CN112504476A

CN112504476A - Thermal infrared imager capable of being charged by solar energy

Info

Publication number: CN112504476A
Application number: CN202011264866.5A
Authority: CN
Inventors: 顾娟
Original assignee: Wenzhou Youdai Electromechanical Technology Co ltd
Current assignee: TAIZHOU HUILIN SMART ENERGY TECHNOLOGY Co.,Ltd.
Priority date: 2020-11-12
Filing date: 2020-11-12
Publication date: 2021-03-16
Anticipated expiration: 2040-11-12
Also published as: CN112504476B

Abstract

The invention discloses an infrared thermal imager capable of being charged by solar energy, which belongs to the technical field of infrared thermal imagers and comprises a thermal imager main body, a handle, a clamping sleeve, a protective shell, a photovoltaic module, a clamping module and a protective cleaning pad, wherein a connecting piece is fixedly arranged at the bottom of the thermal imager main body; according to the invention, the infrared camera is designed to be foldable, when the infrared camera is not required to be used, the infrared camera can be directly folded, meanwhile, the holding sleeve is provided with the clamping sleeve, the side clamping plate capable of stretching is arranged in the clamping sleeve, after the infrared camera is folded, the side clamping plate can be used for effectively clamping and fixing the thermal imager main body, the stability of the folded thermal imager is maintained, meanwhile, the clamping sleeve is provided with the rotary groove, the rotary groove is internally provided with the protective shell, after the infrared camera is folded, the protective shell can effectively and simultaneously generate a protection effect on the detection head, the damage to the detection head when the infrared camera is not used is avoided, and the infrared camera has good protectiveness while being folded.

Description

Thermal infrared imager capable of being charged by solar energy

Technical Field

The invention belongs to the technical field of thermal infrared imagers, and particularly relates to a thermal infrared imager capable of being charged by solar energy.

Background

Infrared is an electromagnetic wave having the same nature as radio waves and visible light. The discovery of infrared is a leap of human beings on natural understanding, and there are many devices based on infrared, and a technology of converting the temperature distribution of the surface of an object into an image visible to the human eye by using a special electronic device and displaying the temperature distribution of the surface of the object in different colors is called an infrared thermal imaging technology, and people invented an infrared thermal imager by using the technology.

Chinese patent discloses (CN201922198043.6) an infrared thermal imager device, comprising an infrared thermal imager main body, wherein an infrared thermal imager assembly is arranged in the infrared thermal imager main body, a rubber sleeve is sleeved on a handle of the infrared thermal imager main body, a spring clamp is fixed at the bottom of the handle of the infrared thermal imager main body, a binding band is fixed at the side surface of the handle of the infrared thermal imager main body, a second heat dissipation port and a first heat dissipation port are respectively arranged at the left side and the right side of the infrared thermal imager main body, a second mounting frame is fixed on the second heat dissipation port, the second mounting frame is of a square structure, a heat dissipation fan is fixed in the second mounting frame, a power supply is arranged at one side of the heat dissipation fan, a dust screen is fixed on the surface of the second mounting frame, a first mounting frame is fixed on the first heat dissipation port, the first mounting frame is of a square structure, and a semiconductor refrigeration piece is fixed in the, this kind of thermal infrared imager device, the fixed flexibility of thermal infrared imager has been improved, it is high-efficient to dispel the heat simultaneously, be provided with semiconductor refrigeration piece and radiator fan respectively in the thermal infrared imager left and right sides, the heat absorption end cooling through the semiconductor refrigeration piece is cooled down thermal infrared imager inner structure, radiator fan then discharges the inside heat from the opposite side, accelerate the radiating rate, guarantee that thermal infrared imager can use for a long time, its life has been prolonged, but this thermal infrared imager device is not foldable, it is comparatively inconvenient at the portable type, and also can occupy extra space when placing, this thermal infrared imager device does not install any detection head protection mechanism simultaneously, when not using for a long time, thermal infrared imager device's detection head fragile, the protection effect is not good, need carry out certain improvement.

