CN206311212U - A kind of thermal infrared imager - Google Patents

Abstract

The utility model provides a kind of thermal infrared imager, and it includes：It is successively set on shutter in housing, detector and circuit board, the position that the outer face of the housing is corresponding with circuit board is provided with heat abstractor, and air vent is correspondingly arranged on the housing end face and the end face relative with the end face between the heat abstractor and circuit board.Thermal infrared imager of the present utility model, simple structure, radiating efficiency are high.

Description

A kind of thermal infrared imager

Technical field

The utility model is related to infrared technique field, more particularly, to a kind of thermal infrared imager.

Background technology

Thermal infrared imager is the infrared energy point for receiving measured target using Infrared Detectors and optical imagery object lens The reflection of cloth figure is on the light-sensitive element of Infrared Detectors, so as to obtain Infrared Thermogram, this thermography and body surface Heat distribution is corresponding, that is, the invisible infrared energy that object sends is changed into visible thermal image by thermal infrared imager. Different colours on thermal image represent the different temperatures of testee.

With the development of integrated technology and microelectronic packaging technology, the overall power density of electronic component constantly increases, and The physical size of electronic component and electronic equipment is but gradually intended to small-sized, miniaturization, and produced heat is accumulated rapidly, led The heat flow density around electronic component is caused to increase sharply.But, hot environment will influence the property of electronic component and equipment Energy.

At present, traditional thermal infrared imager is directly transferred to outward by by the heat of detector and other heater elements On shell, be directly emitted to heat in air by radiation tooth again by shell.This radiating mode is when power consumption is smaller or enclosure volume It is general to meet imaging and thermometric requirement when larger.But when thermal infrared imager function increases, power consumption is increased and volume is increasingly small-sized During change, radiating is difficult to satisfaction and require that, causes that thermal infrared imager image quality is not high, and thermometric is uneven, inaccurate.

Utility model content

To overcome above mentioned problem or solving the above problems at least in part, the utility model provides a kind of radiating efficiency The high, thermal infrared imager of simple structure.

According to one side of the present utility model, there is provided a kind of thermal infrared imager, it includes：It is successively set in housing Shutter, detector and circuit board, the position that the outer face of the housing is corresponding with circuit board are provided with heat abstractor, positioned at institute State and be correspondingly arranged air vent on housing end face and the end face relative with the end face between heat abstractor and circuit board.

On the basis of such scheme, surrounding and housing are set between the detector being arranged in housing and the circuit board The deep bead being brought into close contact, the air vent is located at deep bead near the side of circuit board.

On the basis of such scheme, the deep bead uses rigid plastics.

On the basis of such scheme, it is disposed between the side end face of the detector window and the inner face of housing Heat-conducting piece and heat conductive pad, and the heat-conducting piece extends to the outer face of the shutter.

On the basis of such scheme, the heat conductive pad is silica gel.

On the basis of such scheme, the heat-conducting piece is metal.

On the basis of such scheme, the metal is aluminium alloy, magnesium alloy or copper alloy.

A kind of thermal infrared imager that the application is proposed, its advantage is mainly reflected in following aspect：

(1) it is effective to improve radiating efficiency and radiating rate by setting the corresponding passage of heat abstractor；

(2) by setting deep bead, it is to avoid harmful effect of the heat abstractor to detector；

(3) by setting heat conductive pad, the radiating efficiency of detector and shutter is improved, makes the radiating of shutter uniform, it is to avoid dissipated The signal quality of hot uneven influence shutter.

Brief description of the drawings

Fig. 1 is according to a kind of structural representation of thermal infrared imager in the utility model embodiment.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below Embodiment is used to illustrate the utility model, but is not limited to scope of the present utility model.

It is shown in Figure 1, a kind of thermal infrared imager, including housing 1, camera lens 10, shutter 2 are disposed with housing 1, are visited Survey device 3 and circuit board 4.The outer face of housing 1 corresponding with circuit board 4 is provided with heat abstractor 5, the shell where heat abstractor 5 Air vent 6 is correspondingly arranged on the end face 1a of body 1 and the end face 1b relative with end face 1a.

Heating is easiest in thermal infrared imager, and the maximum part of caloric value is exactly circuit board 4.In time by circuit board 4 The heat derives for distributing to the stability and reliability that outside housing 1, can effectively improve thermal infrared imager operation, meanwhile, The accuracy of thermal infrared imager detection operation can be improved.

Heat abstractor 5 is set on the corresponding end face of housing 1 of circuit board 4, the heat that circuit board 4 is distributed is exported in time Outside housing 1.Meanwhile, air vent 6 is correspondingly arranged on the end face 1a and relative end face 1b of the place housing 1 of heat abstractor 5, divulge information Hole 6 itself can play a part of to heat is derived outside housing 1, and at the same time, air vent 6 coordinates heat abstractor 5, plays more Good, faster thermolysis.

In a specific embodiment, heat abstractor 5 uses fan.When fan is operated, hot gas, housing 1 are outwards derived The air vent 6 being correspondingly arranged on relative end face 1a and 1b, accelerates the circulation of air, and the heat for distributing circuit board 4 is quickly led Go out to outside housing 1.

