CN217878033U - Thermal imager with heat dissipation function - Google Patents

Abstract

The utility model provides a thermal imager with heat dissipation function, include: the thermal imager comprises a thermal imager main body, a plurality of heat discharge pipes arranged on the thermal imager main body, a plurality of inclined notches arranged on the heat discharge pipes, a plurality of inclined blocks arranged on the heat discharge pipes and a plurality of sealing plate parts hinged on the inclined blocks; a plurality of the closing plate portion can seal a plurality of the scarf, compare with prior art, through a plurality of heat pipes as the radiating track of thermal-imaging appearance main part air exhaust, a plurality of closing plate portions are to a plurality of heat pipes slope shutoff under the effect of a plurality of scarf, when a plurality of heat pipes begin to ventilate the heat extraction, a plurality of closing plate portions are convenient for the atress rotation and are opened a plurality of heat pipes, when a plurality of heat pipes stop ventilation heat extraction, a plurality of automatic closed heat pipes of closing of a plurality of closing plate portions make the dust can not stop at thermal-imaging appearance main part heat dissipation work and get into inside it, let the heat dissipation work of thermal-imaging appearance main part obtain good guarantee and the high quality goes on.

Description

Thermal imager with heat dissipation function

Technical Field

The utility model relates to a thermal imaging system technical field particularly, relates to a thermal imaging system with heat dissipation function.

Background

Thermal imagers, which are mainly used in research and development or industrial inspection and equipment maintenance, are also widely used in fire prevention, night vision and security, and in popular terms thermal imagers convert invisible infrared energy emitted by an object into visible thermal images, and the different colors on the thermal images represent the different temperatures of the object to be measured.

Be equipped with radiator fan or fin for the heat dissipation function on the thermal imaging system, let the heat that produces in the equipment work distribute through the hole on the casing, however, the hole lets the dust enter into inside the machine easily to let the thermal imaging system use with the production harmful effects of heat dissipation work.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a thermal imaging system with heat dissipation function to solve above-mentioned problem.

In order to achieve the above object, an embodiment of the present invention provides a thermal imaging system with heat dissipation function, including: the thermal imager comprises a thermal imager main body, a plurality of heat discharge pipes arranged on the thermal imager main body, a plurality of inclined notches arranged on the heat discharge pipes, a plurality of inclined blocks arranged on the heat discharge pipes and a plurality of sealing plate parts hinged on the inclined blocks; the sealing plate parts can seal the inclined cuts; when the heat discharge pipes discharge heat and ventilate, hot air flow can blow the sealing plate parts to rotate, so that the sealing plate parts are separated from the inclined notches.

Furthermore, the sealing plate part comprises a movable block hinged on the inclined block, two groups of shielding plates hinged on the movable block and two semi-ring bodies arranged on the two groups of shielding plates; the two half-ring bodies can be combined into a circular ring, wherein; when the heat discharge pipes discharge heat and ventilate, hot air flow can blow the two semi-ring bodies to rotate oppositely and separately, so that the two groups of shielding plates rotate oppositely and separately.

Furthermore, the sealing plate part also comprises a plurality of side holes arranged on the two half ring bodies; the side holes are in a circular truncated cone shape, wherein; when the hot air flow can blow the two semi-ring bodies to oppositely separate and rotate, the side holes can exhaust.

Furthermore, images of one end face of each of the two groups of shielding plates are set to be inclined planes.

Further, the thermal imaging system with the heat dissipation function further comprises a shock absorption part; the damping part comprises a plurality of circular grooves arranged on the shielding plate, a plurality of springs arranged in the circular grooves and a plurality of circular plates arranged at one ends of the springs, wherein the circular grooves are formed in the shielding plate; the plurality of circular plates can abut against the heat discharge pipe so as to compress the plurality of springs.

Further, the outer diameter of the oblique cut is smaller than the inner diameter of the half ring body.

Compared with the prior art, the embodiment of the utility model provides a following beneficial effect has:

compared with the prior art, through the radiating track of airing exhaust of a plurality of heat extraction pipes as thermal imager main part, a plurality of shrouding portions are to a plurality of heat extraction pipe slope shutoff under the effect of a plurality of scarf, when a plurality of heat extraction pipes begin to ventilate the heat extraction, a plurality of shrouding portions are convenient for the atress rotation and are opened a plurality of heat extraction pipes, when a plurality of heat extraction pipes stop the ventilation heat extraction, a plurality of automatic closed heat extraction pipes of a plurality of shrouding portions, make the dust can not get into inside after thermal imager main part heat dissipation work stops, let the heat dissipation work of thermal imager main part obtain good guarantee and the high quality goes on.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 shows an external side view of the present invention;

fig. 2 shows an enlarged view of fig. 1 a of the present invention;

FIG. 3 shows the baffle of the present invention looking forward inside;

FIG. 4 shows a schematic view of a spring-connected circular plate of the present invention;

figure 5 shows a side cross-sectional view of the baffle plate connecting half-ring body of the present invention.