Disclosure of Invention

The invention aims to: in order to solve present thermal infrared imager device and can not fold, it is comparatively inconvenient at the portable type, also can occupy extra space when just placing, and thermal infrared imager device does not install any and detects first protection mechanism simultaneously, when not using for a long time, the detection head fragile of thermal infrared imager device, the not good problem of protection effect, and the thermal infrared imager that can utilize solar charging that provides.

In order to achieve the purpose, the invention adopts the following technical scheme: can utilize solar charging's thermal infrared imager, including thermal imager main part, handle, centre gripping cover, protective housing, photovoltaic module, solid subassembly of card and protection clearance pad, the bottom fixed mounting of thermal imager main part has the connecting piece, through hinge connection between handle and the connecting piece, install first connecting spring between handle and the connecting piece, fixed mounting has solid subassembly of card on one side outer wall of handle, and the outside cover of handle is equipped with holds the cover, centre gripping cover fixed mounting holds on one side outer wall of cover, fixed mounting has the detection head on the back outer wall of thermal imager main part.

As a further description of the above technical solution:

the top of the thermal imager main body is fixedly provided with a handle, and the outer wall of the front surface of the thermal imager main body is embedded with a display screen.

As a further description of the above technical solution:

the clamping and fixing component comprises a clamping block, a first connecting spring, an L-shaped mounting plate and a clamping shaft, the clamping shaft is slidably mounted inside the L-shaped mounting plate, and the clamping block is fixedly mounted at one end of the clamping shaft.

As a further description of the above technical solution:

the clamping device comprises a clamping shaft, a first connecting spring, a pull ring, a clamping block and a connecting piece, wherein the first connecting spring is sleeved outside the clamping shaft, one end of the first connecting spring is fixedly connected with the outer wall of one side of the L-shaped mounting plate, the other end of the clamping shaft is fixedly provided with the pull ring, and the clamping block is installed in a clamping groove formed in the connecting piece in a clamping and embedding manner.

As a further description of the above technical solution:

an inner groove is formed in the clamping sleeve, a sliding plate is fixedly mounted on the inner wall of the inner groove, and a second connecting spring is fixedly mounted in the inner groove.

As a further description of the above technical solution:

the sliding plate is provided with a side clamping plate in a sliding mode, one end of the second connecting spring is fixedly connected with the side wall of the side clamping plate, and the side clamping plate penetrates through and extends to the outer side of the clamping sleeve.

As a further description of the above technical solution:

the rotary groove is formed in the outer wall of the clamping sleeve, the protective shell is installed inside the rotary groove in a rotating mode, an outer ejection spring is fixedly installed on the inner wall of the protective shell, and a protection cleaning pad is fixedly installed at one end of the outer ejection spring.

As a further description of the above technical solution:

the clamping device is characterized in that an installation shaft is rotatably installed in the clamping sleeve through a shaft sleeve, a transmission worm is fixedly installed on the installation shaft, one end of the installation shaft penetrates through and extends to the outer portion of the clamping sleeve, a bottom rotary sheet is fixedly installed on the outer portion of the clamping sleeve, and a transmission turbine is rotatably installed in the clamping sleeve through a rotating shaft.

As a further description of the above technical solution:

the transmission worm is connected with the transmission turbine in an engaged mode, and the protective shell is fixedly connected with the transmission turbine through a connecting shaft.

As a further description of the above technical solution:

the thermal imager is characterized in that a plate groove and a rotating hole are formed in the top of the thermal imager main body, a positioning shaft is rotatably mounted in the rotating hole, a photovoltaic assembly is mounted in the plate groove, and a top plate fixedly mounted at one end of the positioning shaft is in contact with and extrudes the upper surface of the photovoltaic assembly.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the thermal imager, the infrared camera is designed to be foldable, the infrared camera can be directly folded when not needed, meanwhile, the holding sleeve is arranged on the holding sleeve, the side clamping plate capable of stretching is arranged in the holding sleeve, after the infrared camera is folded, the thermal imager main body can be effectively clamped and fixed by the side clamping plate, the stability of the folded thermal imager is kept, meanwhile, the rotary groove is formed in the holding sleeve, the protective shell is arranged in the rotary groove, after the infrared camera is folded, the protective shell can effectively and simultaneously generate a protection effect on the detection head, the damage to the detection head when the infrared camera is not used is avoided, and the infrared camera has good protectiveness when the infrared camera is folded.

