CN214045694U - Portable infrared thermal imaging terminal - Google Patents

Abstract

The utility model discloses a portable infrared thermal imaging terminal, including the terminal body, touch display screen, infrared camera lens, infrared sensor, infrared data acquisition subassembly, treater and power, infrared camera lens receives the light of object transmission, the transmission is for infrared sensor and will see through infrared camera lens's light conversion for the signal of telecommunication, send this signal of telecommunication for infrared data acquisition subassembly simultaneously, infrared data acquisition subassembly is digital signal with the signal of telecommunication conversion that infrared sensor has changed, and gather this digital signal and send for the treater after the concatenation, the treater converts the digital signal after infrared data acquisition subassembly conversion into image data, and send image data for touch display screen. In this way, the utility model provides a portable infrared thermal imaging terminal is integrated with infrared imaging device and three proofings cell-phone, and convenient to carry not only can use for a long time, improves staff's efficiency, is favorable to the collection, the storage and the output of information, and application market is good.

Description

Portable infrared thermal imaging terminal

Technical Field

The utility model relates to a thermal imaging terminal especially relates to a portable infrared thermal imaging terminal.

Background

If the surface temperature of the object exceeds absolute zero, electromagnetic waves can be radiated, the radiation intensity and the wavelength distribution characteristic of the electromagnetic waves are changed along with the temperature change, the electromagnetic waves with the wavelength between 0.75 mu m and 1000 mu m are called infrared rays, the infrared thermal imaging technology is to detect infrared specific wave band signals of the object heat radiation by using a photoelectric technology, convert the signals into images and graphs which can be distinguished by human vision, and further calculate the temperature value. The infrared thermal imaging technology enables people to surpass visual barriers, so that people can see the temperature distribution condition of the surface of an object, and the infrared thermal imaging technology is widely applied to the fields of electric power, petroleum, chemical industry, gas, building materials, metallurgy and the like.

During daily work such as on-site inspection, equipment maintenance, hidden danger rectification, special work and the like, infrared imaging equipment is usually used, the existing infrared imaging equipment is usually large and inconvenient to carry and use for a long time, and in view of the complexity of the working environment, a portable infrared imaging terminal combined with a three-prevention mobile phone is designed.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides one kind not only convenient to carry, can use for a long time, improves staff's efficiency, simultaneously, is favorable to the collection, the storage and the output of information, uses the good portable infrared thermal imaging terminal in market.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a portable infrared thermal imaging terminal, includes terminal body, touch display screen, infrared camera lens, infrared sensor, infrared data acquisition subassembly, treater and power.

The infrared lens is located on the back face of the terminal body, is in signal connection with the infrared sensor and is used for receiving light rays emitted by an object and transmitting the light rays to the infrared sensor.

And the infrared sensor is positioned on one side of the infrared lens, is electrically connected with the infrared data acquisition assembly, and is used for converting the light penetrating through the infrared lens into an electric signal and sending the electric signal to the infrared data acquisition assembly.

The infrared data acquisition assembly is positioned in the terminal body, is in signal connection with the processor and is used for converting the electric signal converted by the infrared sensor into a digital signal and acquiring and splicing the digital signal and then sending the digital signal to the processor.

The processor is located on one side of the infrared data acquisition assembly, is electrically connected with the touch display screen, and is used for converting the digital signals converted by the infrared data acquisition assembly into image data and sending the image data to the touch display screen.

And the touch display screen is positioned on the front surface of the terminal body and used for displaying the data image converted by the processor and displaying other operation instructions.

The power is located inside the terminal body, and the touch display screen, the infrared lens, the infrared sensor, the infrared data acquisition assembly and the processor provide electric quantity.

In a preferred embodiment, the infrared resolution of the infrared lens is 160 × 120 or 80 × 60.

In a preferred embodiment, the touch screen is an FHD screen with dimensions of 5.5 inches and resolution 1080 × 1920.

In a preferred embodiment, the processor is an eight core MTK6757 processor with a master frequency of 2.0 GHZ.

In a preferred embodiment, the power source is a 6000mAh lithium battery.

In a preferred embodiment, the terminal body dimension is 216 x 138 x 20 mm.

In a preferred embodiment, the terminal body housing is made of a polymer engineering plastic.

