CN210807466U - Portable infrared super-resolution imaging device - Google Patents

Abstract

The utility model relates to a portable infrared super-resolution imaging device, including device body, tripod and handle, the top at the device body is fixed to the handle, and the device body includes the casing, is provided with infrared camera lens and display screen on the casing, and the infrared camera lens front end is provided with the anti-dazzling screen, and inside infrared focal plane detector, controller, bluetooth device, storage hard disk and the battery of being provided with of casing, the bottom mounting of device body has first magnetic block, and the top of tripod is fixed with the second magnetic block, and the bottom of each landing leg of tripod is provided with the sucking disc. The portable infrared super-resolution imaging device can improve the portability of the device through the handle, the tripod, the first magnetic block and the second magnetic block.

Description

Portable infrared super-resolution imaging device

Technical Field

The utility model belongs to the technical field of infrared super-resolution formation of image, especially, relate to a portable infrared super-resolution imaging device.

Background

At present, the application of infrared imaging technology is more and more extensive, such as: the infrared imager is applied to maintenance of electrical and mechanical systems, and can be used for quickly, accurately and safely finding faults before the equipment fails. In recent years, a special infrared imaging device, namely an infrared super-resolution imaging device, has been developed, but the current infrared super-resolution imaging devices are all fixed and have poor portability.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable infrared super-resolution imaging device for solve the relatively poor problem of portability of current infrared super-resolution imaging device.

In order to solve the above problem, the utility model relates to a portable infrared super-resolution imaging device adopts following technical scheme:

a portable infrared super-resolution imaging device, comprising:

a device body;

a tripod; and

a handle;

the handle is fixed to the top end of the device body, the device body comprises a shell, an infrared lens and a display screen are arranged on the shell, the infrared lens is used for collecting infrared images of a detection object, a light shading sheet is arranged at the front end of the infrared lens, an infrared focal plane detector, a controller, a Bluetooth device, a storage hard disk and a storage battery are arranged inside the shell, the infrared focal plane detector is used for receiving the collected infrared images, the infrared focal plane detector is connected with the controller, the Bluetooth device is used for being connected with a mobile terminal through Bluetooth, the controller is connected with the display screen, the Bluetooth device and the storage hard disk, and the storage battery is used for supplying power to connect the infrared focal plane detector, the controller and the display screen;

the bottom mounting of device body has first magnetism piece, the top of tripod is fixed with the second magnetism piece, magnetism connection can be dismantled to first magnetism piece and second magnetism piece, the bottom of each landing leg of tripod is provided with the sucking disc.

Optionally, the housing is further provided with a communication interface and a card slot for inserting a memory card, and the controller is connected to the communication interface and the card slot.

Optionally, the portable infrared super-resolution imaging device further comprises the mobile terminal.

Optionally, four angles of device body bottom all are provided with prevents falling the structure.

Optionally, the fall-resistant structure is a rubber block.

Optionally, the first magnetic block and the second magnetic block are both permanent magnets.

Optionally, still be provided with the interface and the electric energy receiving interface that charge on the casing, the power supply of electric energy receiving interface is connected infrared focal plane detector, controller and display screen, the interface that charges is connected the battery.

The utility model has the advantages as follows: the handle is convenient for hand-carry infrared super-resolution imaging device, promotes the portability, and moreover, the tripod can be convenient for infrared super-resolution imaging device reliably places in corresponding position. The tripod can be conveniently detached from the bottom end of the tripod body, the tripod and the tripod body are convenient to carry respectively, and portability is improved. The bottom of each landing leg of tripod is provided with the sucking disc, and the tripod of being convenient for is fixed. In addition, the front end of the infrared lens is provided with a shading sheet, so that the influence of external strong light on detection is prevented. The device adopts the battery to supply power, promotes the power supply reliability. The display screen can display the detection image in real time, and real-time inspection is facilitated. Under the normal condition, the staff can carry on the mobile terminal with oneself, for example the cell-phone, then carries out the bluetooth through bluetooth module and mobile terminal and is connected, and mobile terminal can in time receive the infrared image information that detects, and the staff of being convenient for directly looks over to and carry out subsequent processing in time.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly described as follows:

FIG. 1 is a schematic structural diagram of a portable infrared super-resolution imaging device according to the present invention;

fig. 2 is a schematic diagram of the control principle of the portable infrared super-resolution imaging device of the present invention.