In the drawings

1. A thermal imager main body;

2. a heat exhaust pipe;

4. a sloping block;

5. a cover plate portion; 51. a movable block; 52. a shielding plate; 53. a half-ring body; 54. a side hole;

6. a shock absorbing part; 61. a circular groove; 62. a spring; 63. a circular plate.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

Referring to fig. 1, fig. 1 shows an external side view of the present invention; referring to fig. 2, fig. 2 shows an enlarged view of a point a in fig. 1 according to the present invention; referring to fig. 3, fig. 3 shows the front view of the interior of the baffle plate of the present invention; referring to fig. 4, fig. 4 is a schematic view of a spring connecting circular plate according to the present invention; referring to fig. 5, fig. 5 is a side sectional view of the baffle plate connecting half-ring body of the present invention; as shown in fig. 1 to 5, a thermal imaging camera with a heat dissipation function includes: the thermal imager comprises a thermal imager main body 1, a plurality of heat pipes 2 arranged on the thermal imager main body 1, a heat dissipation fan arranged in the thermal imager main body 1 and used for conducting heat through air outlet of the heat pipes 2, a plurality of inclined notches arranged on the heat pipes 2, a plurality of inclined blocks 4 arranged on the heat pipes 2 and a plurality of sealing plate parts 5 hinged to the inclined blocks 4; a plurality of said flap portions 5 capable of closing a plurality of said oblique cuts therein; a plurality of when 2 heat extraction of heat extraction pipes ventilate, the hot gas flow can blow a plurality of 5 rotations of sealing plate portion make a plurality of 5 break away from a plurality of the scarf, concrete, among the prior art, the louvre of thermal imager main part 1 is single form, can not open and close according to its heat dissipation condition in a flexible way, let the heat dissipation function of thermal imager main part 1 have the risk of being hindered by the dust of accumulation, compare with the prior art, through a plurality of heat extraction pipes 2 as the radiating track of thermal imager main part 1 air exhaust, a plurality of sealing plate portions 5 incline the shutoff to a plurality of heat extraction pipes 2 under the effect of a plurality of scarf, when a plurality of heat extraction pipes 2 begin to ventilate the heat extraction, a plurality of sealing plate portions 5 are convenient for the atress rotation and open a plurality of heat extraction pipes 2, when a plurality of heat extraction pipes 2 stop ventilating the heat extraction, a plurality of sealing plate portions 5 automize closed a plurality of heat extraction pipes 2, make the dust can not get into inside after the heat extraction work stops in thermal imager main part 1, let the heat extraction work of thermal imager main part 1 obtain good guarantee and high quality goes on.

Optionally, the sealing plate portion 5 includes a movable block 51 hinged to the inclined block 4, two groups of shielding plates 52 hinged to the movable block 51, and two half-ring bodies 53 disposed on the two groups of shielding plates 52; the two half-rings 53 can be combined to form a circular ring, wherein;

a plurality of when heat extraction of heat extraction pipe 2 was ventilated, the hot gas flow can blow two semicircles 53 opposite direction separation rotations, so that two sets of the shielding plate 52 opposite direction separation rotation, specifically, when two sets of shielding plate 52 received from heat extraction pipe 2 exhaust effect wind-force, can lead partial effort to two semicircles 53, and two semicircles 53 received the effort and let two sets of shielding plate 52 opposite direction separation and expose the heat dissipation clearance, increased thermal volume of giving off and the direction of giving off in the thermal imager main part 1, improved the efficiency of heat dissipation work.