2. According to the thermal imager, the transmission worm and the transmission worm wheel are mounted in the clamping sleeve, the transmission worm wheel is connected with the protective shell through the connecting rod, the transmission worm wheel is meshed with the transmission worm, the thermal imager is folded, the detection head is located in the protective shell and protected, meanwhile, the transmission worm wheel can be rotated through the bottom rotary sheet to drive the transmission worm wheel to rotate with the protective shell, the protective cleaning pad with the outer top spring is mounted in the protective shell, the cleaning effect on the detection head can be effectively achieved, dust accumulated on the detection head can be effectively cleaned, the detection effect of the detection head is kept, and the detection precision of the thermal imager is improved.

3. According to the thermal imager, the clamping component is mounted on the handle, the clamping shaft is directly pulled laterally through the pull ring when the thermal imager is required to be folded in normal times, one end of the clamping shaft is separated from the clamping groove of the connecting piece, the connecting piece and the thermal imager main body can be effectively driven to be folded under the action of the connecting spring, the thermal imager is convenient to fold, when the thermal imager is required to be unfolded for use, one end of the clamping shaft is clamped into the clamping groove of the connecting piece again, unfolding and fixing can be completed, folding, unfolding and fixing are convenient and rapid, the using effect is good, meanwhile, the photovoltaic component is mounted on the thermal imager, solar energy can be utilized, the solar energy is converted into electric energy to be stored, and the thermal imager is highly environment-friendly when being.

Drawings

Fig. 1 is a partial cross-sectional view of a primary view of a thermal infrared imager capable of being charged with solar energy.

FIG. 2 is a partial cross-sectional view of a thermal infrared imager capable of being charged with solar energy from the rear view.

Fig. 3 is a rear view of a thermal infrared imager capable of being charged with solar energy.

FIG. 4 is a schematic diagram of the internal structure of a primary view of a thermal infrared imager capable of being charged by solar energy;

FIG. 5 is an enlarged schematic view of a thermal infrared imager capable of being charged by solar energy at location A;

FIG. 6 is an enlarged schematic view of a thermal infrared imager capable of being charged by solar energy at location B;

fig. 7 is an enlarged structural diagram at C in a thermal infrared imager capable of being charged by solar energy.

Illustration of the drawings:

1. a handle; 2. a thermal imager main body; 3. a connecting member; 4. a display screen; 5. a handle; 6. holding the sleeve; 7. a clamping sleeve; 8. a detection head; 9. a connecting spring; 10. a shaft sleeve; 11. a protective shell; 12. rotating the groove; 13. a drive turbine; 14. a drive worm; 15. installing a shaft; 16. a bottom rotary sheet; 17. a side clamping plate; 18. a plate groove; 19. a photovoltaic module; 20. positioning the shaft; 21. hole turning; 22. a card slot; 23. a clamping component; 231. a clamping block; 232. a first connecting spring; 233. an L-shaped mounting plate; 234. clamping a shaft; 235. a pull ring; 24. an outer top spring; 25. protecting the cleaning pad; 26. a second connecting spring; 27. a slide plate; 28. an inner tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: the infrared thermal imager capable of being charged by solar energy comprises a thermal imager main body 2, a handle 5, a clamping sleeve 7, a protective shell 11, a photovoltaic module 19, a clamping and fixing module 23 and a protective cleaning pad 25, wherein a connecting piece 3 is fixedly installed at the bottom of the thermal imager main body 2, a handle 1 is fixedly installed at the top of the thermal imager main body 2, a display screen 4 is embedded and installed on the outer wall of the front face of the thermal imager main body 2, and by installing the handle 1, people can carry the device through the handle 1 during carrying, and by installing the display screen 4, various data information generated by the working of the thermal imager main body 2 can be effectively displayed in the display screen 4;