Deep bead 7 is set between circuit board 4 and detector 3, and deep bead 7 is brought into close contact with the inner face of housing 1.Ventilation Hole 6 is located at the side of deep bead 7, also, positioned at the side where circuit board 4.

Deep bead 7 makes the region at the place of 1 interior circuit board of housing 4 and the zone isolation where detector 3, it is to avoid circuit board 4 The heat for distributing has undesirable effect to the detection accuracy of detector 3.Simultaneously as being set on the corresponding housing 1 of circuit board 4 There is a heat abstractor 5, and a corresponding air vent 6, to avoid heat abstractor 5 and/or air-flow produced by air vent 6 to detector 3 detection operation has undesirable effect, by setting deep bead 7 so that the region where detector 3 is in sealing state, and it is electric There is airflow to radiate in the region where road plate 4.

The material of deep bead 7 uses rigid plastics.Rigid plastics can either play gear wind action, but with it is good every Thermal effect, it is to avoid the heat that circuit board 4 is distributed is conducted from deep bead 7 to the region where detector 3, influences the inspection of detector 3 Survey effect.

Received in detector 3 and be provided with heat conduction between the side end face of window of the conveying signal of shutter 2 and the inner face of housing 1 Pad 8 and heat-conducting piece 9.Heat conductive pad 8 closely connects together detector 3 with heat-conducting piece 9, and heat-conducting piece 9 is brought into close contact with housing 1.And And, heat-conducting piece 9 covers the outer face beyond the window of whole shutter 2, and further the heat of cut-off detector 3 conducts to shutter 2.

Heat conductive pad 8 and heat-conducting piece 9 are set by the side end face of the window in detector, makes to be dissipated in the course of work of detector 3 The heat of hair exports to housing 1 by heat conductive pad 8 and heat-conducting piece 9, and then distributes, to reduce the environment temperature of the work of detector 3, Improve the operational reliability of detector 3.

In a specific embodiment, heat conductive pad 8 uses heat conductive silica gel.Heat conductive silica gel has preferable pliability and heat Conductibility, the region being covered between the window of detector 3 and heat-conducting piece 9 that can be fitted, to derive heat, quick heat radiating.

In another specific embodiment, heat-conducting piece 9 uses metal material.Metal used be aluminium alloy, magnesium alloy or Copper alloy.Metal has good thermal conductivity, quickly can transmit heat to radiate to housing 1.Meanwhile, metal covering shutter 2 Region in addition to window, because the heat-transfer rate of metal is fast, is easy to derive the even heat of detector 3, makes the work of shutter 2 Make environment temperature rise not high and uniform, it is to avoid the signal that the environment temperature difference of the working region of shutter 2 is caused receives difference, from And influence detection accuracy.

Thermal infrared imager of the present utility model, sets heat abstractor 5, also, visiting on the corresponding housing 1 of circuit board 4 Survey between device 3 and circuit board 4 and deep bead is set, heat conductive pad 8 is set between the window side end face of detector 3 and the inner face of housing 1 With heat-conducting piece 9, fully ensure that the heater element heat of thermal infrared imager is distributed, by outside heat derives to housing 1, so that will be red The heat produced during outer thermal imager operation is derived outside housing 1 in time, it is ensured that the stability and reliability of thermal infrared imager work Property.

Finally, the present processes are only preferably embodiment, are not intended to limit protection domain of the present utility model. It is all it is of the present utility model spirit and principle within, any modification, equivalent substitution and improvements made etc. should be included in this reality Within new protection domain.

Claims (7)

1. a kind of thermal infrared imager, it is characterised in that it includes：It is successively set on shutter (2), detector (3) in housing (1) With circuit board (4), the position that the outer face of the housing (1) is corresponding with circuit board (4) is provided with heat abstractor (5), is located at On housing (1) end face (1a) and the end face (1b) relative with the end face (1a) between the heat abstractor (5) and circuit board (4) It is correspondingly arranged air vent (6).

2. a kind of thermal infrared imager as claimed in claim 1, it is characterised in that：Be arranged at detector (3) in housing (1) with it is described The deep bead (7) that surrounding is brought into close contact with housing (1) is set between circuit board (4), and the air vent is close to positioned at deep bead (7) The side of circuit board (4).

3. a kind of thermal infrared imager as claimed in claim 2, it is characterised in that：The deep bead (7) uses rigid plastics.

4. a kind of thermal infrared imager as claimed in claim 1, it is characterised in that：The side end face of detector (3) window and housing (1) heat conductive pad (8) and heat-conducting piece (9) are disposed between inner face, and the heat-conducting piece (9) extends to the shutter (2) outer face.

5. a kind of thermal infrared imager as claimed in claim 4, it is characterised in that：The heat conductive pad (8) is silica gel.

6. a kind of thermal infrared imager as claimed in claim 4, it is characterised in that：The heat-conducting piece (9) is metal.

7. a kind of thermal infrared imager as claimed in claim 6, it is characterised in that：The metal is aluminium alloy, magnesium alloy or copper alloy.