CN210725005U - Multi-eye spliced panoramic camera with heat dissipation structure - Google Patents

Abstract

The utility model provides a take heat radiation structure's many meshes concatenation panoramic camera, include: the device comprises a shell, a video module, a processor and a PCB interface board; the video module is arranged on the aluminum rotating bracket, the rotating bracket is arranged on the flange heat-dissipation aluminum plate, and the flange heat-dissipation aluminum plate is connected with the switching heat-dissipation aluminum plate through the N heat-conduction aluminum blocks; the switching heat dissipation aluminum plate is provided with a processor and a PCB interface plate, the switching heat dissipation aluminum plate is tightly attached to the shell through heat conduction mud and directly contacts the shell, and heat generated when the processor and the PCB interface plate work is directly transferred to the shell and dissipated to outside air; the utility model discloses take heat radiation structure's many meshes concatenation panoramic camera rotates support, ring flange heat dissipation aluminum plate, heat conduction aluminium piece and switching heat dissipation aluminum plate through the aluminium matter that sets up and on transmitting the aluminium matter shell and giving off the air in the external world with the heat that inside each function board of many meshes concatenation panoramic camera produced, the effectual heat dissipation problem of having solved many meshes concatenation panoramic camera.

Description

Multi-eye spliced panoramic camera with heat dissipation structure

Technical Field

The utility model relates to a many meshes camera technical field especially relates to a take heat radiation structure's many meshes concatenation panoramic camera.

Background

At present, the common monitoring camera cannot meet the requirements of people on video application technology, the video acquisition and processing cost is increasingly reduced along with the improvement of the performance of equipment such as computers, cameras and the like, and the video splicing is gradually developed on the basis of image splicing. A video splicing technology is utilized in a monitoring system to obtain a large-scene high-resolution video, so that a shot scene can be comprehensively observed and monitored. At present, the video splicing technology is widely applied to the field of video monitoring. In recent years, the multi-view spliced panoramic camera gradually shows the market under the promotion of the increasing demand of people for video technology. However, the multi-view spliced panoramic camera is composed of a plurality of circuit boards, is arranged in a small space, and has power consumption of dozens of watts, so that the heat dissipation of the multi-view spliced panoramic camera is a problem.

At present, most manufacturers of the multi-view splicing panoramic camera do not consider heat dissipation treatment or do not consider comprehensive heat dissipation, so that the multi-view splicing panoramic camera runs for a certain time, and the chip cannot endure high temperature for a long time due to overhigh temperature of equipment, and the multi-view splicing panoramic camera often crashes or is unstable after working for a certain time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a take heat radiation structure's many meshes concatenation panoramic camera aims at solving many meshes concatenation panoramic camera's heat dissipation problem.

In order to achieve the above object, the utility model adopts the following technical scheme: the shell comprises a transparent cover pressing ring, a rear cover and a ball handle connected with the rear cover; the video module is arranged on the aluminum rotating bracket, and the field angle of each video module is larger than 180/N degrees; the N aluminum rotating supports are arranged on the flange plate heat dissipation aluminum plate and can adjust the monitoring angle of the video module; the flange plate heat dissipation aluminum plate is connected with the switching heat dissipation aluminum plate through N heat conduction aluminum blocks; the switching heat dissipation aluminum plate is arranged in the shell-rear cover and is connected with the rear cover; the processor is arranged on the switching and heat-radiating aluminum plate and is connected with the N groups of video modules; and N is more than or equal to 3, and the processor clips the information acquired by the N groups of video modules into a full-scene image.

Optionally, the aluminum rotating bracket is made of aluminum alloy.

Optionally, the flange heat dissipation aluminum plate is made of aluminum alloy.

Optionally, the material of the adapting heat dissipation aluminum plate is an aluminum alloy.

Optionally, the housing includes a transparent cover pressing ring, a rear cover and a ball handle connected to the rear cover, and the adapter aluminum heat dissipation plate is connected to the rear cover.

Optionally, the flange heat dissipation aluminum plate and the edge of the plate of the adapter heat dissipation aluminum plate are provided with ventilation grooves for convection of air on the upper layer and the lower layer of the plate.

Optionally, the processor further comprises a PCB interface board disposed on the adapting heat dissipation aluminum plate, and the PCB interface board is electrically connected to the processor.

