected above the plate body; the first mounting table is of a columnar structure; a first thread groove is formed in the top of the first mounting table; the second mounting table comprises a base body and a regulating plate; a clamping column is arranged at the top of the seat body; the section of the clamping column is of a regular polygon structure; the adjusting plate is provided with a clamping hole in a penetrating manner along the height direction; the clamping hole is in nested fit with the clamping column; the top of the adjusting plate is also provided with a second thread groove; the position of the second thread groove is synchronously changed along with the rotation of the adjusted clamping hole.

Further, a plurality of the second thread grooves are distributed at intervals along the rotation radial direction of the adjusting plate.

Furthermore, the top of the plate body is also provided with an embedded groove; a heat conducting frame is arranged above the plate body; the heat conduction frame comprises a transverse plate and a foot support; the foot supports are connected and arranged below the transverse plates; the lower end of the foot support is matched with the caulking groove; a heat dissipation silica gel sheet is attached to the upper side of the transverse plate; the heat dissipation silica gel sheet is flush with the top of the first mounting table.

Further, the transverse plate is made of a heat conducting material; the transverse plate is internally provided with a jack; the heat radiating fins are embedded and inserted in the jacks.

Further, the foot supports are arranged on two opposite sides of the transverse plate in pairs; the plurality of jacks are arranged between the two foot supports at intervals.

Further, a plurality of the jacks are parallel to each other.

Furthermore, the transverse plate and the foot supports are of an integral bending structure.

Has the advantages that: the utility model discloses a heating panel bracket for an intelligent monitoring probe, which comprises a plate body; a first mounting table and a second mounting table are connected above the plate body; the first mounting table is of a columnar structure; a first thread groove is formed in the top of the first mounting table; the second mounting table comprises a base body and a regulating plate; a clamping column is arranged at the top of the seat body; the section of the clamping column is of a regular polygon structure; the adjusting plate is provided with a clamping hole in a penetrating manner along the height direction; the clamping hole is in nested fit with the clamping column; the top of the adjusting plate is also provided with a second thread groove; the position of the second thread groove is synchronously changed along with the rotationally adjusted clamping hole; the second mounting table can be used for adapting hole sites at special positions on the power panel structure by means of position adjustment of the second threaded groove, so that better component compatibility is obtained, and the power panel structure is convenient to adapt to various camera panel structures; through set up the heat conduction frame and inlay the fin of increasing and decreasing in a flexible way above the plate body, further promoted its heat dispersion, realized the heat radiation intensity of gradient and adjusted.

Drawings

FIG. 1 is a top view of a heat sink bracket;

fig. 2 is a schematic view of the entire structure of the heat sink bracket;

fig. 3 is a schematic view of the bottom structure of the heat sink bracket.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The cooling plate bracket for the intelligent monitoring probe, as shown in fig. 1, comprises a plate body 1; a first mounting table 11 and a second mounting table 12 are connected above the plate body 1; the first mounting table 11 is of a columnar structure; a first thread groove 101 is formed in the top of the first mounting table 11; the second mounting table 12 includes a seat body 121 and an adjusting plate 122; the top of the seat body 121 is provided with a clamping column 102; the section of the clamping column 102 is of a regular polygon structure; the adjusting plate 122 is provided with a clamping hole 103 in a penetrating manner along the height direction; the card hole 103 is in nested fit with the card column 102; the top of the adjusting plate 122 is also provided with a second thread groove 104; the position of the second thread groove 104 is changed synchronously with the rotation of the adjusted clamping hole 103;

the heat dissipation plate bracket has the advantages that two sides of the heat dissipation plate bracket are connected with the camera board and the power board, and the camera boards and the power boards with different specifications have different sizes, so that the first mounting table 11 at the top of the plate body 1 can be compatible with conventional hole sites on the camera board structure, and the second mounting table 12 can be adapted to hole sites at special positions on the camera board structure by means of position adjustment of the second thread groove 104, so that better component compatibility and adaptability are obtained, and the improvement of the efficiency of an assembly process and the later upgrading and reconstruction of the interior of a monitoring probe are facilitated; as shown in fig. 3, the bottom of the board body 1 is further provided with a third mounting platform 15 for connecting with a power panel.

A plurality of the second screw grooves 104 are distributed at intervals along the rotation radial direction of the adjusting plate 122;

by providing a plurality of second thread grooves 104, it is possible to simultaneously perform adaptation in adjusting the radius and the rotation angle, resulting in a wider compatible fitting area.

