CN213485021U - Solar thermal imaging device with protection - Google Patents

Abstract

The utility model provides a solar thermal imaging device with a protection, a shell is provided with a solar panel, a high-protection shell part for protecting a lens window and a porous beam which is convenient for installing and adjusting a fastener; thus, the existing problems are solved.

Description

Solar thermal imaging device with protection

Technical Field

The utility model belongs to the control field relates to a solar thermal imaging device with protection.

Background

Along with the development of the technology, people pay more attention to the safety of the people and the society, so that more and more cameras are monitored and are applied to the fields of security protection and production, the cameras such as a thermal image monitoring solar power supply generally adopt independent solar panels, and in partial application fields, the problems of troublesome installation, influence of an installation angle on a solar energy effect, coverage of solar energy by ice and snow and the like exist.

For example, the solar camera installed on the power tower needs to be installed conveniently because the installation position of the power tower is as high as dozens of meters; the angle of the monitoring equipment and other influences cannot definitely determine the installation angle of the camera; the current solar panel is easily covered by ice and snow in severe weather, so that the power supply efficiency of the solar panel is also influenced after the solar panel is clear in the following days, and the equipment effectively solves the problem.

SUMMERY OF THE UTILITY MODEL

The utility model provides a overcome prior art not enough, provide a solar thermal image device of high protection.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the solar thermal image shooting device comprises a shell 10, a solar receiving module 11 and a thermal image shooting module 12, wherein the shell 10 comprises a main body

A housing 100, an optical window housing portion 101;

the main housing 100 is of a polyhedral structure, the thermal image shooting module 12 is assembled inside the main housing 100, the solar energy receiving modules 11 are arranged at the upper part and the left and right sides of the main housing 100, and the solar energy receiving modules 12 absorb solar energy to supply power to the thermal image shooting module 12;

the main shell 100 can be provided with a socket and a protective cover 104, and the matching part of the main shell 100 and the protective cover 104 is provided with a groove of a rubber sealing ring and a rubber ring for sealing; what is needed is

The protective cover can be fastened with the main shell 100 by a knob screw;

the optical window housing portion 101, which may be configured with a germanium window material;

the optical window housing part 101 is connected with the main housing 100 through screws, and the matching part of the main housing 100 and the optical window housing part 101 is provided with a groove of a rubber sealing ring which can be configured for sealing

A sealed rubber ring;

the lower part of the main housing 10 may be provided with a multi-hole beam 105 for flexible mounting and adjustment of the fasteners.

To sum up, the utility model discloses a solar energy supplies power to battery module, and the energy is high-efficient clean, and is pollution-free, accords with the environmental protection requirement, and after the electric power tower used the solar energy power supply, and solar energy camera simple to operate reduced simultaneously because of the outage loss cost such as that traditional power supply mode caused to adopt multiple mounting means, reduce because of the solar energy absorption efficiency that ice and snow covers the scheduling problem influence, improved power supply efficiency.

Drawings

FIG. 1 is a schematic view of the apparatus of example 1.

Fig. 2 is a schematic view of the device case of embodiment 1.

Fig. 3 is a schematic rear view of the thermal image housing in embodiment 1.

Detailed Description

In order to make the technical field personnel understand the utility model discloses the scheme, will combine the drawing in the embodiment of the utility model below, to the technical scheme in the embodiment of the utility model carries out clear, complete description.

All directional indicators (such as upper, lower, left, right, front, rear, horizontal, vertical … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, if the specific posture changes, the directional indicator changes accordingly.

The solar thermal imaging device is provided with a thermal imaging sensor, and in addition, the solar thermal imaging device is provided with one or more of a wireless communication module, a positioning module, a voice module, a light module, other optical shooting modules, a temperature module, a humidity module, a wind speed module, an inclination module, a temperature control module, a startup and shutdown module, a wind energy module, a timing shooting module, a battery electric quantity measuring module and an alarm module, wherein one or more of the wireless communication module, the positioning module, the voice module, the light module and the other optical shooting modules are; various optical sensors may also be provided, such as ultraviolet imaging, gas imaging, visible light sensors, etc.; the utility model discloses also can be deformed into, only have thermal imaging, ultraviolet formation of image, gaseous formation of image, visible light sensor etc. one or more's combination wherein.