the handle 5 is connected with the connecting piece 3 through a hinge, a first connecting spring 9 is arranged between the handle 5 and the connecting piece 3, a clamping and fixing component 23 is fixedly arranged on the outer wall of one side of the handle 5, the clamping and fixing component 23 consists of a clamping block 231, a first connecting spring 232, an L-shaped mounting plate 233 and a clamping shaft 234, the clamping shaft 234 is slidably arranged in the L-shaped mounting plate 233, the clamping block 231 is fixedly arranged at one end of the clamping shaft 234, the first connecting spring 232 is sleeved outside the clamping shaft 234, one end of the first connecting spring 232 is fixedly connected with the outer wall of one side of the L-shaped mounting plate 233, the other end of the clamping shaft 234 is fixedly provided with a pull ring 235, the clamping block 231 is embedded in a clamping groove 22 formed in the connecting piece 3, and the clamping and fixing component 23 consists of the clamping block 231, the first connecting spring 232, the L-shaped mounting plate 233 and the clamping shaft 234, the clamping shaft 234 is slidably arranged inside the L-shaped mounting plate 233, the clamping block 231 is fixedly arranged at one end of the clamping shaft 234, the first connecting spring 232 is sleeved outside the clamping shaft 234, one end of the first connecting spring 232 is fixedly connected with the outer wall of one side of the L-shaped mounting plate 233, the other end of the clamping shaft 234 is fixedly provided with a pull ring 235, the clamping block 231 is clamped and arranged in a clamping groove 22 arranged inside the connecting piece 3, when the thermal imager is not needed, the clamping shaft 234 is directly pulled through the pull ring 235 side, so that one end of the clamping shaft 234 is separated from the clamping groove 22 of the connecting piece 3, at the moment, the connecting piece 3 and the thermal imager main body 2 can be effectively driven to be overturned and folded under the action of the first connecting spring 9, when the thermal imager needs to be unfolded for use, one end of the clamping shaft 234 is clamped into the clamping groove 22 of the connecting piece 3 again, so that unfolding and fixing can be completed, and the thermal imager is convenient and quick to fold, unfold and fix and has a good using effect;

the outer part of the handle 5 is sleeved with the holding sleeve 6, the holding sleeve 7 is fixedly arranged on the outer wall of one side of the holding sleeve 6, the inner groove 28 is arranged in the holding sleeve 7, the sliding plate 27 is fixedly arranged on the inner wall of the inner groove 28, the second connecting spring 26 is fixedly arranged in the inner groove 28, the side clamping plate 17 is slidably arranged on the sliding plate 27, one end of the second connecting spring 26 is fixedly connected with the side wall of the side clamping plate 17, the side clamping plate 17 penetrates through and extends to the outer side of the holding sleeve 7, the sliding plate 27 is fixedly arranged on the inner wall of the inner groove 28 by being provided with the inner groove 28, the second connecting spring 26 is fixedly arranged in the inner groove 28, the side clamping plate 17 is slidably arranged on the sliding plate 27, one end of the second connecting spring 26 is fixedly connected with the side wall of the side clamping plate 17, the side clamping plate 17 penetrates through and extends to the outer side of the holding sleeve 7, at the moment, at the moment, the thermal imager main body 2 is positioned in the clamping sleeve 7, the side clamping plates 17 are loosened, the second connecting springs 26 drive the side clamping plates 17 to reset, the thermal imager main body 2 is effectively clamped and fixed by the side clamping plates 17, and the stability of the folded thermal imager is maintained;

an installation shaft 15 is rotatably installed inside the clamping sleeve 7 through a shaft sleeve 10, a transmission worm 14 is fixedly installed on the installation shaft 15, one end of the installation shaft 15 penetrates through and extends to the outside of the clamping sleeve 7 to be fixedly provided with a bottom rotor 16, a transmission turbine 13 is rotatably installed inside the clamping sleeve 7 through a rotating shaft, the transmission worm 14 is meshed with the transmission turbine 13, the protective shell 11 is fixedly connected with the transmission turbine 13 through a connecting shaft, the installation shaft 15 is rotatably installed, the transmission worm 14 is fixedly installed on the installation shaft 15, one end of the installation shaft 15 penetrates through and extends to the outside of the clamping sleeve 7 to be fixedly provided with a bottom rotor 16, the transmission turbine 13 is rotatably installed inside the clamping sleeve 7 through a rotating shaft to be meshed with the transmission worm 14 and the transmission turbine 13, and the protective shell 11 is fixedly connected with the transmission turbine 13 through a connecting shaft, the protective shell 11 can effectively and simultaneously generate a protection effect on the detection head 8, the mounting shaft 15 is rotated through the bottom rotary piece 16, the transmission worm 14 on the mounting shaft 15 synchronously rotates, the transmission worm 14 is meshed with the transmission turbine 13, the transmission turbine 13 rotates with the protective shell 11, and the protective cleaning pad 25 with the outer top spring 24 is mounted in the protective shell 11, so that the protective cleaning pad 25 can effectively generate relative motion with the detection head 8, and the cleaning effect on the detection head 8 is generated;