The utility model discloses take heat radiation structure's many meshes concatenation panoramic camera rotates support, ring flange heat dissipation aluminum plate, heat conduction aluminium piece and switching heat dissipation aluminum plate through the aluminium matter that sets up and on transmitting the aluminium matter shell and giving off the air in the external world with the heat that inside each function board of many meshes concatenation panoramic camera produced, the effectual heat dissipation problem of having solved many meshes concatenation panoramic camera.

Drawings

Fig. 1 is the explosion diagram of the multi-view splicing panoramic camera structure with the heat radiation structure of the utility model.

Fig. 2 is a schematic structural diagram of a multi-view splicing panoramic camera housing-transparent cover clamping ring ① with a heat dissipation structure in fig. 1.

Fig. 3 is a schematic structural diagram of the multi-purpose spliced panoramic camera housing-rear cover ⑤ with a heat dissipation structure in fig. 1.

Fig. 4 is a schematic structural diagram of a multi-purpose splicing panoramic camera housing-knob ⑥ with a heat dissipation structure in fig. 1.

Fig. 5 is a schematic structural diagram of the multi-purpose splicing panoramic camera flange heat dissipation aluminum plate ② with the heat dissipation structure in fig. 1.

Fig. 6 is a schematic structural diagram of the multi-purpose spliced panoramic camera adapter heat dissipation aluminum plate ③ with a heat dissipation structure in fig. 1.

The reference numbers illustrate:

Detailed Description

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

The utility model mainly aims at providing a take heat radiation structure's many meshes concatenation panoramic camera.

Referring to fig. 1 to 6 in combination, in an embodiment of the present invention, the multi-view splicing panoramic camera with the heat dissipation structure includes a housing, the housing includes a transparent cover clamping ring ①, a rear cover ⑤ and a ball handle ⑥ connected to the rear cover, N sets of video modules ⑤ 5, the video modules are disposed on an aluminum rotating bracket ⑧, and a field angle of each video module is greater than 180/N °, N aluminum rotating brackets ⑧, the aluminum rotating brackets are disposed on a flange heat dissipation aluminum plate ② and can adjust a monitoring angle of the video module ⑤ 7, the flange heat dissipation aluminum plate ② is connected to a switching heat dissipation aluminum plate ⑤ 0 through N heat conduction aluminum blocks ⑨, a switching heat dissipation aluminum plate ⑤ 1, the switching heat dissipation aluminum plate is disposed in the housing-rear cover ⑤ 2 and connected to the rear cover, a processor ⑤ 3, the processor is disposed on the switching heat dissipation aluminum plate ⑤ 4 and is connected to N sets of video modules ⑦, wherein N is not less than 3, and the processor ⑤ 6 clips the image information of the N sets of video modules ⑦ into a full image.

The utility model discloses among the technical scheme video module ⑦ sets up on aluminium matter rotation support ⑧, and the angle of view of each video module is greater than 180/N, so when gathering the information transmission that returns through N video module and handling to the treater, can ensure that there is the image information of sufficient angle to be used for the coincidence to cover each other, on the other hand because adjacent two sets of video modules can cut out partly because the blurred picture of edge pixel when the picture is spliced, can obtain high-quality panoramic picture after so cutting.

In order to facilitate further heat dissipation between layers, ventilation grooves for air convection between the upper layer and the lower layer of the plate can be further formed at the edges of the flange heat dissipation aluminum plate ② and the transfer heat dissipation aluminum plate ③.

In order to further improve the heat dissipation effect, the switching heat dissipation aluminum plate ③ is made of aluminum alloy and is detachably connected in the shell-rear cover ⑤, the processor ⑩ and the PCB interface board ④ are fixed on the switching heat dissipation aluminum plate and are arranged in the shell-rear cover and are connected with the N groups of video modules ⑦, wherein heat generated in the work of the processor and the PCB interface board is transmitted to the shell-rear cover through the switching heat dissipation aluminum plate and is dissipated to the outside air, and the heat dissipation performance is excellent so as to ensure that the multi-purpose splicing panoramic camera with the heat dissipation structure can continuously and normally work.

