CN113014722A - Overheat identification system and method based on thermal imager of mobile phone - Google Patents

Abstract

The invention discloses an overheat identification system and method based on a thermal infrared imager of a mobile phone, wherein the overheat identification system is used for detecting whether equipment is overheated or not and comprises a smart phone, the thermal infrared imager and a terminal server, the thermal infrared imager is installed on the smart phone, the terminal server is used for acquiring the load current of the equipment to be detected in real time, the threshold value N of the equipment is stored in the terminal server, the processing software acquires the highest temperature X of the equipment and the ambient temperature around the equipment according to an infrared map, the smart phone is provided with processing software, the processing software acquires the load current of the equipment and the historical highest value M under the load current and the ambient temperature from the terminal server according to equipment information, if X-M is more than or equal to N, the equipment is overheated, and otherwise, the equipment operates normally. The system can improve the detection efficiency of detection personnel.

Description

Overheat identification system and method based on thermal imager of mobile phone

[ technical field ] A method for producing a semiconductor device

The invention relates to an overheat identification system and method based on a thermal imager of a mobile phone, and belongs to the technical field of thermal imagers of mobile phones.

[ background of the invention ]

In recent years, infrared diagnosis technology is widely applied to fault diagnosis of power system equipment as a nondestructive live-line detection means, and with the deep development of state maintenance work of national power grid companies, the infrared detection technology has become an important means for live-line detection of power equipment due to the advantage that the infrared detection technology can detect multiple faults of equipment without power outage, and plays an important role in ensuring the stable operation of the electrical equipment. However, at present, analysis, fault judgment and maintenance strategy of the infrared detection map are mainly completed by detection personnel through self experience, and due to the difference of professional technical levels of the detection personnel, the difference of the attentiveness and experience of the detection personnel and other reasons, the fault diagnosis of the equipment may be deviated, and potential safety hazards are buried in the operation of the equipment. In addition, the mode of personnel detection cannot accurately judge the infrared fault of the power equipment in time, and a maintenance strategy cannot be rapidly formulated, so that the working efficiency of detection personnel is reduced.

[ summary of the invention ]

The invention aims to provide an overheat identification system and method based on a thermal imager of a mobile phone, and the system can improve the detection efficiency of detection personnel.

The technical scheme adopted by the invention is as follows:

an overheat identification system based on thermal imager of a mobile phone is used for detecting whether equipment is overheated, and comprises a smart phone, a thermal infrared imager and a terminal server, wherein:

the thermal infrared imager is mounted on the smart phone and provided with a connecting wire, the thermal infrared imager realizes data transmission with the smart phone through the connecting wire, and the thermal infrared imager generates an infrared spectrum of the tested equipment and transmits the infrared spectrum to the smart phone;

the terminal server is used for acquiring the load current of the equipment in real time, the terminal server is provided with a memory for storing data information, and the memory is internally stored with equipment information of the equipment, a threshold value N of the equipment, the ambient temperature of the equipment and the temperature of the equipment under different load currents and ambient temperatures;

the smart phone is in wireless connection with the terminal server, the equipment is provided with a two-dimensional code or double naming for marking, and the smart phone acquires equipment information and a threshold value N of the equipment from the terminal server through the two-dimensional code or double naming on the equipment;

the smart phone is provided with processing software, the processing software acquires the maximum temperature X and the ambient temperature of the equipment according to the infrared spectrum, the processing software acquires the load current of the equipment and the historical maximum value M of the equipment temperature under the load current and the ambient temperature from the terminal server according to the equipment information, if X-M is more than or equal to N, the equipment is overheated, the processing software generates early warning and generates overheating information, the processing software uploads the overheating information to the terminal server, and otherwise, the equipment runs normally.

The beneficial effects of the invention are as follows:

the infrared thermal imager comprises a smart phone, an infrared thermal imager and a terminal server, wherein the infrared thermal imager is installed on the smart phone and is in data transmission with the smart phone through a connecting line, the infrared thermal imager transmits a generated infrared spectrum to the smart phone through the connecting line, and the infrared spectrum can be displayed more clearly through the smart phone, so that a worker can conveniently check the infrared spectrum. In addition, the smart phone can acquire the device information and the threshold value N of the device from the terminal server through the two-dimensional code or double naming on the device to be tested, the smart phone is provided with processing software, the processing software acquires the highest temperature X of the tested equipment and the ambient temperature from the infrared spectrum, secondly, the processing software acquires the load current of the equipment at the moment and the historical maximum value M of the temperature of the equipment under the load current and the ambient temperature from the terminal server according to the equipment information, secondly, the processing software acquires the highest temperature X of the tested device from the infrared spectrum, the processing software calculates the highest temperature X, if X-M is more than or equal to N, the equipment is overheated, the processing software generates early warning and generates overheating information, and the processing software uploads the overheating information to the terminal server, otherwise, the equipment runs normally.

