CN207249351U - A kind of quick heat radiating twin-lens panorama camera - Google Patents

Abstract

The utility model discloses a kind of quick heat radiating twin-lens panorama camera, including stent and two camera lens modules, stent includes two heat-conducting plates, contact plane is respectively provided with heat-conducting plate, camera lens module includes the heat-conducting planar for lens chip heat derives, face contacts between the heat-conducting planar and contact plane, and heat-conducting plate is made of heat-conducting metal.The heat that two camera lens modules in twin-lens panorama camera produce quickly is conducted and dispersed by the utility model, ensures phase function long-time normal operation.

Description

A kind of quick heat radiating twin-lens panorama camera

Technical field

Camera field is the utility model is related to, is specially a kind of quick heat radiating twin-lens panorama camera.

Background technology

Twin-lens panorama camera has two pick-up lens, when panorama camera operates for a long time, the image procossing in camera lens Chip is easy to produce heat in the process of running.The amount of heat that picture processing chip produces be easy to cause chip or even whole The failure of camera, and traditional panorama camera itself does not have the device dedicated for heat dissipation, or set by additional heat dissipation It is standby to radiate to panorama camera, add cost.

Utility model content

The purpose of this utility model is to provide for a kind of quick heat radiating twin-lens panorama camera, by camera lens module in camera The heat of generation is quickly conducted and dispersed, and ensures phase function long-time normal operation.

In order to realize foregoing invention purpose, the utility model employs following technical scheme：A kind of quick heat radiating twin-lens Panorama camera, including stent and two camera lens modules, stent include two heat-conducting plates, contact plane, mirror are respectively provided with heat-conducting plate Head mould group includes the heat-conducting planar for lens chip heat derives, and face contacts between the heat-conducting planar and contact plane, leads Hot plate is made of heat-conducting metal.

Heat can be passed from camera lens module faster by contact of the face between heat-conducting planar and contact plane with face It is delivered on stent.Heat-conducting plate is made of the heat-conducting metal of good heat conductivity, accelerates radiating rate.

Compared with prior art, the quick heat radiating twin-lens panorama camera of above-mentioned technical proposal is employed, have has as follows Beneficial effect：

Using the quick heat radiating twin-lens panorama camera of the utility model, the heat that lens chip distributes is passed by heat-conducting plate Lead, effectively prevent heat persistent accumulation in camera lens module, ensure the phase function continuous service longer time will not because of overheat and It is damaged.

Preferably, the camera lens module is equipped with heat conduction panel, and heat conduction panel is made of heat-conducting metal, and heat-conducting planar, which is located at, leads On hot panel, the heat-conducting plate is equipped with heat conduction caulking groove, and heat conduction panel is embedded in heat conduction caulking groove.

Preferably, heat conduction panel surface is equipped with positioning column, and location hole, the positioning column and location hole are equipped with heat conduction caulking groove Annular face contacts.

Preferably, stent further includes deckle board, and the deckle board connects the both ends of two heat-conducting plates, and stent is in " returning " shape tubulose knot Structure, deckle board are made of heat-conducting metal.

Preferably, the deckle board in the stent and heat-conducting plate are integrally formed connection.

Preferably, the heat-conducting metal is aluminium alloy.

Brief description of the drawings

Fig. 1 is the structure diagram of the utility model quick heat radiating twin-lens panorama camera embodiment；

Fig. 2 is the schematic diagram after the utility model assembling；

Fig. 3 is the structure diagram of stent and camera lens module in the present embodiment.

Reference numeral：1st, stent；11st, deckle board；2nd, camera lens module；21st, positioning column；22nd, heat conduction panel；3rd, heat-conducting plate；31、 Location hole；32nd, heat conduction caulking groove.

Embodiment

The utility model is described further below in conjunction with the accompanying drawings.

Quick heat radiating twin-lens panorama camera as shown in Figures 1 to 3, including stent 1 and two camera lens modules 2, stent 1 wrap Two heat-conducting plates 3 are included, contact plane is respectively provided with heat-conducting plate 3, camera lens module 2 includes the heat conduction for lens chip heat derives Plane, face contacts between the heat-conducting planar and contact plane, and heat-conducting plate 3 is made of heat-conducting metal.