the outer wall of the clamping sleeve 7 is provided with a rotating groove 12, a protective shell 11 is rotatably arranged inside the rotating groove 12, an outer jacking spring 24 is fixedly arranged on the inner wall of the protective shell 11, one end of the outer jacking spring 24 is fixedly provided with a protective cleaning pad 25, the protective shell 11 is rotatably arranged inside the rotating groove 12 by arranging the rotating groove 12, the outer jacking spring 24 is fixedly arranged on the inner wall of the protective shell 11, one end of the outer jacking spring 24 is fixedly provided with the protective cleaning pad 25, and the protective cleaning pad 25 can effectively move relative to the detection head 8 due to the fact that the protective cleaning pad 25 with the outer jacking spring 24 is arranged in the protective shell 11, and therefore the detection head 8 can be cleaned;

the thermal imager is characterized in that a detection head 8 is fixedly mounted on the outer wall of the back face of the thermal imager main body 2, a plate groove 18 and a rotary hole 21 are formed in the top of the thermal imager main body 2, a positioning shaft 20 is rotatably mounted in the rotary hole 21, a photovoltaic module 19 is mounted in the plate groove 18, a top plate fixedly mounted at one end of the positioning shaft 20 is in contact with and extrudes the upper surface of the photovoltaic module 19, the positioning shaft 20 is rotatably mounted in the rotary hole 21 by virtue of the plate groove 18 and the rotary hole 21, the photovoltaic module 19 is mounted in the plate groove 18, the top plate fixedly mounted at one end of the positioning shaft 20 is in contact with and extrudes the upper surface of the photovoltaic module 19, when sunlight is abundant, the thermal imager is placed in the sunlight, the photovoltaic module 19 can utilize solar energy, the solar energy is converted into electric energy to be stored, the thermal imager is powered, and.

The working principle is as follows: when the thermal imager is not needed, the clamping shaft 234 is pulled laterally through the pull ring 235, one end of the clamping shaft 234 is separated from the clamping groove 22 of the connecting piece 3, at the moment, the connecting piece 3 and the thermal imager main body 2 can be effectively driven to turn and fold under the action of the first connecting spring 9, at the moment, the side clamping plate 17 is pulled laterally, the second connecting spring 26 is under the stretching action, the thermal imager main body 2 is positioned in the clamping sleeve 7, the side clamping plate 17 is loosened, the second connecting spring 26 drives the side clamping plate 17 to reset, the thermal imager main body 2 is effectively clamped and fixed by the side clamping plate 17, the stability of the folded thermal imager is maintained, after the thermal imager is folded, the detection head 8 is positioned in the protective shell 11, the protective shell 11 can effectively and simultaneously generate a protection effect on the detection head 8, the mounting shaft 15 is rotated through the bottom rotary plate 16, the transmission worm 14 on the mounting shaft 15 synchronously rotates, and due to the meshing connection, drive turbine 13 rotates with protective housing 11, because install the protection clearance pad 25 that has outer top spring 24 in protective housing 11, protection clearance pad 25 can effectively and detect first 8 production relative motion, thereby produce clean effect to detecting first 8, when needs expand the use to the thermal imager, make card axle 234 one end card go into in the draw-in groove 22 of connecting piece 3 again, can accomplish to expand fixedly, folding expansion is fixed convenient and fast, excellent in use effect, simultaneously when sunshine is abundant, make the device arrange in under sunshine, photovoltaic module 19 can utilize solar energy, convert solar energy into electric energy and store, supply power to the device, very high feature of environmental protection has.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. Can utilize solar charging's thermal infrared imager, including thermal imager main part (2), handle (5), centre gripping cover (7), protective housing (11), photovoltaic module (19), solid subassembly (23) of card and protection clearance pad (25), its characterized in that: the bottom fixed mounting of thermal imaging system main part (2) has connecting piece (3), through hinge connection between handle (5) and connecting piece (3), install first connecting spring (9) between handle (5) and connecting piece (3), fixed mounting has solid subassembly of card (23) on one side outer wall of handle (5), and the outside cover of handle (5) is equipped with holds cover (6), centre gripping cover (7) fixed mounting is on holding one side outer wall of cover (6), fixed mounting has detection head (8) on the back outer wall of thermal imaging system main part (2).