As shown in fig. 2, the top of the plate body 1 is further provided with an insertion groove 13; a heat conducting frame 2 is arranged above the plate body 1; the heat conducting frame 2 comprises a transverse plate 21 and a foot support 22; the foot supports 22 are connected and arranged below the transverse plate 21; the lower end of the foot support 22 is matched with the caulking groove 13; a heat dissipation silica gel sheet 3 is attached to the upper part of the transverse plate 21; the heat dissipation silica gel sheet 3 is flush with the top of the first mounting table 11;

the heat conduction frame 2 has the effects that heat generated on the structure of the camera plate can be timely dissipated, the overheating accelerated aging or damage of components is avoided, meanwhile, the effect of auxiliary support can be achieved, and the overall structural strength of assembly is improved; the transverse plate can be made of aluminum plates with excellent heat conductivity and the like; the unevenness problem that probably exists on the diaphragm surface can be overcome to the heat dissipation silica gel piece 3 of diaphragm 21 top laminating, guarantees to have stable heat transfer area between heat conduction frame 2 and the camera board structure, reinforcing radiating effect.

The transverse plate 21 is made of a heat conducting material; the transverse plate 21 is internally provided with a jack 201; a heat sink 202 is inserted into the jack 201;

the heat sink 202 further increases the heat dissipation area based on the original heat conduction frame 2, thereby improving the heat dissipation effect; in actual assembly, the number of the radiating fins 202 can be flexibly increased or decreased according to the radiating requirement of the camera board, so that a gradient customized radiating structure is realized.

The foot supports 22 are arranged on two opposite sides of the transverse plate 21 in pairs; the plurality of insertion holes 201 are arranged between the two foot supports 22 at intervals;

the paired arrangement of the foot supports 22 can ensure the stability of the whole structure of the heat conducting frame 2, and the space left below the transverse plates is convenient for adding the heat radiating fins 202.

A plurality of the jacks 201 are parallel to each other; the parallel jacks 202 can enable the airflow channels between the radiating fins 202 to be consistent in direction, so that the cold and hot airflow can regularly flow in the probe structure.

The transverse plate 21 and the foot supports 22 are of an integral bending and forming structure; such as aluminum plate or other material with good heat conductivity, can be rapidly bent and formed.

The above description is only a preferred embodiment of the present invention, and it should be noted that: for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications can be made, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims

1. A heating panel support for intelligent monitoring probe, its characterized in that: comprises a plate body (1); a first mounting table (11) and a second mounting table (12) are connected above the plate body (1); the first mounting table (11) is of a columnar structure; a first thread groove (101) is formed in the top of the first mounting table (11); the second mounting table (12) comprises a base body (121) and an adjusting plate (122); the top of the seat body (121) is provided with a clamping column (102); the section of the clamping column (102) is of a regular polygon structure; the adjusting plate (122) is provided with a clamping hole (103) in a penetrating manner along the height direction; the clamping hole (103) is in nested fit with the clamping column (102); the top of the adjusting plate (122) is also provided with a second thread groove (104); the position of the second thread groove (104) is synchronously changed along with the rotationally adjusted clamping hole (103).

2. A heat sink bracket for use with an intelligent monitoring probe according to claim 1, wherein: a plurality of second thread grooves (104) are distributed at intervals along the rotation radial direction of the adjusting plate (122).

3. A heat sink bracket for use with an intelligent monitoring probe according to claim 1, wherein: the top of the plate body (1) is also provided with an embedded groove (13); a heat conducting frame (2) is arranged above the plate body (1); the heat conduction frame (2) comprises a transverse plate (21) and a foot support (22); the foot supports (22) are connected and arranged below the transverse plate (21); the lower end of the foot support (22) is matched with the caulking groove (13); a heat dissipation silica gel sheet (3) is attached to the upper part of the transverse plate (21); the heat dissipation silica gel sheet (3) is flush with the top of the first mounting table (11).

4. A heat sink bracket for use with an intelligent monitoring probe according to claim 3, wherein: the transverse plate (21) is made of a heat conducting material; the transverse plate (21) is internally provided with an insertion hole (201); the heat radiating fins (202) are embedded in the insertion holes (201).

5. Heat sink bracket for use in an intelligent monitoring probe according to claim 4, wherein: the foot supports (22) are arranged on two opposite sides of the transverse plate (21) in pairs; the plurality of insertion holes (201) are arranged between the two foot supports (22) at intervals.

6. Heat sink bracket for use in an intelligent monitoring probe according to claim 4, wherein: a plurality of the jacks (201) are parallel to each other.

7. A heat sink bracket for use with an intelligent monitoring probe according to claim 3, wherein: the transverse plate (21) and the foot supports (22) are of an integral bending and forming structure.