According to the invention, the equipment information can be rapidly identified through the smart phone, the load current of the equipment is acquired from the terminal server in real time through networking with the terminal server, and in addition, the infrared thermal imager simultaneously generates the infrared map while the smart phone acquires the equipment information.

In addition, the terminal server stores the equipment information of the equipment, the threshold value N of the equipment and the temperature of the equipment under different load currents and environment temperatures, and provides necessary information support for subsequent overheat condition judgment, so that a worker can know the information of the equipment to be detected, and the working efficiency of worker detection and subsequent overhaul and maintenance is improved.

Preferably, the thermal infrared imager is provided with a fixing device fixedly connected with the smart phone, the fixing device is provided with a groove, the inner wall of the groove is provided with a clamping piece, the fixing device is provided with an adjusting screw rod used for adjusting the clamping piece, the inner wall of the groove is provided with a through hole for the adjusting screw rod to pass through, the surface of the through hole is provided with an internal thread, and the surface of the adjusting screw rod is provided with an external thread matched with the internal thread.

Preferably, the thermal infrared imager comprises a housing, and the housing and the fixing device are integrated.

Preferably, the thermal infrared imager comprises a shell and an optical lens, the optical lens is installed at the front end inside the shell, and a focal length adjusting device is arranged at the front end of the shell.

Preferably, a connector is arranged at the joint of the connecting rope and the smart phone, a first interface and a second interface are arranged on the connector, the first interface and the second interface are respectively connected with the smart phone and the connecting line, and the second interface are vertically arranged.

Preferably, the surface of the clamping piece, which is in contact with the smart phone, is provided with a first anti-slip pad.

Preferably, a second anti-slip pad is arranged on the surface, in contact with the smart phone, of the inner wall of the groove.

The invention also discloses an overheat identification method based on the thermal imager of the mobile phone, which adopts the overheat identification system based on the thermal imager of the mobile phone as claimed in any one of claims 1 to 7, and the use steps of the overheat identification method are as follows:

s1, the smart phone obtains the two-dimensional code or double naming from the terminal server

Device information and a threshold N for the device;

s2, generating an infrared spectrum of the equipment by the thermal infrared imager and transmitting the infrared spectrum to the smart phone;

s3, acquiring the highest temperature X and the ambient temperature of the equipment at the moment from the infrared map by the processing software;

s4, the processing software acquires the real-time load current of the equipment and the historical maximum value M of the equipment temperature under the load current and the environmental temperature from the terminal server according to the equipment information;

s5, the processing software carries out calculation, if X-M is larger than or equal to N, the equipment is overheated, the processing software carries out early warning and generates overheating information, and the processing software uploads the overheating information to the terminal server;

if X-M < N, the equipment operates normally.

Other features and advantages of the present invention will be disclosed in more detail in the following detailed description of the invention and the accompanying drawings.

[ description of the drawings ]

The invention is further described below with reference to the accompanying drawings:

fig. 1 is a side view of a thermal infrared imager and a smartphone in embodiment 1 of the present invention;

fig. 2 is a flowchart of embodiment 2 of the present invention.

[ detailed description ] embodiments

The technical solutions of the embodiments of the present invention are explained and illustrated below with reference to the drawings of the embodiments of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Example 1:

as shown in fig. 1, this embodiment shows an overheat identification system based on a thermal imager of a mobile phone, where the overheat identification system is used to detect whether a device is overheated, and includes a smart phone 1, a thermal infrared imager 2 and a terminal server, where: the thermal infrared imager 2 is installed on the smart phone 1, the thermal infrared imager 2 is provided with a connecting wire 4, the thermal infrared imager 2 and the smart phone 1 realize data transmission through the connecting wire 4, and the thermal infrared imager 2 generates an infrared spectrum of the tested equipment and transmits the infrared spectrum to the smart phone 1; the terminal server is used for detecting the load current of the equipment in real time, the terminal server is provided with a memory for storing data information, and the memory is internally stored with the equipment information of the equipment, the threshold value N of the equipment and the temperature of the equipment under different load currents; the intelligent mobile phone 1 is in wireless connection with a terminal server, the equipment is provided with a two-dimensional code or characters for marking, and the intelligent mobile phone 1 acquires equipment information and a threshold value N of the equipment from the terminal server through the two-dimensional code or double naming on the equipment; the smart phone 1 is provided with processing software, the processing software acquires the highest temperature X and the ambient temperature of the equipment according to the infrared spectrum, the processing software acquires the load current of the equipment and the historical highest value M of the equipment temperature under the load current and the ambient temperature from the terminal server according to the equipment information, if X-M is more than or equal to N, the equipment is overheated, the processing software generates early warning and generates overheating information, the processing software uploads the overheating information to the terminal server, and otherwise, the equipment runs normally.