Detailed Description

In order to make the technical purpose, technical solution and advantageous effects of the present invention clearer, the technical solution of the present invention is further described below with reference to fig. 1, fig. 2 and specific embodiments.

As shown in fig. 1, the portable infrared super-resolution imaging apparatus includes an apparatus body, a handle 2, and a tripod 3. The handle 2 is fixed on the top end of the device body, and the portable infrared super-resolution imaging device can be conveniently carried through the handle 2, so that the portability of the device is realized. The device body includes casing 1, is provided with infrared camera lens 4, display screen 5 on the casing 1, the interface 6 that charges, electric energy receiving interface 7, communication interface 12 and draw-in groove 13. The infrared lens 4 may be a conventional infrared lens; the display screen 5 may be a conventional display; the charging interface 6 is a conventional charging interface and charges the storage battery 18 by connecting an external power supply; the power receiving interface 7 is used for receiving external power, and may be a conventional power input interface for connecting an external power supply; the communication interface 12 is used for communicating with external devices, and may be a conventional communication interface, such as an RS485 interface; the card slot 13 is used to insert a memory card such as an SD card.

Infrared lens 4, display screen 5, the interface 6 that charges, electric energy receiving interface 7, communication interface 12 and draw-in groove 13 are not unique in the concrete position on casing 1, set up according to actual need, for example: casing 1 is the cuboid structure, and infrared lens 4 sets up on casing 1's left panel, and display screen 5 sets up on casing 1's front panel, and interface 6 and the electric energy receiving interface 7 that charge set up on casing 1's right panel, and communication interface 12 and draw-in groove 13 set up on casing 1's top panel. And the handle 2 is fixedly provided on the upper panel of the housing 1. In addition, the front end of the infrared lens 4 is provided with a shading sheet 7 for shading the strong light of the external environment and preventing the strong light from influencing the infrared detection. The shading sheet 7 can be directly adhered to the front end of the infrared lens 4, and can also be made into a lens sleeve structure matched with the infrared lens 4 and sleeved at the front end of the infrared lens 4.

The bottom end of the device body, namely the bottom end of the shell 1, is fixed with a first magnetic block 8 (for example, the bottom end of the shell 1 is fixed with a base through a bolt, the bottom end of the base is fixed with the first magnetic block 8, the first magnetic block 8 can be adhered to the bottom end of the base through strong adhesion), and the top end of the tripod 3 is fixed with a second magnetic block 9 (for example, the second magnetic block 9 can be adhered to the top end of the tripod 3 through strong adhesion). The first magnetic block 8 and the second magnetic block 9 can be detachably connected in a magnetic manner, namely, the first magnetic block and the second magnetic block are directly magnetically attracted together, and certainly, the attraction surfaces of the first magnetic block and the second magnetic block are opposite magnetic poles. The structures and the sizes of the first magnetic block 8 and the second magnetic block 9 are not limited, and the larger the contact surface between the first magnetic block 8 and the second magnetic block 9 is, the larger the magnetic attraction strength is. In order to improve the magnetic attraction strength, the first magnetic block 8 and the second magnetic block 9 are both permanent magnets. When the device is carried, the tripod 3 and the device body can be detached and carried respectively, so that the portability is improved; and in use, the device body is placed on the tripod 3.

Four angles of device body bottom all are provided with prevents falling structure 10, and further, prevent falling structure 10 and be the block rubber. In this embodiment, the bottom end of the device body, i.e., the lower panel of the housing 1, is rectangular, and has four corners, and the anti-falling structures 10 are fixed at the corners, and can be directly adhered to the corners or welded to the corners. In addition, for the convenience of fixing, the bottom of each leg of the tripod 3 is provided with a suction cup 11.

The infrared lens 4 is used for collecting infrared images of a detected object, and an infrared focal plane detector 15, a controller 14, a Bluetooth device 16, a storage hard disk 17 and a storage battery 18 are arranged inside the shell 1. The infrared focal plane detector 15 is a conventional infrared detector; the controller 14 is a conventional control chip, such as a single chip; the bluetooth device 16 is a conventional bluetooth device; the storage hard disk 17 is a conventional storage device; the battery 18 is a conventional energy storage device such as a lithium battery.