2. The thermal infrared imager capable of being charged by solar energy according to claim 1, wherein a handle (1) is fixedly installed at the top of the thermal imager main body (2), and a display screen (4) is embedded and installed on the outer wall of the front side of the thermal imager main body (2).

3. The thermal infrared imager capable of being charged by solar energy according to claim 1, wherein the clamping component (23) is composed of a clamping block (231), a first connecting spring (232), an L-shaped mounting plate (233) and a clamping shaft (234), the clamping shaft (234) is slidably mounted inside the L-shaped mounting plate (233), and the clamping block (231) is fixedly mounted at one end of the clamping shaft (234).

4. The thermal infrared imager capable of being charged by solar energy according to claim 3, wherein the first connecting spring (232) is sleeved outside the clamping shaft (234), one end of the first connecting spring (232) is fixedly connected with the outer wall of one side of the L-shaped mounting plate (233), the other end of the clamping shaft (234) is fixedly provided with a pull ring (235), and the clamping block (231) is embedded in a clamping groove (22) formed in the connecting piece (3).

5. The thermal infrared imager charged by solar energy according to claim 1, wherein an inner groove (28) is formed in the clamping sleeve (7), a sliding plate (27) is fixedly mounted on the inner wall of the inner groove (28), and a second connecting spring (26) is fixedly mounted in the inner groove (28).

6. The thermal infrared imager capable of being charged by solar energy according to claim 5, wherein the sliding plate (27) is slidably mounted with a side clamping plate (17), one end of the second connecting spring (26) is fixedly connected with the side wall of the side clamping plate (17), and the side clamping plate (17) passes through and extends to the outer side of the clamping sleeve (7).

7. The thermal infrared imager capable of being charged by solar energy according to claim 1, wherein a rotating groove (12) is formed in the outer wall of the clamping sleeve (7), a protective shell (11) is rotatably mounted inside the rotating groove (12), an outer jacking spring (24) is fixedly mounted on the inner wall of the protective shell (11), and a protective cleaning pad (25) is fixedly mounted at one end of the outer jacking spring (24).

8. The thermal infrared imager capable of being charged by solar energy according to claim 7, wherein the clamping sleeve (7) is rotatably provided with a mounting shaft (15) inside through a shaft sleeve (10), the mounting shaft (15) is fixedly provided with a transmission worm (14), one end of the mounting shaft (15) penetrates through and extends to the outside of the clamping sleeve (7) and is fixedly provided with a bottom rotary vane (16), and the clamping sleeve (7) is rotatably provided with a transmission turbine (13) inside through a rotating shaft.

9. The thermal infrared imager capable of being charged by solar energy according to claim 8, characterized in that the transmission worm (14) and the transmission turbine (13) are meshed with each other, and the protective shell (11) and the transmission turbine (13) are fixedly connected through a connecting shaft.

10. The thermal infrared imager capable of being charged by solar energy according to claim 1, wherein a plate groove (18) and a rotating hole (21) are formed in the top of the thermal imager main body (2), a positioning shaft (20) is rotatably mounted in the rotating hole (21), a photovoltaic module (19) is mounted in the plate groove (18), and a top plate fixedly mounted at one end of the positioning shaft (20) is in contact with and extrudes the upper surface of the photovoltaic module (19).