CN216565358U

CN216565358U - Novel overhead high-efficient heat dissipation binocular camera subassembly

Info

Publication number: CN216565358U
Application number: CN202220000495.8U
Authority: CN
Inventors: 宋发霞; 李龙; 杨树智
Original assignee: Shenzhen Jucheng Intelligent Co ltd
Current assignee: Shenzhen Jucheng Intelligent Co ltd
Priority date: 2022-01-03
Filing date: 2022-01-03
Publication date: 2022-05-17
Anticipated expiration: 2032-01-03

Abstract

The utility model discloses a novel overhead high-efficiency heat-dissipation binocular camera assembly, wherein a limiting plate is mounted on one side of a front cover through screws, two ends of a line distribution board are arranged in a rectangular shape, overhead rods are arranged on one side of the line distribution board, the number of the overhead rods is four, cameras and infrared lamps are respectively welded on the other side of the line distribution board, and the number of the cameras is two; according to the utility model, the camera, the infrared lamp and the light sensor are arranged on the branch circuit board, other components are arranged on the main circuit board, so that the generated heat can be dispersed into two parts, the overhead rod is fixed between the two circuit boards, a space is reserved between the two circuit boards, the air circulation is convenient, the heat on the circuit boards can be gathered in the space by arranging the copper pipe, the copper pipe is provided with the motor and the wind wheel to accelerate the air flow in the rear shell, so that the heat is taken out, and the heat dissipation function of the device is improved by the mode.

Description

Novel overhead high-efficient heat dissipation binocular camera subassembly

Technical Field

The utility model relates to the technical field of cameras, in particular to a novel overhead high-efficiency heat dissipation binocular camera assembly.

Background

The binocular camera integrates two cameras on a module, realizes the function of dual-channel image acquisition, and can realize in-vivo detection and avoid screen image attack through the information picture contrast of the two cameras. The binocular camera is generally applied to the fields of security monitoring, stereoscopic vision ranging, three-dimensional reconstruction and the like. However, the existing binocular camera integrates components on a circuit board, so that the heating components are concentrated and heat dissipation is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel overhead high-efficiency heat dissipation binocular camera assembly.

In order to achieve the purpose, the utility model provides the following technical scheme: a novel overhead high-efficiency heat-dissipation binocular camera component comprises a front cover, wherein a limiting plate is arranged on one side of the front cover through screws, one side of the limiting plate is provided with a branch circuit board, two ends of the branch circuit board are arranged in a rectangular shape, one side of the branch circuit board is provided with four overhead rods, the other side of the branch circuit board is respectively welded with a camera and an infrared lamp, the two cameras are symmetrically arranged, one end of the branch circuit board is provided with a light sensing probe, the light sensing probe is positioned between the two cameras, one side of the distributing circuit board is fixed with a first cooling plate through screws, one side of first heating panel is provided with the second heating panel, one side of second heating panel is provided with the main circuit board, the outside of main circuit board is provided with the backshell, be provided with the air supply subassembly in the backshell.

Preferably, one end of each of the four overhead rods is fixedly connected with two ends of the branch circuit board, the two overhead rods at each end are respectively located at two corners of the branch circuit board, and the four overhead rods are symmetrically arranged.

Preferably, the infrared lamps are arranged in a plurality of rows, the two rows of infrared lamps are symmetrically arranged on one side of the two cameras respectively, and the first heat dissipation plate is arranged in a rectangular frame.

Preferably, one end of each of the four overhead rods penetrates through one side of the first heat dissipation plate, one side of the second heat dissipation plate and one side of the main circuit board respectively and is fixedly connected with the main circuit board through screws, the second heat dissipation plate is fixedly connected with the main circuit board through screws, and the four corners of the first heat dissipation plate and the four corners of the second heat dissipation plate are provided with slotted holes.

Preferably, the outer ring of the slot hole is provided with a convex block, the convex block is integrally formed on one side of the first heat dissipation plate and one side of the second heat dissipation plate, and the convex blocks of the first heat dissipation plate and the second heat dissipation plate are respectively attached to one sides of the branch circuit board and the main circuit board.

Preferably, copper pipes are fixedly connected in the first heat dissipation plate and the second heat dissipation plate, and one side of each copper pipe and the corresponding bump are located on the same horizontal line.

Preferably, the air supply assembly comprises a top shell, the top shell is arranged on one side of the rear shell, air outlets for ventilating the air supply assembly are formed in two side edges of the rear shell, and an air inlet is formed in one side of the top shell.

Preferably, install the motor in the top shell, the motor is provided with two, two the motor all passes through the inner wall fixed connection of screw and top shell, two the output shaft of motor all runs through the last fixed surface who goes up of back casing through the pivot and is connected with the wind wheel, two the wind wheel all is located between first heating panel and the second heating panel.

