CN205305020U - Take many meshes camera of heat radiation structure - Google Patents

Abstract

The utility model provides a take many meshes camera of heat radiation structure, include: sensor plate, coding board, interface board, main control board and shell, sensor plate set up on movable support is changeed to aluminium matter, change movable support and set up on first heat dissipation aluminum plate, still are provided with coding board on the first heat dissipation aluminum plate, and first heat dissipation aluminum plate is provided with interface board and main control board on leading second heat dissipation aluminum plate to the heat through aluminium heat conduction piece on the second heat dissipation aluminum plate, and second heat dissipation aluminum plate passes through on aluminium heat conduction fixed bolster arrives aluminium matter shell to the thermal conductance, aluminium heat conduction fixed bolster and shell coding board 2. The utility model discloses take many meshes camera of heat radiation structure changes heat conduction that movable support, first heat dissipation aluminum plate, second heat dissipation aluminum plate, heat conduction piece and aluminium heat conduction fixed bolster will inside each the function board of many meshes camera produce to the aluminium matter shell through the aluminium matter that sets up, has effectively solved the heat dissipation problem of many meshes camera.

Description

Multi-lens camera with radiator structure

Technical field

This utility model relates to multi-lens camera technical field, particularly relates to a kind of multi-lens camera with radiator structure.

Background technology

Along with the continuous progress of video technique, Video Applications is more and more extensive, and people are also more and more higher to the requirement of video, and multi-lens camera also fades in market under the promotion of demand. So-called many orders web camera, it is exactly that front end uses multiple imageing sensors, rear end uses image processing techniques that the image sets of multiple imageing sensors is synthesized the image that a width is complete, is then encoded, the equipment finally sent according to certain procotol. Owing to multi-lens camera is made up of polylith circuit board, being arranged on inside only small space, power consumption reaches tens watts, so the heat radiation of multi-lens camera is a problem.

Current multi-lens camera, most producer is all without considering radiating treatment or consideration of comprehensively not dispelling the heat, cause that multi-lens camera is after a certain time of operation, owing to device temperature is too high, chip cannot tolerate high temperature for a long time, work after certain time, overdue and unredeemable pawn machine or various unsteady phenomena have often occurred.

Utility model content

For this, technical problem to be solved in the utility model is: provide a kind of multi-lens camera with radiator structure, to solve the heat dissipation problem of multi-lens camera.

Then, this utility model provides a kind of multi-lens camera with radiator structure, including: sensor board (1), encoding board (4), interface board (7), master control borad (8) and shell (11), sensor board (1) is arranged on aluminum matter swinging mounting (2), swinging mounting (2) is arranged on the first heat-dissipating aluminium plate (3), first heat-dissipating aluminium plate (3) is additionally provided with encoding board (4), first heat-dissipating aluminium plate (3) is led heat on the second heat-dissipating aluminium plate (6) by aluminum heat-conducting block (5), second heat-dissipating aluminium plate (6) is provided with interface board (7) and master control borad (8), second heat-dissipating aluminium plate (6) by aluminum heat conduction fixed support (10) in thermal conductance to aluminum shell (11), aluminum heat conduction fixed support (10) directly contacts with shell (11).

Wherein, on the second heat-dissipating aluminium plate (6), in the space formed between the second heat-dissipating aluminium plate (6) and fixed support (10), it is additionally provided with fan (12).

It is provided with at the panel edges place of the first heat-dissipating aluminium plate (3) and the second heat-dissipating aluminium plate (6) for the cross-ventilated ventilation groove (20) of plate levels.

It is arranged on the interface board (7) on the second heat-dissipating aluminium plate (6) and master control borad (8) is separately positioned on again in the aspect up and down of the 3rd heat-dissipating aluminium plate (9).

Interface board (7) and master control borad (8) are connected by the aspect up and down of heat conduction mud and the 3rd heat-dissipating aluminium plate (9).

This utility model multi-lens camera with radiator structure, by the aluminum matter swinging mounting arranged, the first heat-dissipating aluminium plate, the second heat-dissipating aluminium plate, heat-conducting block and aluminum heat conduction fixed support, the heat that internal for multi-lens camera each feature board produces is transmitted on aluminum shell, efficiently solves the heat dissipation problem of multi-lens camera.

Accompanying drawing explanation

Fig. 1 is the structural representation of the multi-lens camera described in this utility model embodiment with radiator structure;

Fig. 2 is the structural representation of the first heat-dissipating aluminium plate and the second heat-dissipating aluminium plate shown in Fig. 1.

Detailed description of the invention

Below, in conjunction with accompanying drawing, this utility model is described in detail.

As depicted in figs. 1 and 2, present embodiments provide a kind of multi-lens camera with radiator structure, including: sensor board 1, encoding board 4, interface board 7, master control borad 8 and shell 11, wherein, sensor board 1 is arranged on aluminum matter swinging mounting 2, swinging mounting 2 is arranged on the first heat-dissipating aluminium plate 3, first heat-dissipating aluminium plate 3 is additionally provided with encoding board 4, first heat-dissipating aluminium plate 3 is led on the second heat-dissipating aluminium plate 6 by 5 heats of aluminum heat-conducting block, second heat-dissipating aluminium plate 6 is provided with interface board 7 and master control borad 8, second heat-dissipating aluminium plate 6 passes through 10 thermal conductances of aluminum heat conduction fixed support to aluminum shell 11, aluminum heat conduction fixed support 10 directly contacts with shell 11.

