CN207717233U - Infrared thermal imaging cartridge assemblies with shock-damping structure - Google Patents

Abstract

The utility model discloses a kind of infrared thermal imaging cartridge assemblies with shock-damping structure comprising the shell of infrared thermal imaging cartridge assemblies, the shock absorber part being connected with shell, and it is coated on detector circuit plate in the shell；The shock absorber part is symmetrically set in the opposite both sides of the shell, including main part and interconnecting piece, and the main part is hollow structure, including opposite upper surface and lower face, the interconnecting piece are extended to form from the lower end towards housing direction.The infrared thermal imaging cartridge assemblies of the utility model have easy to assembly, and thermal conductivity is good, and with the ability of stronger anti-external mechanical impact.

Description

Infrared thermal imaging cartridge assemblies with shock-damping structure

Technical field

The utility model is related to imaging product technical fields, more particularly, to a kind of infrared thermal imaging with shock-damping structure Cartridge assemblies.

Background technology

Infrared thermal imaging cartridge assemblies are the core components of infrared thermography, mainly receive measured target by detector Infra-red radiation, infrared energy is converted into electric signal, is handled through system and generates gradation data, finally with initial data, number Word or analog video signal mode export, or internal directly processing is converted into temperature data output.For military and paramilitary Or the infrared thermal imaging product of the purposes such as some special dimensions, especially rifle are taken aim at, big gun is taken aim at, airborne, vehicle-mounted, boat-carrying, for machine Vibration resistance, temperature working range, the anti-electromagnetic interference capability of device have certain requirement.

The detector circuit plate of existing cartridge assemblies is fixed using aluminium alloy fixed frame, and subsequent circuit board is by copper Stud is fixed, due between each layer circuit board copper stud be threadedly coupled, for impact force it is larger and/or for a long time vibration ring Border its be easy it is loosely organized.And the electronic component of each layer circuit board is naked state, and it can not be to electromagnetism interference；Simultaneously Also without reliable heat-conducting mechanism so that heat build-up in complete machine influences the stability of movement hot operation, even results in detection Device fails.Especially in the case that cartridge assemblies are by greater impact power, the circuit board in movement is easily destroyed.

Utility model content

The purpose of the utility model is to overcome the defect of the prior art, provide a kind of infrared heat with shock-damping structure at Camera core assembly, ability and heat conductivility with stronger anti-external mechanical impact force.

To achieve the above object, the utility model proposes following technical solutions：A kind of infrared thermal imagery with shock-damping structure Cartridge assemblies include the shell of infrared thermal imagery cartridge assemblies, the shock absorber part being connected with shell, and are coated in the shell Detector circuit plate；The shock absorber part is extended outward to form from the shell, including main part and interconnecting piece, and the main part is Hollow structure, including opposite upper surface and lower face, the interconnecting piece extend shape from the lower end towards the housing direction At.

Preferably, it is formed with positioning column on the upper surface of the shock absorber part.

Preferably, the location hole positioned for infrared thermal imagery cartridge assemblies is formed in the positioning column.

Preferably, the shock absorber part has inner face, and gap is formed between the inner face and the shell.

Preferably, the shell is clad type structure, is internally provided with the heat-conducting piece for detector circuit plate heat conduction.

Preferably, the heat-conducting piece is the graphite flake being disposed in the housing.

Preferably, the shock absorber part is symmetrically disposed on the opposite both sides of shell.

The utility model has the beneficial effects that：

1) structural strength is high, the requirement of anti-vibration and impact under Special use environment can be perfectly suitable for, as rifle is taken aim at, big gun The applications such as take aim at, be airborne, is vehicle-mounted；

2) internal heat conduction is fast, and convenient reliable heat transfer mechanism is provided for detector circuit plate；

3) the detector circuit plate for protecting cartridge assemblies, has anti-mechanical damage and certain moistureproof and waterproof effect.

4) anti-external mechanical lesion capability is strong.

Description of the drawings

Fig. 1 is the front view for the infrared thermal imaging cartridge assemblies that the utility model has shock-damping structure；

Fig. 2 be in Fig. 1 A-A to sectional view；

Fig. 3 is the schematic rear view of the utility model；

Fig. 4 a- Fig. 4 d are to restore normal schematic diagram after the utility model receives the deformation pattern after foreign impacts and deformation.

Specific implementation mode

Below in conjunction with the attached drawing of the utility model, the technical solution of the utility model embodiment is carried out clear, complete Description.