In view of the heat dissipation effect and the manufacturing cost, the aluminum rotary bracket ⑧, the flange plate heat dissipation aluminum plate ②, and the adapter plate heat dissipation aluminum plate ③ of the present embodiment are made of aluminum alloy, specifically 6063 aluminum profile, with a thermal conductivity of 201W/m.

Further, for the transmission of convenient data, the utility model discloses still include that treater ⑩ and PCB interface board ④ pass through heat conduction mud to be fixed on same switching heat dissipation aluminum plate ③, PCB interface board and treater electric connection.

Specifically, the shell comprises a transparent cover pressing ring ①, a rear cover ⑤ and a ball handle ⑥ connected with the rear cover, the adapter radiating aluminum plate ③ is connected with the rear cover, the video module ⑦ transfers heat to a flange radiating aluminum plate ② through an aluminum rotating bracket ⑧, the flange radiating aluminum plate is made of aluminum metal and has a very high heat conductivity coefficient, and is made into a circular plate with the diameter of 155mm in the embodiment to increase the radiating area, the flange radiating aluminum plate transfers heat to the adapter radiating aluminum plate ③ through a heat conducting aluminum block ⑨, the adapter radiating aluminum plate is a larger radiating aluminum plate, the diameter of the adapter radiating aluminum plate reaches 188mm, the adapter radiating aluminum plate bears the heat transferred by the video module and also bears the heat generated when the processor ⑩ and the PCB interface plate ⑤ 0 work, the adapter radiating aluminum plate is arranged in the shell-rear cover ⑤ 1 and connected with the rear cover, the adapter radiating aluminum plate is in close contact with the rear cover through heat conducting mud, the shell-rear cover is also made of aluminum material, has good heat and has good heat conducting performance, and can be used for conducting heat to the heat of a panoramic camera, and the heat radiating heat-dissipating structure which is arranged at the inner part of a panoramic camera, and can be used for processing the heat-radiating heat-conducting heat-radiating air-radiating heat-conducting heat-radiating aluminum plate, and is arranged at the whole-radiating air-conducting heat-conducting air-conducting.

The above description is only a preferred embodiment of the present invention, and many changes can be made in the detailed description and the application scope according to the idea of the present invention for those skilled in the art, which all belong to the protection scope of the present invention as long as the changes do not depart from the concept of the present invention.

Claims (7)

1. The utility model provides a take heat radiation structure's many meshes concatenation panoramic camera, includes: the shell comprises a transparent cover pressing ring, a rear cover and a ball handle connected with the rear cover; the N groups of video modules are arranged on the aluminum rotating bracket; the field angle of each video module is larger than 180/N degrees; the N aluminum rotating supports are arranged on the flange plate heat dissipation aluminum plate and can adjust the monitoring angle of the video module; the flange plate heat dissipation aluminum plate is connected with the switching heat dissipation aluminum plate through N heat conduction aluminum blocks; the switching heat dissipation aluminum plate is arranged in the shell-rear cover and is connected with the rear cover; the processor is arranged on the switching and heat-radiating aluminum plate and is connected with the N groups of video modules; and N is more than or equal to 3, and the processor clips the information acquired by the N groups of video modules into a full-scene image.

2. The multi-view spliced panoramic camera of claim 1, wherein the aluminum rotating bracket is made of aluminum alloy.

3. The multi-view splicing panoramic camera of claim 1, wherein the flange heat dissipation aluminum plate is made of aluminum alloy.

4. The multi-view splicing panoramic camera of claim 1, wherein the adapter heat-dissipation aluminum plate is made of aluminum alloy.

5. The multi-view splicing panoramic camera with the heat dissipation structure as recited in any one of claims 1 to 4, wherein the housing comprises a transparent cover pressing ring, a rear cover and a ball handle connected with the rear cover, and the adapter heat dissipation aluminum plate is connected with the rear cover.

6. The multi-view splicing panoramic camera of claim 1, wherein ventilation grooves for air convection of upper and lower layers of the panel are arranged at the edges of the flange radiating aluminum plate and the adapter radiating aluminum plate.

7. The multi-view splicing panoramic camera with the heat dissipation structure as recited in claim 1, further comprising a PCB interface board disposed on the adapting heat dissipation aluminum plate, wherein the PCB interface board is electrically connected to the processor.

Images