Example 1:

as shown in fig. 1 to 3, a high-protection solar thermal imaging device comprises a housing 10, a solar receiving module 11 and a thermal image shooting module 12, wherein the housing 10 is of a polyhedral structure, and the housing 10 comprises an optical window housing part 101 and a main housing 100;

as shown in fig. 2, the main housing 100 is a polyhedron structure, the thermal image capturing module 12 is assembled inside the housing 10, the solar energy receiving module 11 is disposed on the outer surface of the main housing 100, and the solar energy receiving module 12 absorbs solar energy to supply power to the thermal image capturing module;

in this example, the solar receiving modules 11 can be disposed on the upper side of the outer surface of the casing 10, on the left and right sides of the outer surface of the casing 3 planes, and the solar receiving modules 11 are located in the direction of receiving different sunshine, so that the solar receiving capability of the equipment is avoided when the sun faces different, and the solar receiving efficiency of the equipment is improved. In addition, in the ice and snow weather or the heavily polluted flying dust, the influence of the ice and snow or the dust accumulated on the upper part on the solar energy receiving module is avoided, and the solar energy receiving efficiency of the device is improved, and of course, in other embodiments, the number of the planes is more than or less than 3. The solar receiving module 11 may be a solar panel.

As shown in fig. 2, the optical window housing portion 101 is connected to the main housing 100 by one of the methods of screw, bolt, and thread connection, and the mating portion of the main housing 100 and the optical window housing portion 101 and/or the interface housing portion 102 is configured with a groove of a rubber sealing ring, and a rubber ring for sealing can be configured;

the optical window housing portion 101 may be configured with a germanium window material to pass infrared light;

the thermal image shooting module 12 comprises an infrared optical lens, a thermal image detector and a processing circuit, the solar energy receiving module 11 supplies power to the thermal image shooting module, monitoring is carried out through the thermal image detector and the infrared optical lens, and the working principle can refer to the existing thermal image shooting device.

As shown in fig. 3, the lower part of the main housing 10 may be provided with multi-hole beams 105 for flexible installation and adjustment of fasteners for connecting the device to a tower or the like.

In addition, in the above embodiments, the solar energy receiving module may be provided as a solar panel, a solar film, or the like that receives sunlight. The solar receiving module is disposed on the casing 10, the casing 10 can be used as a substrate of the solar receiving module, and besides, a heat insulation or heat dissipation layer can be disposed therebetween.

In other examples, the housing 10 may be provided with a solar receiving module, for example, a shield housing may be provided for protection, and the solar receiving module 11 may be provided on the shield housing to absorb solar energy, and the shield housing serves as a substrate of the solar receiving module 11.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Claims (3)

1. The utility model provides a solar thermal imaging device with protection which characterized in that:

the solar thermal image shooting device comprises a shell (10), a solar receiving module (11) and a thermal image shooting module (12), wherein the shell (10) comprises a main shell (100) and an optical window shell part (101);

the main shell (100) is of a square structure, the thermal image shooting modules (12) are assembled inside the main shell (100), the solar receiving modules (11) are arranged on the upper portion and the left and right sides of the main shell (100), and the solar receiving modules (11) absorb solar energy and supply power to the thermal image shooting modules (12);

the main shell (100) can be provided with a socket and a protective cover (104), the matching part of the main shell (100) and the protective cover (104) is provided with a groove of a rubber sealing ring, and the rubber sealing ring can be provided for sealing; the protective cover can be fastened with the main shell (100) by screws;

the optical window housing part (101) being configurable with a window material;

the optical window shell part (101) is connected with the main shell (100) through screws, and the matching part of the main shell (100) and the optical window shell part (101) is provided with a groove of a rubber sealing ring and a rubber ring for sealing;

the lower part of the main housing (100) may be provided with a multi-hole beam (105) for mounting and adjusting fasteners.

2. The solar thermal imaging apparatus with a shield of claim 1, wherein: the thermal image shooting module (12) comprises an infrared optical lens, a thermal image detector and a processing circuit.

3. The solar thermal imaging apparatus with a shield of claim 1, wherein: the shell (10) is internally provided with a battery module and a charging and discharging control module.

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