CN207650534U - The radiator structure and camera of camera - Google Patents

Abstract

The utility model discloses a kind of radiator structure and camera of camera, and the radiator structure of wherein camera includes：Heat sink and cooling fin；The heat sink and cooling fin are made of metal material；The cooling fin is located in the heat sink, and the cooling fin is connect with the heat sink.Camera interiors of products heat can be exported outside in time, camera interiors of products heat is avoided to generate the normal working performance for accumulating and influencing electronic component in camera product by the utility model by the combination heat dissipation heat conduction of heat dissipation metal frame and metal fin.Camera in the utility model, by the way that the electronic components such as optical sensor are fitted together with metal fin, the heat generated on optical sensor is set to be transmitted on heat dissipation metal frame by metal fin in time, and it is distributed by heat dissipation metal frame, rapid heat dissipation and good heat dissipation effect, it significantly reduces the electronic components such as the optical sensor of camera and the probability of noise occurs, improve camera working performance and service life.

Description

The radiator structure and camera of camera

Technical field

The utility model is related to arrive camera product scope, the radiator structure and camera of camera are especially related to.

Background technology

Camera product can distribute heat at work, existing to be given out camera interiors of products heat by air conduction It goes, but radiation processes are slow, heat dissipation effect is bad, and when persistently using camera product, it is tight that camera interiors of products accumulates heat phenomenon Weight, not only working performance, functional effect can have a greatly reduced quality the camera product in high-heat environment for a long time, but also can be produced to camera Product cause the damage that can not restore, and keep its service life easily impaired.For example, to no effect good radiator structure is set in camera Meter can cause the optical device for a long time under high-heat environment heat occur and make an uproar and show bad function, for example image quality becomes Difference etc..The radiator structure of camera is closely related to the overall performance of camera product, therefore is badly in need of dissipating suitable for camera product Thermal structures design.

Therefore, the prior art could be improved.

Utility model content

The main purpose of the utility model is to provide a kind of radiator structure of camera, it is intended to solve the heat dissipation effect of existing camera The bad technical problem of fruit.

The utility model proposes a kind of radiator structures of camera, including：Heat sink and cooling fin；

Above-mentioned heat sink and cooling fin are made of metal material；

Above-mentioned cooling fin is located in above-mentioned heat sink, and above-mentioned cooling fin is connect with above-mentioned heat sink.

Preferably, above-mentioned heat sink is bent to form the peace of designated shape by the metallic plate of the first appointed thickness along its length Fill region.

Preferably, there are strip fitting groove, above-mentioned strip assembly towards in the one side of above-mentioned installation region for above-mentioned metallic plate Slot and the axis parallel of above-mentioned metallic plate along its length；The above-mentioned cooling fin of second appointed thickness is assembled by above-mentioned strip Slot is fixed in above-mentioned heat sink.

Preferably, above-mentioned installation region is inverted U shape.

Preferably, the ranging from 3mm to 5mm of above-mentioned first appointed thickness；The ranging from 1mm of above-mentioned second appointed thickness is extremely 3mm。

Preferably, above-mentioned cooling fin is integrally formed with above-mentioned heat sink.

Preferably, plane where above-mentioned cooling fin is parallel to the plane that above-mentioned heat sink surrounds, close to above-mentioned heat sink Two edges of above-mentioned cooling fin are integrally formed respectively in above-mentioned heat sink.

The utility model also provides a kind of camera, including above-mentioned radiator structure, further includes optical lens module, above-mentioned light Camera lens module is learned to be fixed on above-mentioned cooling fin by fixing piece.

Preferably, above-mentioned optical lens module includes wide-angle lens, lens clamping seat, optical sensor；Above-mentioned wide-angle lens It is fixed in above-mentioned lens clamping seat, above-mentioned lens clamping seat is fixed on the center of above-mentioned cooling fin by positioning screw, above-mentioned Optical sensor is engaging in above-mentioned cooling fin between above-mentioned lens clamping seat and above-mentioned cooling fin, and by above-mentioned lens clamping seat On.