Optionally, the cover plate portion 5 further includes a plurality of side holes 54 disposed on the two half-rings 53; the side holes 54 are in the shape of circular truncated cones, wherein; when the hot gas flow can blow two semi-rings 53 opposite separation rotations, it is a plurality of the side opening 54 can exhaust, it is specific, the one end aperture that a plurality of side openings 54 are close to shielding plate 52 is greater than the one end aperture of keeping away from baffle 52, can pressurize the reposition of redundant personnel heat dissipation through a plurality of side openings 54 when letting partial effort direction to two semi-rings 53, the speed of heat dissipation work has been improved, a plurality of side openings 54 distribute along the circumference orbit of semi-rings 53, let the position after the heat discharges through a plurality of side openings 54 not be in one, avoid thermal secondary to assemble.

Optionally, images of one end surfaces of the two groups of shielding plates 52 are set to be inclined surfaces, specifically, the inclined surfaces increase the stress angles and areas of the two groups of shielding plates 52, so that the stress movement process of the two groups of shielding plates 52 is smoother.

Optionally, the thermal imaging system with a heat dissipation function further includes a damping portion 6; the damping part 6 comprises a plurality of circular grooves 61 arranged on the shielding plate 52, a plurality of springs 62 arranged in the plurality of circular grooves 61 and a plurality of circular plates 63 arranged at one ends of the plurality of springs 62, wherein; it is a plurality of circular slab 63 can contradict arrange heat pipe 2, so that it is a plurality of spring 62 compression, it is specific, a plurality of circular slots 61 are used for holding a plurality of springs 62 and a plurality of circular slab 63, the external diameter of a plurality of circular slab 63 is less than the internal diameter of a plurality of circular slots 61, spring 62's compression state is produced by the action of shielding plate 52 conflict closed scarf, let shielding plate 52's closing speed and range slow down, the life-span in the long-time use of shielding plate 52 has been protected, it is impaired to avoid its collision, when shielding plate 52 breaks away from the scarf, a plurality of circular slab 63 are discharged from a plurality of circular slots 61 under a plurality of spring 62's elastic reaction force, be favorable to the repeated recycling work of a plurality of circular slab 63.

Optionally, the outer diameter of the oblique cut is smaller than the inner diameter of the half-ring body 53, and specifically, the half-ring body 53 is not in contact with the oblique cut in the moving process, so that the moving process of the half-ring body 53 is not blocked.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A thermal imager with heat dissipation function, comprising: the thermal imager comprises a thermal imager main body (1), a plurality of heat discharge pipes (2) arranged on the thermal imager main body (1), a plurality of inclined notches arranged on the plurality of heat discharge pipes (2), a plurality of inclined blocks (4) arranged on the plurality of heat discharge pipes (2) and a plurality of sealing plate parts (5) hinged on the plurality of inclined blocks (4);

a plurality of the cover plate parts (5) can close a plurality of the inclined cuts, wherein;

when the heat discharge pipes (2) discharge heat and ventilate, hot air flow can blow the sealing plate parts (5) to rotate, so that the sealing plate parts (5) are separated from the inclined notches.

2. The thermal imaging system with heat dissipation function of claim 1,

the sealing plate part (5) comprises a movable block (51) hinged on the inclined block (4), two groups of shielding plates (52) hinged on the movable block (51) and two semi-ring bodies (53) arranged on the two groups of shielding plates (52);

the two half-rings (53) can be combined into a circular ring, wherein;

when the heat discharging pipes (2) discharge heat and ventilate, hot air flow can blow the two half-ring bodies (53) to oppositely and separately rotate, so that the two groups of shielding plates (52) oppositely and separately rotate.

3. A thermal imaging system with heat dissipation function according to claim 2,

the sealing plate part (5) also comprises a plurality of side holes (54) arranged on the two semi-ring bodies (53);

the side holes (54) are in the shape of round tables, wherein;

when the hot air flow can blow the two half-rings (53) to oppositely and separately rotate, the side holes (54) can exhaust.

4. A thermal imaging system with heat dissipation function as claimed in claim 3,

one end surface images of the two groups of shielding plates (52) are set to be inclined planes.

5. A thermal imaging system with heat dissipation function according to claim 4,

the thermal imaging camera with the heat dissipation function further comprises a damping part (6);

the damping part (6) comprises a plurality of circular grooves (61) arranged on the shielding plate (52), a plurality of springs (62) arranged in the circular grooves (61) and a plurality of circular plates (63) arranged at one ends of the springs (62), wherein the damping part is provided with a plurality of circular grooves (61);

the plurality of circular plates (63) can abut against the heat discharge pipe (2) so that the plurality of springs (62) are compressed.

6. A thermal imaging system with heat dissipation function according to claim 5,

the outer diameter of the oblique notch is smaller than the inner diameter of the semi-ring body (53).

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