As shown in Figure 1 to Figure 3, a kind of infrared thermal imaging cartridge assemblies with shock-damping structure that the utility model discloses, It includes cartridge assemblies shell 1, with the integrally formed shock absorber part 2 of shell, the detector being coated in the cartridge assemblies shell Circuit board (not shown), and for the radiating piece to detector circuit plate heat conduction, such as graphite flake (not shown).It is described to subtract Shake part 2 is symmetrically disposed on outside the opposite two sides of shell 1, and is integrally extended from shell.

Specifically, in the present embodiment, shown shell 1 is clad structure in a rectangular parallelepiped shape, is integrally machined by copper product It forms.The shock absorber part 2 is extended outward to form from the opposite two sides of shell 1, including main part 3 and interconnecting piece 4, the main body Portion 3 is hollow structure, has upper surface 31 and the lower face 32 opposite with upper surface, and be formed in upper surface 31 and lower end The outer end face 33 and inner face 34 of the side direction in face 32, the upper surface 31, which raises up, is formed with positioning column 5, the positioning column Mounting hole 6 is formed in 5, which is used to for the infrared thermal imaging cartridge assemblies to be fixed on the mechanism using the component On, such as infrared night vision rifle is taken aim at, infrared telescope, infrared on-vehicle night vision auxiliary system.

The interconnecting piece 4 of the shock absorber part 2 extends to form flexible extension from the lower face 32 in terms of shell Arm so that shell 1 is connected with shock absorber part 2 close to the side of the lower face 32 of shock absorber part 2, and the inner face 33 of shock absorber part 2 Certain gap is formed between the surface adjacent with shell 1, which occurs flexible deformation for shock absorber part and carry under external force Certain locational space is supplied.So design so that when infrared thermal imaging cartridge assemblies are by direction as illustrated by the arrow shown in fig. 4a Foreign impacts power and when shaking, since infrared thermal imaging cartridge assemblies are to fix to connect by the mounting hole 6 on shock absorber part 2 It is connected in the mechanism using the component, therefore, as shown in Fig. 4 b, 4c, the elastic joint part 4 of shock absorber part 2 is due to by outer masterpiece With and flexible deformation occurs so that the whole Bending Deformation occurred to a direction or another direction of shock absorber part 2, to be red Circuit board inside the shell 1 of outer thermal imaging cartridge assemblies, especially shell 1 provides certain cushion effect and forms protection, After external force disappears, shock absorber part 2 restores normal condition, as shown in figure 4d.To protect cartridge assemblies circuit board by thump It is damaged caused by possibility when power.

The technology contents and technical characteristic of the utility model of the utility model have revealed that as above, however are familiar with this field Technical staff be still potentially based on the utility model teaching and announcement and make various replacements without departing substantially from the spirit of the present invention and Modification, therefore, scope of protection of the utility model should be not limited to the revealed content of embodiment, and should include various without departing substantially from this reality With novel replacement and modification, and covered by present patent application claim.

Claims (7)

1. a kind of infrared thermal imaging cartridge assemblies with shock-damping structure, which is characterized in that including infrared thermal imaging cartridge assemblies Shell, the shock absorber part being connected with shell, and be coated on detector circuit plate in the shell；The shock absorber part is described in Shell extends outward to form, including main part and interconnecting piece, and the main part is hollow structure, including opposite upper surface is under End face, the interconnecting piece are extended to form from the lower end towards the housing direction.

2. the infrared thermal imaging cartridge assemblies according to claim 1 with shock-damping structure, which is characterized in that the damping It is formed with positioning column on the upper surface of part.

3. the infrared thermal imaging cartridge assemblies according to claim 2 with shock-damping structure, which is characterized in that the positioning The location hole positioned for infrared thermal imaging cartridge assemblies is formed in column.

4. the infrared thermal imaging cartridge assemblies according to claim 1 with shock-damping structure, which is characterized in that the damping Part has inner face, and gap is formed between the inner face and the shell.

5. the infrared thermal imaging cartridge assemblies according to claim 1 with shock-damping structure, which is characterized in that the shell For clad type structure, it is internally provided with the heat-conducting piece for detector circuit plate heat conduction.

6. the infrared thermal imaging cartridge assemblies according to claim 5 with shock-damping structure, which is characterized in that the heat conduction Part is the graphite flake being disposed in the housing.

7. the infrared thermal imaging cartridge assemblies according to claim 1 with shock-damping structure, which is characterized in that the damping Part is symmetrically disposed on the opposite both sides of shell.