Preferably, above-mentioned camera includes two above-mentioned optical lens modules；Two above-mentioned optical lens modules are respectively symmetrically It is set to the positive and negative of above-mentioned cooling fin.

Preferably, above-mentioned camera further includes FPC (Flexible Printed Circuit, abbreviation FPC, flexible circuit Plate), above-mentioned one end FPC is connected with above-mentioned optical sensor, and the other end is connected with master control mainboard；Above-mentioned FPC is close to above-mentioned heat dissipation Piece is disposed.

The utility model advantageous effects：The utility model is radiated by the combination of heat dissipation metal frame and metal fin Camera interiors of products heat can be exported outside in time by heat conduction, and camera interiors of products heat is avoided to generate accumulation and influence camera The normal working performance of electronic component in product.Camera in the utility model, by by the electronics member device such as optical sensor Part is fitted together with metal fin, and the heat generated on optical sensor is made to be transmitted to metal by metal fin in time It in heat sink, and is distributed by heat dissipation metal frame, rapid heat dissipation and good heat dissipation effect significantly reduce the optical sensor of camera There is the probability of noise in equal electronic components, improve the working performance and service life of camera.

Description of the drawings

The radiator structure schematic diagram of camera in one embodiment of Fig. 1 the utility model；

Camera lens assembling structure schematic diagram in one embodiment of Fig. 2 the utility model；

Camera integral installation distribution structure schematic diagram in another embodiment of Fig. 3 the utility model.

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific implementation mode

It should be appreciated that specific embodiment described herein is only used to explain the utility model, it is not used to limit this Utility model.

Referring to Fig.1, the utility model embodiment proposes a kind of radiator structure 1 of camera, including：Heat sink 10 and cooling fin 11；

Above-mentioned heat sink 10 and cooling fin 11 are made of metal material；

Above-mentioned cooling fin 11 is located in above-mentioned heat sink 10, and above-mentioned cooling fin 11 is connected with above-mentioned heat sink 10.

11 groups of cooling fin made of the utility model embodiment heat sink 10 and metal material made of metal material Heat dissipation heat conduction is closed, camera interiors of products heat can be exported outside in time, avoids camera interiors of products heat from generating and accumulates and shadow Ring the normal working performance of camera product.Metal material includes metallic aluminium, aluminium alloy, metallic copper, copper alloy, gold in the present embodiment Belong to one kind in nickel, nickel alloy or stainless steel, heat conduction and heat radiation performance is good, and material is widely used, while also meeting electronic product The requirement of appearance looks elegant.

In one embodiment of the utility model, above-mentioned heat sink 10 is bent along its length by the metallic plate of the first appointed thickness Form the installation region of designated shape；Above-mentioned metallic plate towards in the one side of above-mentioned installation region there are strip fitting groove 100, on State strip fitting groove 100 and the axis parallel of above-mentioned metallic plate along its length；The above-mentioned cooling fin 11 of second appointed thickness It is fixed in above-mentioned heat sink 10 by above-mentioned strip fitting groove 100.

Metallic plate is bent along its length in the present embodiment, refers to the overbending direction of metallic plate towards the same side.Above-mentioned One appointed thickness and designated shape refer to the assembling demand for meeting variously-shaped camera product.One embodiment of the utility model In above-mentioned designated shape be by the shape of the end to end enclosure space surrounded of metallic plate, in another embodiment of the utility model on State the shape that designated shape is the enclosure space that not completely enclosed bending metallic plate is together to form with other connectors.This reality The installation region for applying example refers to the region for assembling each building block of camera product, and cooling fin 11 is made to be located at the inside of camera product, Heat sink 10 is located at the shell of camera product, to facilitate outside heat conduction and heat radiation.Strip fitting groove 100 is as cooling fin 11 and dissipates The connection card of hot frame 10 positions, to facilitate the assembling of cooling fin 11 and heat sink 10.Strip fills in one embodiment of the utility model Slot allocation 100 is continuous linear distribution；In another embodiment of the utility model strip fitting groove 100 be similar dotted line shape not Continuously distributed state.Second appointed thickness to meet electronic product assembly space needs and radiating requirements simultaneously.