The infrared focal plane detector 15 is used for detecting (namely receiving) the infrared image collected by the infrared lens 4, the bluetooth device 16 is used for being connected with a mobile terminal in a bluetooth mode, and the mobile terminal can be a part of the portable infrared super-resolution imaging device or not. The mobile terminal can receive the infrared image information in time through the Bluetooth device 16, and real-time viewing is convenient.

As shown in fig. 2, the infrared focal plane detector 15 is connected to the controller 14, and the controller 14 is connected to the display screen 5, the bluetooth device 16, the storage hard disk 17, the communication interface 12, and the card slot 13. The infrared lens 4 collects infrared images of the detected object, the infrared focal plane detector 15 detects the infrared images, and the infrared focal plane detector 15 outputs data information corresponding to the infrared images to the controller 14. The Bluetooth device 16 outputs data information to the mobile terminal, the storage hard disk 17 stores the data information, the communication interface 12 is used for outputting the data information to external equipment, the storage card stores the data information through the card slot 13, and the display screen 5 displays the detected data information.

The storage battery 18 and the electric energy receiving interface 7 are in power supply connection with the infrared focal plane detector 15, the controller 14 and the display screen 5, and the charging interface 6 is connected with the storage battery 18. Fig. 2 illustrates the controller 14 connected to the battery 18 for supplying power. Of course, the battery 18 also supplies power to other relevant components of the device. Therefore, the device has two power supply modes: one is that the storage battery 18 directly supplies power for the infrared focal plane detector 15, the controller 14 and the display screen 5, and the other is that an external power supply supplies power for the infrared focal plane detector 15, the controller 14 and the display screen 5 through the electric energy receiving interface 7. The external power supply is connected to the charging interface 6, and the battery 18 can be charged. Of course, the storage battery 18 can also be taken out of the housing 1 for charging, and only one power supply mode of the storage battery 18 is also possible, so that the charging interface 6 and the power receiving interface 7 can also be omitted.

In the above, the communication interface 12 can communicate with an external device, and the card slot 13 and the storage hard disk 17 are two different storage methods, so that the diversity of data storage can be realized. Of course, if communication with the outside is not required, the communication interface 12 may not be provided; if data storage by a memory card is not required, the card slot 13 may not be provided.

Finally, it should be noted that: the above-mentioned embodiments are only used for illustrating but not limiting the technical solution of the present invention, and any equivalent replacement and modification or partial replacement which do not depart from the spirit and scope of the present invention should be covered within the protection scope of the claims of the present invention.

Claims (7)

1. A portable infrared super-resolution imaging device, comprising:

a device body;

a tripod; and

a handle;

the handle is fixed to the top end of the device body, the device body comprises a shell, an infrared lens and a display screen are arranged on the shell, the infrared lens is used for collecting infrared images of a detection object, a light shading sheet is arranged at the front end of the infrared lens, an infrared focal plane detector, a controller, a Bluetooth device, a storage hard disk and a storage battery are arranged inside the shell, the infrared focal plane detector is used for receiving the collected infrared images, the infrared focal plane detector is connected with the controller, the Bluetooth device is used for being connected with a mobile terminal through Bluetooth, the controller is connected with the display screen, the Bluetooth device and the storage hard disk, and the storage battery is used for supplying power to connect the infrared focal plane detector, the controller and the display screen;

the bottom mounting of device body has first magnetism piece, the top of tripod is fixed with the second magnetism piece, magnetism connection can be dismantled to first magnetism piece and second magnetism piece, the bottom of each landing leg of tripod is provided with the sucking disc.

2. The portable infrared super-resolution imaging device according to claim 1, wherein a communication interface and a card slot for inserting a memory card are further provided on the housing, and the controller connects the communication interface and the card slot.

3. The portable infrared super resolution imaging device of claim 1, further comprising the mobile terminal.

4. The portable infrared super-resolution imaging device according to claim 1, wherein the device body is provided with anti-falling structures at four corners of the bottom end thereof.

5. The portable infrared super-resolution imaging device of claim 4, wherein the fall prevention structure is a rubber block.

6. The portable infrared super-resolution imaging device of claim 1, wherein the first magnetic block and the second magnetic block are both permanent magnets.

7. The portable infrared super-resolution imaging device according to claim 1, wherein a charging interface and an electric energy receiving interface are further arranged on the housing, the electric energy receiving interface is connected with the infrared focal plane detector, the controller and the display screen in a power supply manner, and the charging interface is connected with the storage battery.

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