CN213876274U - Remote camera device based on high-efficient heat dissipation defogging structure - Google Patents

Abstract

The utility model provides a remote camera device based on high-efficient heat dissipation defogging structure, which comprises an outer shell, set up camera and heat abstractor in the shell, the inside cavity of shell, the front portion is provided with window glass, the camera includes the camera lens, the main part of making a video recording that links to each other with the camera lens, heat abstractor includes the gas holder, set up in inside radiator unit and the air duct of gas holder, the gas holder is close to camera one side and is provided with the baffle, air duct one end links to each other with radiator unit, the other end passes the baffle and sets up in window glass outside upper portion, the camera lens sets up in window glass inboard. The utility model discloses the steam that usable system produced weathers the water smoke on the window glass and the dust foreign matter that adheres, guarantees to make a video recording the picture respond well, has realized in high-efficient radiating, guarantees the technical effect that the window is clean, the image quality is clear, has advantages such as practicality height, durability are strong.

Description

Remote camera device based on high-efficient heat dissipation defogging structure

Technical Field

The utility model relates to a security protection supervisory equipment field especially indicates a remote camera device based on high-efficient heat dissipation defogging structure.

Background

In recent years, security surveillance cameras are widely used in security systems. The camera needs in time to dispel the heat in order to guarantee that its operation is reliable at the operation in-process, and traditional camera heat radiation structure sets up in the camera rear end, gives the inside quick heat dissipation cooling of camera through radiator fan, nevertheless, easily makes and carries a large amount of dusts in the air current when radiator fan operates, and the dust is piled up in the fan surface under the electrostatic action in a large number, makes radiator fan exhaust effect weaken, life shortens. Meanwhile, most security cameras are arranged outdoors, and outdoor weather is prone to generate adverse effects on the stability of the cameras, such as the fact that camera lenses are prone to being polluted by dust, water mist and the like, so that the image quality of the cameras is poor, the cameras are unstable in shooting, and the security effect is poor. Therefore, a device capable of clearing dust on a lens while efficiently dissipating heat is needed to solve the problems of imaging blur, short service life, high potential safety hazard and the like of the traditional security camera.

SUMMERY OF THE UTILITY MODEL

The utility model discloses in adopt a remote camera device based on high-efficient heat dissipation defogging structure, when the air humidity is great, the steam that usable system produced weathers the water smoke on the window glass and the dust foreign matter that adheres, guarantees that the picture of making a video recording is respond well. The technical effects of cleanness of the window and clear image quality are guaranteed while high-efficiency heat dissipation is realized, the problems that a monitoring camera device in the prior art is difficult to dissipate heat, short in service life and prone to pollution of window glass are solved, and the monitoring camera device has the advantages of high practicability, strong durability and the like.

The technical scheme of the utility model is realized like this: the utility model provides a remote camera device based on high-efficient heat dissipation defogging structure, include the shell, set up in camera and heat abstractor in the shell, the inside cavity of shell, the front portion is provided with window glass, the camera includes the camera lens, the main part of making a video recording that links to each other with the camera lens, heat abstractor include the gas holder, set up in the inside radiator unit of gas holder, one end pass the air duct of gas holder, the gas holder is close to camera one side and is provided with the baffle, the camera lens sets up in window glass inboard.

Preferably, a resistance wire coil, an exhaust fan and a single chip microcomputer are sequentially arranged in the gas storage box, the single chip microcomputer is electrically connected with the resistance wire coil, and the camera is electrically connected with the single chip microcomputer.

Preferably, one end of the air duct is an open end, the other end of the air duct is a closed end, the open end penetrates through the gas storage box and is arranged in the gas storage box and right faces the resistance wire coil, a blowing port is arranged on the air duct close to the closed end, and the blowing port is arranged on the upper portion of the outer side of the window glass.

Preferably, the gas-guide tube is made of a heat-insulating material.

Preferably, the partition plate is made of a graphene heat-conducting film, and a dust screen is arranged on the partition plate.

Preferably, the housing is made of a lightweight material resistant to high temperatures and static electricity.

Preferably, the exhaust fan, the resistance wire coil and the camera are powered by an external power supply.

Preferably, the camera can intelligently analyze the shot picture, the imaging quality in normal weather is set as a set value, if the imaging quality of the picture is smaller than the set value, the window glass is judged to have water mist or dust, the single chip microcomputer controls the resistance wire coil to work, the discharged gas is heated, and the water mist and the dust are dried.

The utility model discloses the technological effect who reaches:

(1) the utility model can replace a windshield wiper, and blow heat generated in the equipment to the outside of the window glass through the exhaust fan and the air duct, thereby realizing the technical effect of removing water mist or dust on the surface of the window glass while realizing quick heat dissipation;

(2) the resistance wire coil can heat the blown gas, and the technical effect of quickly evaporating the water mist to dryness is achieved.