In a preferred embodiment, a power key is arranged below the touch display screen, a call key and an off-hook key are respectively arranged on two sides of the power key, the power key is electrically connected with a power supply, and the processor respectively controls the call key and the off-hook key.

In a preferred embodiment, a key assembly electrically connected to the processor, a USB interface supporting OTG function, a mobile phone card slot, and a 3.5mm ptt earphone interface are further disposed on the side of the terminal body.

In a preferred embodiment, a rope hanging buckle is further arranged at one end of the back surface of the terminal body, which is far away from the infrared lens.

The utility model has the advantages that: the infrared imaging device and the three-proofing mobile phone are integrated, so that the infrared imaging device is convenient to carry, can be used for a long time, improves the efficiency of workers, is favorable for information acquisition, storage and output, and has a good application market.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

FIG. 1 is an elevational view of the overall structure of one embodiment of the portable infrared thermal imaging terminal of the present invention;

FIG. 2 is a rear view of the overall structure of one embodiment of the portable infrared thermal imaging terminal of the present invention;

FIG. 3 is a schematic side view of an embodiment of a portable infrared thermal imaging terminal of the present invention;

FIG. 4 is a schematic diagram of another side of an embodiment of a portable infrared thermal imaging terminal of the present invention;

FIG. 5 is a control flow diagram of an embodiment of the portable infrared thermal imaging terminal of the present invention;

the various references in the drawings are: 1. a terminal body; 2. a touch display screen; 3. an infrared lens; 4. an infrared sensor; 5. an infrared data acquisition component; 6. a processor; 7. a power source; 8. a power key; 9. a talk key; 10. hanging up the key; 11. a key assembly; 12. a USB interface; 13. a mobile phone card slot; 14. an earphone interface; 15. and hanging a rope buckle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-5, in an embodiment of the present invention, a portable infrared thermal imaging terminal is provided, which includes a terminal body 1, a touch display screen 2, an infrared lens 3, an infrared sensor 4, an infrared data acquisition component 5, a processor 6 and a power supply 7; the infrared lens 3 is positioned on the back of the terminal body 1, is in signal connection with the infrared sensor 4, and is used for receiving light rays emitted by an object and transmitting the light rays to the infrared sensor 4; the infrared sensor 4 is positioned on one side of the infrared lens 3, is electrically connected with the infrared data acquisition assembly 5, and is used for converting light rays penetrating through the infrared lens 3 into electric signals and sending the electric signals to the infrared data acquisition assembly 5; the infrared data acquisition assembly 5 is positioned in the terminal body 1, is in signal connection with the processor 6, and is used for converting the electric signal converted by the infrared sensor 4 into a digital signal, acquiring and splicing the digital signal and then sending the digital signal to the processor 6; the processor 6 is positioned on one side of the infrared data acquisition component 5, is electrically connected with the touch display screen 2, and is used for converting the digital signals converted by the infrared data acquisition component 5 into image data and sending the image data to the touch display screen 2; the touch display screen 2 is positioned on the front surface of the terminal body 1 and is used for displaying the data image converted by the processor 6 and displaying other operation instructions; the power 7 is located inside the terminal body, and is used for providing electric quantity for the touch display screen 2, the infrared lens 3, the infrared sensor 4, the infrared data acquisition assembly 5 and the processor 6. The shell material of the terminal body 1 is macromolecule engineering plastics.

In one embodiment, the infrared resolution of the infrared lens 3 is 160 × 120 or 80 × 60. The touch display screen 2 is an FHD display screen, and has a size of 5.5 inches and a resolution of 1080 × 1920. The processor 6 adopts an eight-core MTK6757 processor with a main frequency of 2.0 GHZ.

Preferably, the power source 7 is a 6000mAh lithium battery, and the size of the terminal body 1 is 216 × 138 × 20 mm.

Preferably, a power key 8 is arranged below the touch display screen 2, a call key 9 and an off-hook key 10 are respectively arranged on two sides of the power key 8, the power key 8 is electrically connected with the power supply 7, and the processor 6 controls the call key 9 and the off-hook key 10 respectively. And the side edge of the terminal body 1 is also provided with a key assembly 11 electrically connected with the processor 6, a USB interface 12 supporting the OTG function, a mobile phone card slot 13 and a 3.5mm PTT earphone interface 14. And a rope hanging buckle 15 is further arranged at one end of the back surface of the terminal body 1, which is far away from the infrared lens 3.