In the case of long-play, the picture processing chip in camera lens module 2 can give out twin-lens panorama camera Substantial amounts of heat.Picture processing chip distribute heat and converge in camera lens module 2, heat is transmitted to heat conduction in camera lens module 2 In plane, the contact plane of heat-conducting planar and heat-conducting plate 3 is in contact, and transfers heat on heat-conducting plate 3, thus heat-conducting plate 3 by The heat-conducting metal of good heat conductivity is made, and can accelerate the speed that heat is distributed into air on heat-conducting plate 3, reduces panorama camera Temperature.

In order to preferably realize the transmission of heat between camera lens module 2 and heat-conducting plate 3, camera lens module 2 is equipped with and leads Hot panel 22, heat conduction panel 22 are communicated with heat-conducting plate 3 and are made of heat-conducting metal, and heat-conducting planar is located on heat conduction panel 22.Heat conduction Plate 3 is equipped with heat conduction caulking groove 32, and heat conduction panel 22 is embedded in heat conduction caulking groove 32.32 phase interworking of heat conduction panel 22 and heat conduction caulking groove Close so that agree with well at one piece between heat transfer plane, ensure the transmission of camera lens module 2 and heat-conducting plate 3 heat between the two.

In order to which heat conduction panel 22 and heat conduction caulking groove 32 is fixed with each other, increase the utility model quick heat radiating bimirror The stability of head panorama camera structure, is provided with positioning column 21, correspondingly, in heat conduction caulking groove 32 on the surface of heat conduction panel 22 There is provided location hole 31.Positioning column 21 and 31 annular face contacts of location hole, with the use of causing heat conduction panel 22 and heat conduction caulking groove 32 Between will not depart from.

In the present embodiment, in order to make 1 structure of stent more stablize, while in order to accelerate the radiating rate of panorama camera, Deckle board 11 is also provided with stent 1.Deckle board 11 is connected to the both ends of two heat-conducting plates 3, stent 1 in " returning " shape tubular structure and by Heat-conducting metal is made.

Deckle board 11 and heat-conducting plate 3 in stent 1 are integrally formed connection, remove the process spliced in production from, improve production effect Stent 1 stability of itself is also improved while rate.

The intensity of aluminium alloy is higher, and plasticity is good, has excellent heat conductivility, therefore in the present embodiment, it is above-mentioned to lead Thermometal selects aluminum alloy materials.

The above makes the preferred embodiment of the utility model, does not depart from for those of ordinary skill in the art On the premise of the utility model principle, some variations and modifications can also be made, these also should be regarded as the protection of the utility model Scope.

Claims (6)

1. A kind of 1. quick heat radiating twin-lens panorama camera, it is characterised in that：Including stent (1) and two camera lens modules (2), stent (1) include two heat-conducting plates (3), contact plane is respectively provided with heat-conducting plate (3), camera lens module (2) includes being used for lens chip heat Heat-conducting planar derived from amount, face contacts between the heat-conducting planar and contact plane, and heat-conducting plate (3) is made of heat-conducting metal.
2. 2. quick heat radiating twin-lens panorama camera according to claim 1, it is characterised in that：The camera lens module (2) sets There is heat conduction panel (22), heat conduction panel (22) is made of heat-conducting metal, and heat-conducting planar is located on heat conduction panel (22), the heat conduction Plate (3) is equipped with heat conduction caulking groove (32), and the embedded heat conduction caulking groove (32) of heat conduction panel (22) is interior.
3. 3. quick heat radiating twin-lens panorama camera according to claim 2, it is characterised in that：Heat conduction panel (22) surface is set There is positioning column (21), location hole (31), the positioning column (21) and location hole (31) annular face contacts are equipped with heat conduction caulking groove (32).
4. 4. quick heat radiating twin-lens panorama camera according to claim 1, it is characterised in that：Stent (1) further includes deckle board (11), the deckle board (11) connects the both ends of two heat-conducting plates (3), and stent (1) is in " returning " shape tubular structure, and deckle board (11) is by leading Thermometal is made.
5. 5. quick heat radiating twin-lens panorama camera according to claim 4, it is characterised in that：Frame in the stent (1) Plate (11) and heat-conducting plate (3) are integrally formed connection.
6. 6. the quick heat radiating twin-lens panorama camera according to claim 1 to 5 any one, it is characterised in that：It is described to lead Thermometal is aluminium alloy.