Drawings

Fig. 1 is the utility model discloses in a remote camera device schematic diagram based on high-efficient heat dissipation defogging structure.

Fig. 2 is a schematic view of the heat dissipation device of the present invention.

Wherein, 1, a shell; 11. a window glass; 2. a camera; 21. a lens; 22. a camera body; 3. a heat sink; 31. a gas storage box; 32. a heat dissipating component; 33. an air duct; 321. a resistance wire coil; 322. an exhaust fan; 323. a single chip microcomputer; 331. an open end; 332. a closed end; 30. an exhaust port; 43. a partition plate; 44. a dust screen.

Detailed Description

In order to deepen the utility model discloses an it is right to combine example and drawing below the utility model discloses a remote camera device based on high-efficient heat dissipation defogging structure does further detailed description, and this embodiment only is used for explaining the utility model discloses, do not constitute the restriction to the scope of protection of the utility model.

As shown in fig. 1-2, a remote camera device based on high-efficient heat dissipation defogging structure, including shell 1, set up camera 2 and heat abstractor 3 in shell 1, the inside cavity of shell 1, the front portion is provided with window glass 11, camera 2 includes camera lens 21, the main part 22 of making a video recording that links to each other with the camera lens, heat abstractor 3 includes gas holder 31, set up in the inside radiator unit 32 of gas holder 31, the air duct 33 that gas holder 31 was passed to one end, gas holder 31 is close to camera 2 one side and is provided with baffle 43, camera lens 21 sets up inboard in window glass 11.

The heat dissipation assembly 32 comprises a resistance wire coil 321, an exhaust fan 322 and a single chip microcomputer 323, the single chip microcomputer 323 is electrically connected with the resistance wire coil 321, and the camera 2 is electrically connected with the single chip microcomputer 323.

One end of the air duct 33 is an open end 331, the other end is a closed end 332, the open end 331 penetrates through the air storage box 31 and is arranged in the air storage box 31 and right opposite to the resistance wire coil 321, the air duct 33 is provided with an air blowing port 30 close to the closed end 332, and the air blowing port 30 is arranged at the upper part of the outer side of the window glass 11.

The gas guide tube 33 is made of a heat insulating material. The partition 43 is made of a graphene heat-conducting film, and a dust screen 44 is disposed on the partition 43. The housing 1 is made of a light material resistant to high temperature and static electricity. The exhaust fan 322, the resistance wire coil 321 and the camera 2 are powered by an external power supply.

The use specification, the heat that camera 2 produced leads to in the gas storage box 31 through the baffle, exhaust fan 322 blows hot air to in the pipe 33, hot air blows to window glass 11 surface via blowing mouth 30, blow water smoke and dust clean, simultaneously, camera 2 can carry out intelligent analysis to the picture of shooing, set up imaging quality under the normal weather as the setting value, if image imaging quality is less than the setting value, then judge that window glass 11 has water smoke or dust, for accelerating the cleaning efficiency, then singlechip 323 control resistance wire coil 321 works, heat the gas of institute's combustion gas, weather water smoke and dust.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a remote camera device based on high-efficient heat dissipation defogging structure, its characterized in that, including the shell, set up in camera and heat abstractor in the shell, the inside cavity of shell, the front portion is provided with window glass, the camera includes the camera lens, the main part of making a video recording that links to each other with the camera lens, heat abstractor include the gas holder, set up in inside radiator unit, the one end of gas holder pass the air duct of gas holder, the gas holder is close to camera machine one side and is provided with the baffle, the camera lens sets up in window glass inboard.

2. The remote camera device based on the efficient heat dissipation and defogging structure is characterized in that a resistance wire coil, an exhaust fan and a single chip microcomputer are sequentially arranged in the air storage box, the single chip microcomputer is electrically connected with the resistance wire coil, and the camera is electrically connected with the single chip microcomputer.

3. The remote camera device based on the efficient heat dissipation and defogging structure is characterized in that one end of the air duct is an open end, the other end of the air duct is a closed end, the open end penetrates through the air storage box and is arranged in the air storage box and right faces the resistance wire coil, an air blowing opening is formed in the air duct close to the closed end, and the air blowing opening is formed in the upper portion of the outer side of the window glass.

4. The remote camera device based on the high-efficiency heat-dissipation defogging structure recited in claim 1, wherein said airway tube is made of a heat insulating material.

5. The remote camera device based on the high-efficiency heat dissipation defogging structure is characterized in that the partition board is made of a graphene heat conducting film, and a dustproof net is arranged on the partition board.

6. The device as claimed in claim 1, wherein the housing is made of a lightweight material that is resistant to high temperature and static electricity.

7. The remote camera device based on the efficient heat dissipation and defogging structure recited in claim 2, wherein said exhaust fan, said resistance wire coil, said camera are powered by an external power source.

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