The working principle is as follows:

during the use, start the power key, the terminal begins work, wait to detect the light that the object distributes and get into through infrared camera lens, and transmit infrared sensor, infrared sensor converts infrared camera lens received light into the signal of telecommunication and transmits infrared data acquisition subassembly, infrared data acquisition subassembly is digital signal with this signal of telecommunication conversion, and gather the concatenation to this digital signal and send for the treater, the treater converts received digital signal into image data and sends for touch display screen, the user can look over the temperature of waiting to detect the object through touch display screen, and then carry out operation on next step.

Therefore, the utility model has the advantages of it is following:

1. terminal body size is 216X 138X 20mm, and the shell adopts polymer engineering plastics to make, and is integrated with infrared imaging subassembly and three proofings cell-phone, convenient to carry does not lose the safeguard function of three proofings cell-phone simultaneously, can deal with different operational environment, and the availability factor is high.

2. The infrared resolution of the infrared lens is 160 × 120 or 80 × 60, so that different requirements of different customers are met.

3. The touch display screen adopts an FHD display screen with the resolution of 1080 x 1920 of 5.5 inches, can view high-definition images, and has the function of viewing partial amplification.

4. The processor uses an eight-core MTK6757 processor with the main frequency of 2.0GHZ, and the image processing effect is excellent.

5. The power adopts the 6000mAh lithium cell, satisfies long-time the use, avoids the not enough phenomenon of electric quantity, improves work efficiency.

6. The back of the terminal body is also provided with a rope hanging buckle, so that the carrying is convenient, the safety of equipment is improved, and the phenomenon that the user is lost and falls is avoided.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (8)

1. A portable infrared thermal imaging terminal characterized by: the terminal comprises a terminal body (1), a touch display screen (2), an infrared lens (3), an infrared sensor (4), an infrared data acquisition component (5), a processor (6) and a power supply (7); the terminal body (1) is cuboid in shape, and the infrared lens (3) is located on the back face of the terminal body (1); the infrared sensor (4) is positioned on one side of the infrared lens (3), the infrared data acquisition assembly (5) is positioned in the terminal body (1), and the infrared sensor (4) and the infrared data acquisition assembly (5) are electrically connected; the infrared data acquisition assembly (5) is in signal connection with the processor (6); the processor (6) is positioned on one side of the infrared data acquisition assembly (5), and the processor (6) is electrically connected with the touch display screen (2); the touch display screen (2) is positioned on the front surface of the terminal body (1), and the touch display screen (2) is opposite to the infrared lens (3); the power supply (7) is positioned in the terminal body and provides electric quantity for the portable infrared thermal imaging terminal; touch display screen (2) below is provided with power key (8), power key (8) both sides are equipped with conversation key (9) and hang up key (10) respectively, power key (8) and power (7) electric connection, processor (6) control conversation key (9) and hang up key (10) respectively, still be provided with on the side of terminal body (1) with processor (6) electric connection's button subassembly (11), USB interface (12), cell-phone draw-in groove (13) and 3.5mmPTT earphone interface (14) that support the OTG function.

2. The portable infrared thermal imaging terminal of claim 1, wherein: and a rope hanging buckle (15) is further arranged at one end of the back surface of the terminal body (1) far away from the infrared lens (3).

3. The portable infrared thermal imaging terminal of claim 1, wherein: the infrared resolution of the infrared lens (3) is 160 × 120 or 80 × 60.

4. The portable infrared thermal imaging terminal of claim 1, wherein: the touch display screen (2) is an FHD display screen, the size is 5.5 inches, and the resolution is 1080 x 1920.

5. The portable infrared thermal imaging terminal of claim 1, wherein: the processor (6) adopts an eight-core MTK6757 processor with the main frequency of 2.0 GHZ.

6. The portable infrared thermal imaging terminal of claim 1, wherein: the power supply (7) adopts a 6000mAh lithium battery.

7. The portable infrared thermal imaging terminal of claim 1, wherein: the terminal body (1) has dimensions 216 x 138 x 20 mm.

8. The portable infrared thermal imaging terminal of claim 1, wherein: the shell material of the terminal body (1) is high molecular engineering plastics.

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