Preferably, the other side of the front cover is provided with a first through hole for the light sensor to penetrate through, and two sides of the first through hole are provided with second through holes for the two cameras to penetrate through.

Preferably, the both sides of second through-hole are provided with the notch that supplies the infrared lamp to run through, second through-hole and notch are all seted up on the surface of protecgulum, the jack has been seted up to one side of limiting plate.

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

according to the utility model, the camera, the infrared lamp and the light sensor are arranged on the branch circuit board, other components are arranged on the main circuit board, so that the generated heat can be dispersed into two parts, the overhead rod is fixed between the two circuit boards, a space is reserved between the two circuit boards, the air circulation is convenient, the heat on the circuit boards can be gathered in the space by arranging the copper pipe, the copper pipe is provided with the motor and the wind wheel to accelerate the air flow in the rear shell, so that the heat is taken out, and the heat dissipation function of the device is improved by the mode.

Drawings

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a schematic view of the assembled heat sink of the present invention;

FIG. 3 is a schematic view of the construction of the blower assembly of the present invention;

fig. 4 is a schematic structural view of the heat dissipating plate of the present invention.

In the figure: 1. a front cover; 2. a limiting plate; 3. an infrared lamp; 4. a branch circuit board; 5. an overhead pole; 6. a first heat dissipation plate; 7. a main circuit board; 8. a rear housing; 9. an air outlet; 10. an air supply assembly; 11. a camera; 12. a light sensing probe; 13. a jack; 14. a first through hole; 15. a second through hole; 16. a notch; 17. a second heat dissipation plate; 18. a bump; 19. a motor; 20. a top shell; 21. a wind wheel; 22. copper tubing.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a novel overhead high-efficiency heat dissipation binocular camera assembly comprises a front cover 1, a limiting plate 2 is mounted on one side of the front cover 1 through screws, a distribution circuit board 4 is arranged on one side of the limiting plate 2, two ends of the distribution circuit board 4 are arranged in a rectangular mode, an overhead rod 5 is arranged on one side of the distribution circuit board 4, four overhead rods 5 are arranged, a camera 11 and an infrared lamp 3 are welded on the other side of the distribution circuit board 4 respectively, two cameras 11 are arranged, the two cameras 11 are arranged symmetrically, a light sensing probe 12 is arranged at one end of the distribution circuit board 4, the light sensing probe 12 is located between the two cameras 11, a first heat dissipation plate 6 is fixed on one side of the distribution circuit board 4 through screws, a second heat dissipation plate 17 is arranged on one side of the first heat dissipation plate 6, a main circuit board 7 is arranged on one side of the second heat dissipation plate 17, a rear shell 8 is arranged on the outer side of the main circuit board 7, and an air supply assembly 10 is arranged in the rear shell 8;

one end of each of the four overhead rods 5 is fixedly connected with two ends of the branch circuit board 4, the two overhead rods 5 at each end are respectively positioned at two corners of the branch circuit board 4, and the four overhead rods 5 are symmetrically arranged;

the number of the infrared lamps 3 is multiple, two rows of the infrared lamps 3 are arranged, the two rows of the infrared lamps 3 are symmetrically arranged on one side of the two cameras 11 respectively, the first heat dissipation plate 6 is arranged in a rectangular frame, and the infrared lamps 3 provide a light supplementing effect for the cameras 11;

one ends of the four overhead rods 5 respectively penetrate through the first heat dissipation plate 6 and the second heat dissipation plate 17 to be fixedly connected with one side of the main circuit board 7 through screws, the second heat dissipation plate 17 is fixedly connected with the main circuit board 7 through screws, and slotted holes are formed in four corners of the first heat dissipation plate 6 and the second heat dissipation plate 17;

the outer rings of the slotted holes are provided with convex blocks 18, the convex blocks 18 are integrally formed at one sides of the first heat dissipation plate 6 and the second heat dissipation plate 17, the convex blocks 18 of the first heat dissipation plate 6 and the second heat dissipation plate 17 are respectively attached to one sides of the branch circuit board 4 and the main circuit board 7, and the copper pipe 22 cannot be in hard contact with the circuit board when being installed through the arrangement of the convex blocks 18;

copper pipes 22 are fixedly connected in the first heat dissipation plate 6 and the second heat dissipation plate 17, one side of each copper pipe 22 and the corresponding bump 18 are in the same horizontal line, and after the two heat dissipation plates are installed, the copper pipes 22 are tightly attached to the surfaces of the circuit boards;

the air supply assembly 10 comprises a top shell 20, the top shell 20 is arranged on one side of the rear shell 8, air outlets 9 for ventilating the air supply assembly 10 are formed in two side edges of the rear shell 8, and an air inlet is formed in one side of the top shell 20;