Further, above-mentioned installation region is inverted U shape.

Above-mentioned installation region is inverted U shape, and refers to metallic plate and is bent into inverted U-shaped, heat sink 10 is clutched in conjunction with other connectors Head and the tail at, and by the inner wall of heat sink 10 by cooling fin 11 engaging in heat sink 10.Item in one embodiment of the utility model Shape fitting groove 100 is located on the central axes of above-mentioned metallic plate along its length, so as to the corresponding installation of 11 tow sides of cooling fin Space symmetr is distributed, and facilitates the installation requirements of symmetrical electronic component.

Further, the ranging from 3mm to 5mm of above-mentioned first appointed thickness；The ranging from 1mm of above-mentioned second appointed thickness To 3mm.More optimally to meet electronic product assembly space needs and radiating requirements simultaneously.

In another embodiment of the utility model, above-mentioned cooling fin 11 is integrally formed with above-mentioned heat sink 10.With convenient for assembly, Facilitate heat conduction simultaneously.

Further, 11 place plane of above-mentioned cooling fin is parallel to the plane that above-mentioned heat sink 10 surrounds, and is dissipated close to above-mentioned Two edges of the above-mentioned cooling fin 11 of hot frame 10 are integrally formed respectively in above-mentioned heat sink 10, and the face of above-mentioned cooling fin 11 The 1/3 to 2/3 of the area of plane that the above-mentioned heat sink of product accounting 10 surrounds.

The above-mentioned 11 place plane of cooling fin of the present embodiment is parallel to the plane that above-mentioned heat sink 10 surrounds, so as to cooling fin 11 The corresponding installation space of tow sides is symmetrical, facilitates the demand of symmetrical installation electronic component.Close to above-mentioned heat dissipation Two edges of the above-mentioned cooling fin 11 of frame 10 are integrally formed respectively in above-mentioned heat sink 10, and the area of above-mentioned cooling fin 11 The 1/3 to 2/3 of the area of plane that the above-mentioned heat sink of accounting 10 surrounds；Under the premise of meeting assembly space, make cooling fin 11 with Passage of heat between heat sink 10 maximizes, to improve heat dissipation effect.

With reference to Fig. 2, the utility model embodiment also provides a kind of camera, including above-mentioned radiator structure 1, further includes optics Camera lens module 2, above-mentioned optical lens module 2 are fixed on by fixing piece 3 on above-mentioned cooling fin 11.

In one embodiment of the utility model, above-mentioned optical lens module 2 includes wide-angle lens 20, lens clamping seat 21, optics Sensor 22；Above-mentioned wide-angle lens 20 is fixed in above-mentioned lens clamping seat 21, and above-mentioned lens clamping seat 21 passes through positioning screw, viscose Equal fixing pieces are fixed on the center of above-mentioned cooling fin 11, above-mentioned optical sensor 22 be located at above-mentioned lens clamping seat 21 with it is above-mentioned Between cooling fin 11, and it is engaging on above-mentioned cooling fin 11 by above-mentioned lens clamping seat 21.

With reference to Fig. 3, in another embodiment of the utility model, above-mentioned camera includes two above-mentioned optical lens modules 2；Two Above-mentioned optical lens module 2 respectively symmetrically is set to the positive and negative of above-mentioned cooling fin 11.In the present embodiment preferably two it is above-mentioned Optical lens module 2 respectively symmetrically is set to the center of 11 positive and negative of above-mentioned cooling fin.

Further, above-mentioned camera further includes FPC23, and above-mentioned one end FPC23 is connected with above-mentioned optical sensor 22, another End is connected with master control mainboard 4；Above-mentioned FPC23 is disposed close to above-mentioned cooling fin 11.

