CN206181189U - Optimize non - refrigeration infrared camera of inside heat distribution structural configuration mode - Google Patents

Abstract

The utility model discloses an optimize non - refrigeration infrared camera of inside heat distribution structural configuration mode, it includes: preceding shell (1), infrared optical lens (4), lens holder (5), detector (6), heat insulating board (3), treatment circuit (7), backshell (2), detain at infrared optical lens (4) front end preceding shell (1), and infrared optical lens (4) and detector (6) are fixed on lens holder (5), forms the formation of image subassembly, treatment circuit (7) are fixed on backshell (2), form to handle the subassembly, set up between formation of image subassembly and the processing subassembly heat insulating board (3). The utility model discloses has the ability that restraines rear end treatment circuit heat and transmit forward, have and promote the function of rear end treatment circuit heat to the outside transmission, have and suppress the function of outside heat to the inside transmission.

Description

A kind of uncooled ir camera of optimization internal heat distributed architecture layout type

Technical field

This utility model belongs to uncooled ir camera field, is related to a kind of optimization internal heat distributed architecture layout type Uncooled ir camera.

Background technology

Uncooled ir camera is mainly made up of infrared optical lens, detector, process circuit.Its layout type is main It is to arrange according to infrared optical lens, detector, the vertical mode of process circuit.Mistake of the uncooled ir camera in work Cheng Zhong, because infrared optical lens and detector are affected larger by ambient temperature, therefore should in structure design layout Consider the distribution of control camera internal heat to reduce impact of the ambient temperature to infrared device.For this problem, design is a kind of excellent Change the uncooled ir camera of internal heat distributed architecture layout type.

Utility model content

(1) technical problem to be solved

The technical problems to be solved in the utility model is：A kind of the non-of optimization internal heat distributed architecture layout type is provided Refrigeration infrared camera, to reduce impact of the ambient temperature to infrared device.

(2) technical scheme

In order to solve above-mentioned technical problem, this utility model provides a kind of optimization internal heat distributed architecture layout type Uncooled ir camera, it includes：Fore shell 1, infrared optical lens 4, lens bracket 5, detector 6, thermal insulation board 3, process circuit 7th, back cover 2；Fore shell 1 is buckled in the front end of infrared optical lens 4, and infrared optical lens 4 and detector 6 are fixed on lens bracket 5, shape Into image-forming assembly；Process circuit 7 is fixed on back cover 2, forms process assembly；Arrange between image-forming assembly and process assembly heat-insulated Plate 3.

Wherein, the process circuit 7 is fixed by screw with back cover 2.

Wherein, the fore shell 1 is made up of nonmetallic, and outside heat can be suppressed to camera internal point transmission, reduces external heat Impact of the amount to infrared optical lens.

Wherein, the material of the lens bracket 5 is metal.

Wherein, the material of the back cover 2 is metal, after contacting with process circuit 7, promotes its heat to outside transmission.

Wherein, the material of the thermal insulation board 3 is nonmetallic, suppresses the heat that process circuit 7 is produced to affect infrared to front transfer The service behaviour of optical lens 4 and detector 6.

(3) beneficial effect

The uncooled ir camera of the optimization internal heat distributed architecture layout type that above-mentioned technical proposal is provided, has Suppress ability of the back-end processing circuit heat to front transfer；With the function of promoting back-end processing circuit heat to transmit to outside； With the function of suppressing outside heat internally to transmit.

Description of the drawings

Fig. 1 is the knot of the uncooled ir camera that this utility model embodiment optimizes internal heat distributed architecture layout type Structure schematic diagram.

In figure, 1- fore shells, 2- back covers, 3- thermal insulation boards, 4- infrared optical lens, 5- lens brackets, 6- detectors, 7- process Circuit.

Specific embodiment

To make the purpose of this utility model, content and advantage clearer, with reference to the accompanying drawings and examples, to this reality It is described in further detail with new specific embodiment.

With reference to shown in Fig. 1, this utility model uncooled ir camera includes fore shell 1, infrared optical lens 4, lens bracket 5th, detector 6, thermal insulation board 3, process circuit 7, back cover 2.

Infrared optical lens 4, detector 6, process circuit 7 constitute the core work part of uncooled ir camera.Process Circuit 7 is fixed by screw with back cover 2, and lens bracket 5 is secured together infrared optical lens 4 with detector 6, is being visited Survey between device 6 and process circuit 7 and place thermal insulation board 3, in the front end of infrared optical lens 4 fore shell is buckled.

The material of fore shell 1 of the front end of infrared optical lens 4 is for nonmetallic, and heat conductivity is low, can effectively suppress outside heat to Camera internal point transmission, reduces impact of the outside heat to infrared optical lens 4.

Lens bracket 5 is that infrared optical lens 4 play fixation with detector 6, and material is metal.

Process circuit 7 is the major heat producing components of camera internal, and temperature rise is big in the course of work, and the material of back cover 2 of rear end is Metal, heat conductivity is high, after contacting with process circuit, can effectively facilitate its heat to outside transmission.

The material of thermal insulation board 3 between detector 6 and process circuit 7 is nonmetallic, heat conductivity bottom, can effectively at suppression The thermal imagery that reason circuit is produced affects the service behaviour of infrared optical lens 4 and detector 6 to front transfer.

The above is only preferred implementation of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of without departing from this utility model know-why, some improvement and deformation can also be made, these change Enter and deform also to should be regarded as protection domain of the present utility model.

Claims (6)

1. it is a kind of optimization internal heat distributed architecture layout type uncooled ir camera, it is characterised in that include：Fore shell (1), infrared optical lens (4), lens bracket (5), detector (6), thermal insulation board (3), process circuit (7), back cover (2)；Fore shell (1) infrared optical lens (4) front end is buckled in, infrared optical lens (4) and detector (6) are fixed on lens bracket (5), is formed Image-forming assembly；Process circuit (7) is fixed on back cover (2), forms process assembly；Arrange between image-forming assembly and process assembly every Hot plate (3).

2. the uncooled ir camera of internal heat distributed architecture layout type is optimized as claimed in claim 1, and its feature exists In the process circuit (7) is fixed by screw with back cover (2).

3. the uncooled ir camera of internal heat distributed architecture layout type is optimized as claimed in claim 1, and its feature exists In the fore shell (1) is made up of nonmetallic, and outside heat can be suppressed to camera internal point transmission, reduces outside heat to infrared The impact of optical lens.

4. the uncooled ir camera of internal heat distributed architecture layout type is optimized as claimed in claim 1, and its feature exists In lens bracket (5) material is metal.

5. the uncooled ir camera of internal heat distributed architecture layout type is optimized as claimed in claim 1, and its feature exists In back cover (2) material is metal, after contacting with process circuit (7), promotes its heat to outside transmission.

6. the uncooled ir camera of internal heat distributed architecture layout type is optimized as claimed in claim 1, and its feature exists In thermal insulation board (3) material is nonmetallic, suppresses the heat that process circuit (7) is produced that infrared optics mirror is affected to front transfer The service behaviour of head (4) and detector (6).