the top shell 20 is internally provided with two motors 19, the two motors 19 are fixedly connected with the inner wall of the top shell 20 through screws, output shafts of the two motors 19 penetrate through the upper surface of the rear shell 8 through rotating shafts and are fixedly connected with wind wheels 21, and the two wind wheels 21 are positioned between the first heat dissipation plate 6 and the second heat dissipation plate 17;

a first through hole 14 for the light sensor to penetrate through is formed in the other side of the front cover 1, and second through holes 15 for the two cameras 11 to penetrate through are formed in the two sides of the first through hole 14;

notches 16 for the infrared lamps 3 to penetrate through are formed in the two sides of the second through hole 15, the second through hole 15 and the notches 16 are formed in the surface of the front cover 1, and the insertion hole 13 is formed in one side of the limiting plate 2;

when the heat dissipation device is used, the copper pipes 22 on the first heat dissipation plate 6 and the second heat dissipation plate 17 are respectively attached to the branch circuit board 4 and the main circuit board 7, heat is transferred to the copper pipes 22, the heat is gathered between the two heat dissipation plates, the starting motor 19 sends in external air, and the heat is sent out from the air outlets 9 on the two sides of the rear shell 8.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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

1. The utility model provides a novel binocular camera subassembly of high-efficient heat dissipation of overhead formula, includes protecgulum (1), its characterized in that: limiting plates (2) are mounted on one side of the front cover (1) through screws, a line distribution board (4) is arranged on one side of each limiting plate (2), the two ends of each line distribution board (4) are arranged in a rectangular mode, an overhead rod (5) is arranged on one side of each line distribution board (4), four overhead rods (5) are arranged, cameras (11) and infrared lamps (3) are welded on the other side of each line distribution board (4) respectively, the cameras (11) are arranged in two modes, the two cameras (11) are symmetrically arranged, a light sensing probe (12) is arranged at one end of each line distribution board (4), the light sensing probe (12) is located between the two cameras (11), a first heat dissipation plate (6) is fixed on one side of each line distribution board (4) through screws, a second heat dissipation plate (17) is arranged on one side of each first heat dissipation plate (6), one side of the second heat dissipation plate (17) is provided with a main circuit board (7), the outer side of the main circuit board (7) is provided with a rear shell (8), and an air supply assembly (10) is arranged in the rear shell (8).

2. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 1, wherein: one end of each overhead rod (5) is fixedly connected with two ends of the branch circuit board (4), two overhead rods (5) at each end are respectively positioned at two corners of the branch circuit board (4), and the four overhead rods (5) are symmetrically arranged.

3. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 2, wherein: the infrared lamp (3) are provided with a plurality of infrared lamps (3), the infrared lamps (3) are arranged in two rows, the infrared lamps (3) are symmetrically arranged on one side of the two cameras (11), and the first heat dissipation plate (6) is arranged in a rectangular frame.

4. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 3, wherein: four the one end of overhead pole (5) is run through first heating panel (6) and second heating panel (17) respectively and is passed through screw fixed connection with one side of main line board (7), second heating panel (17) are through screw and main line board (7) fixed connection, the slotted hole has all been seted up at four turnings of first heating panel (6) and second heating panel (17).

5. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 4, wherein: the outer ring of the slotted hole is provided with a convex block (18), the convex block (18) is integrally formed on one side of the first heat dissipation plate (6) and one side of the second heat dissipation plate (17), and the convex blocks (18) of the first heat dissipation plate (6) and the second heat dissipation plate (17) are respectively attached to one sides of the branch circuit board (4) and the main circuit board (7).

6. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 5, wherein: copper pipes (22) are fixedly connected in the first heat dissipation plate (6) and the second heat dissipation plate (17), and one side of each copper pipe (22) and the corresponding bump (18) are on the same horizontal line.

7. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 6, wherein: the air supply assembly (10) comprises a top shell (20), the top shell (20) is arranged on one side of the rear shell (8), air outlets (9) for the air supply assembly (10) to ventilate are formed in two side edges of the rear shell (8), and an air inlet is formed in one side of the top shell (20).

8. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 7, wherein: install motor (19) in top shell (20), motor (19) are provided with two, two inner wall fixed connection that motor (19) all pass through screw and top shell (20), two the output shaft of motor (19) all runs through last fixed surface who backshell (8) the body through the pivot and is connected with wind wheel (21), two wind wheel (21) all are located between first heating panel (6) and second heating panel (17).

9. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 8, wherein: the other side of protecgulum (1) is seted up and is supplied first through-hole (14) that the light sensor penetrated, the both sides of first through-hole (14) are provided with second through-hole (15) that supply two cameras (11) to run through.

10. The novel overhead high-efficiency heat-dissipation binocular camera assembly according to claim 9, wherein: the both sides of second through-hole (15) are provided with notch (16) that supply infrared lamp (3) to run through, the surface at protecgulum (1) is all seted up in second through-hole (15) and notch (16), jack (13) have been seted up to one side of limiting plate (2).