For better heat radiation, it is also possible on the second heat-dissipating aluminium plate 6, in the space formed between the second heat-dissipating aluminium plate 6 and fixed support 10, fan 12 is set.

For the ease of dispelling the heat further between layers, it is also possible to be provided with for the cross-ventilated ventilation groove 20 of plate levels at the panel edges place of the first heat-dissipating aluminium plate 3 and the second heat-dissipating aluminium plate 6.

It is arranged on the interface board 7 on the second heat-dissipating aluminium plate 6 and master control borad 8 is separately positioned on again in the aspect up and down of the 3rd heat-dissipating aluminium plate 9. Interface board 7 and master control borad 8 are connected by the aspect up and down of heat conduction mud and the 3rd heat-dissipating aluminium plate 9.

Concrete, sensor board 1 is led on the first heat-dissipating aluminium plate 3 by 2 heats of swinging mounting, and the material of the first heat-dissipating aluminium plate 3 adopts aluminum metal, has very high heat conductivity, and made the plectane of 160mm diameter in the present embodiment, to increase area of dissipation. Encoding board 4 is also secured on the first heat-dissipating aluminium plate 3 simultaneously, makes encoding board 4 fully directly contact with the first heat-dissipating aluminium plate 3, and the heat above encoding board 4 is directly led on the first heat-dissipating aluminium plate 3. First heat-dissipating aluminium plate 3 is led on the second heat-dissipating aluminium plate 6 again through 5 heats of aluminum heat-conducting block. Second heat-dissipating aluminium plate 6 is heat radiation aluminium block one piece bigger, and the present embodiment is the plectane that one piece of diameter reaches 185mm. This block aluminium sheet not only carries the heat that module passes over above, and it also carries other two pieces of interface boards 7 and master control borad 8. Interface board 7 and master control borad 8 are to be linked together by trigger adapter, and centre exists certain gap.3rd heat-dissipating aluminium plate 9 is close in the middle of two boards plus heat conduction mud 13, it is therefore an objective in the thermal conductance of two boards to the second heat-dissipating aluminium plate 6. Second heat-dissipating aluminium plate 6 plays more importantly heat radiation and conductive force, and its all heats that carry above, by 10 thermal conductances of aluminum heat conduction fixed support to shell 11. Aluminum heat conduction fixed support 10 is integrally fixed at the aluminium block on shell 11, directly contacts with shell 11, in thermal conductance to shell 11. Shell 11 is also adopt aluminum metallic material, has good thermal diffusivity, and area of dissipation is sufficiently large, it is possible to the heat of device interior is well exported in outside air. Finally, also plus fan 12, make heat be distributed more uniform by cross-ventilation the heat of device interior, allow even heat be distributed in above shell, make shell better heat be distributed. Through such radiating treatment, multi-lens camera described in the present embodiment can work the problem occurring without any stability under outside 60 degree of high temperature.

In sum, the this utility model multi-lens camera with radiator structure, by the aluminum matter swinging mounting arranged, the first heat-dissipating aluminium plate, the second heat-dissipating aluminium plate, heat-conducting block and aluminum heat conduction fixed support, the heat that internal for multi-lens camera each feature board produces is transmitted on aluminum shell, efficiently solves the heat dissipation problem of multi-lens camera.

The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (5)

1. the multi-lens camera with radiator structure, including: sensor board (1), encoding board (4), interface board (7), master control borad (8) and shell (11), it is characterized in that, sensor board (1) is arranged on aluminum matter swinging mounting (2), swinging mounting (2) is arranged on the first heat-dissipating aluminium plate (3), first heat-dissipating aluminium plate (3) is additionally provided with encoding board (4), first heat-dissipating aluminium plate (3) is led heat on the second heat-dissipating aluminium plate (6) by aluminum heat-conducting block (5), second heat-dissipating aluminium plate (6) is provided with interface board (7) and master control borad (8), second heat-dissipating aluminium plate (6) by aluminum heat conduction fixed support (10) in thermal conductance to aluminum shell (11), aluminum heat conduction fixed support (10) directly contacts with shell (11).

2. multi-lens camera according to claim 1, it is characterised in that on the second heat-dissipating aluminium plate (6), in the space formed, is additionally provided with fan (12) between the second heat-dissipating aluminium plate (6) and fixed support (10).

3. the multi-lens camera according to claims 1 or 2, it is characterised in that be provided with at the panel edges place of the first heat-dissipating aluminium plate (3) and the second heat-dissipating aluminium plate (6) for the cross-ventilated ventilation groove (20) of plate levels.

4. multi-lens camera according to claim 1, it is characterised in that be arranged on the interface board (7) on the second heat-dissipating aluminium plate (6) and master control borad (8) is separately positioned on again in the aspect up and down of the 3rd heat-dissipating aluminium plate (9).

5. multi-lens camera according to claim 4, it is characterised in that interface board (7) and master control borad (8) are connected by the aspect up and down of heat conduction mud and the 3rd heat-dissipating aluminium plate (9).