Further, the master control mainboard 4 of above-mentioned camera is fixed on 11 positive bottom of cooling fin by mainboard fixing screws 40 Installation region, and be electrically connected with battery 5.Battery 5 is rechargeable battery in the present embodiment, is parallel to 4 place plane of master control mainboard, And it is assembled close to master control mainboard 4.On the side wall of installation region in the present embodiment, i.e., in heat sink 10 be arranged side button 6 pair The third slot corresponding to the second slot and MIC7 corresponding to the first slot for answering, side key light guide column 60, is respectively used to By side button 6, side key light guide column 60 and MIC7 assembly in heat sink 10, the one of the heat sink 10 of assembly side button 6 Side inner wall, setting button holder 61, above-mentioned key support 61 between master control mainboard 4 and heat sink 10, lead by above-mentioned side button Light beam 60, can touch-control master control master when by downside button 6 and side key light guide column 60 between key support 61 and heat sink 10 The corresponding button on plate 4；MIC7 is electrically connected with master control mainboard 4.

Above-mentioned camera further includes the shell 8 to match with 10 shape of heat sink, and above-mentioned shell is located relative to cooling fin 11 The outside of symmetrical installation region, and be buckled in heat sink 10.Above-mentioned shell includes front housing 80 and rear shell 81；Front housing Welding setting camera button 82 and camera button light-guiding pillar 83 on 80, can touch-control when pressing camera button 82 and camera button light-guiding pillar 83 The corresponding button on master control mainboard 4；Front housing 80 and rear shell 81 are relative to being respectively set camera lens decoration on the outside of lens location 84。

Camera in the utility model embodiment, by preparing the electronic components such as optical sensor 22 and metal material Cooling fin 11 fit together, so that the heat generated on optical sensor 22 is transmitted to heat sink 10 by cooling fin 11 in time On, and distributed by heat sink 10, rapid heat dissipation and good heat dissipation effect, significantly reduce the equal electronics of optical sensor 22 of camera There is the probability of noise in component, improves the working performance and service life of camera.

It above are only the preferred embodiment of the utility model above, it does not limit the scope of the patent of the present invention, Equivalent structure or equivalent flow shift made by using the description of the utility model and the drawings, is directly or indirectly transported Used in other related technical areas, it is equally included in the patent within the scope of the utility model.

Claims (8)

1. a kind of radiator structure of camera, which is characterized in that including：Heat sink and cooling fin；

The heat sink and cooling fin are made of metal material；The heat sink is by the metallic plate of the first appointed thickness along length Direction is bent to form the installation region of designated shape；The metallic plate is towards there are strip assembly in the one side of the installation region Slot, the strip fitting groove and the axis parallel of the metallic plate along its length；The cooling fin of second appointed thickness It is fixed in the heat sink by the strip fitting groove；

The cooling fin is located in the heat sink, and the cooling fin is connect with the heat sink.

2. the radiator structure of camera according to claim 1, which is characterized in that the installation region is inverted U shape.

3. the radiator structure of camera according to claim 1, which is characterized in that the cooling fin and heat sink one Molding.

4. the radiator structure of camera according to claim 3, which is characterized in that plane where the cooling fin is parallel to institute The plane that heat sink surrounds is stated, is integrally formed respectively in the heat dissipation close to two edges of the cooling fin of the heat sink On frame.

5. a kind of camera, which is characterized in that the radiator structure for including the camera described in any one of claim 1-4 further includes Optical lens module, the optical lens module are fixed on by fixing piece on the cooling fin.

6. camera according to claim 5, which is characterized in that the optical lens module includes wide-angle lens, shot card Seat, optical sensor；The wide-angle lens is fixed in the lens clamping seat, and the lens clamping seat is fixed on by positioning screw The center of the cooling fin, the optical sensor is between the lens clamping seat and the cooling fin, and by described Lens clamping seat is engaging on the cooling fin.

7. camera according to claim 6, which is characterized in that including two optical lens modules；Two light Sensor is learned to be symmetrically arranged in the positive and negative of the cooling fin.

8. according to the camera described in any one of claim 5-7, which is characterized in that further include FPC, described one end FPC and institute It states optical sensor to be connected, the other end is connected with master control mainboard；The FPC is disposed close to the cooling fin.