The thermal infrared imager 2 is installed on the smart phone 1, data transmission is achieved between the connecting line 4 and the smart phone 1, the thermal infrared imager 2 transmits the generated infrared spectrum to the smart phone 1 through the connecting line 4, the infrared spectrum can be displayed more clearly through the smart phone 1, and the thermal infrared imager is convenient for workers to check. In addition, the smart phone 1 can acquire device information and a threshold value N of the device from a terminal server through a two-dimensional code or characters on the device to be detected, processing software is arranged in the smart phone 1, the processing software acquires the highest temperature X and the ambient temperature of the device to be detected at the moment from an infrared spectrum, then the processing software acquires the load current of the device at the moment and the historical maximum value M of the temperature of the device at the load current and the ambient temperature from the terminal server according to the device information, calculation is performed through the processing software, if X-M is larger than or equal to N, the device is overheated, the processing software generates early warning and generates overheating information, the processing software uploads the overheating information to the terminal server, and otherwise, the device operates normally.

This embodiment can pass through 1 quick discernment equipment information of smart mobile phone, through networking with terminal server, acquire the load current of this equipment in real time from terminal server, in addition when 1 acquisition equipment information of smart mobile phone, thermal infrared imager 2 generates infrared map simultaneously, can make the staff acquire the temperature information and the load current of equipment under test simultaneously through this embodiment, improve the precision of this embodiment testing result, maintain and provide clear and definite information for the staff, make the operating condition by equipment of understanding that the staff can be accurate.

In addition, in this embodiment, the terminal server stores the device information of the devices, the threshold N of each device, and the temperature of each device at different load currents and ambient temperatures, so as to provide necessary information support for subsequent overheat condition determination, enable the staff to know the information of the device to be tested in time, and improve the work efficiency of staff detection and subsequent maintenance.

In the embodiment, the thermal infrared imager 2 is provided with a fixing device 3 fixedly connected with the smartphone 1, the fixing device 3 is provided with a groove for accommodating the smartphone 1, the fixing device 3 is mounted on the smartphone 1 through the groove, the fixing device 3 is provided with an adjusting screw 301 and a clamping piece 302, the inner wall of the groove is provided with a through hole for the adjusting screw 301 to pass through, the surface of the through hole is provided with internal threads, the adjusting screw 301 is provided with external threads, the adjusting screw 301 is connected with the clamping piece 302, the distance between the clamping piece 302 and the smartphone 1 can be adjusted by rotating the adjusting screw 301, as a plurality of different models of smartphones 1 exist in the market at present, the smartphones 1 of different models have different thicknesses, and the adjusting screw 301 can adjust the position of the clamping piece 302 in the embodiment, so that the clamping piece 302 can keep contact with the surface of the smartphone 1, through adjusting screw 301 makes fixing device 3 can install on the smart mobile phone 1 of various different thickness, makes this embodiment can be applicable to the smart mobile phone 11 of multiple different models, can improve the application scope of this embodiment, also enables the use of this embodiment more convenient.

Secondly, the clamping piece 302 can be made to be close to the smart phone 1 as much as possible by adjusting the screw 301, so that the smart phone 1 is ensured to be clamped and fixed in the groove of the fixing device 3, the connection stability between the fixing device 3 and the smart phone 1 is improved, the situations that the smart phone 1 moves or falls off in the using process are reduced as much as possible, the possibility of damage caused by falling off in the embodiment is reduced, the connection stability between the smart phone 1 and the thermal infrared imager 2 in the embodiment is improved, and if the thermal infrared imager 2 falls off from the smart phone, the connecting line 4 and the connector 5 are easily damaged due to the fact that a pulling force is generated on the connecting line 4 and the connector 5, so.

In order to improve the stability of this embodiment, in this embodiment the thermal infrared imager 2 includes a housing and an optical lens, the optical lens is installed at the front end inside the housing, the housing and the fixing device 3 are an integral body, a circuit board and a circuit are further arranged in the housing, the fixing device 3 is provided with a USB interface for connecting with a wire, and the circuit is laid inside the housing and the fixing device 3. Through establishing shell and fixing device 3 as a whole, can improve the connection stability of this embodiment, can avoid thermal infrared imager 2 appears rocking or the condition such as drops, makes this embodiment can keep steadily at the operation in-process.

In order to improve the definition of the image shot by the thermal infrared imager 2, the focal length adjusting device 201 is arranged at the front end of the housing in this embodiment, and the image shot by the thermal infrared imager 2 in this embodiment can be kept clear by the focal length adjusting device 201, so that the shooting quality of this embodiment is improved, and the measurement accuracy of this embodiment can also be improved.

In addition, in this embodiment fixing device 3 and 4 releasable connections of connecting wire, connector 5 is used for connecting smart mobile phone 1 and connecting wire 4, because different types of smart mobile phone 11's connector type is different, need use corresponding connector 5, connector 5 and the removable setting of connecting wire 4 in this embodiment, connector 5 is equipped with first interface 502 and second interface 501, first interface 502 and second interface 501 respectively with smart mobile phone 1 and 4 line connections of connecting wire, the staff can change corresponding connection according to the smart mobile phone 1 that uses, is applicable to different types of smart mobile phone 1 through using different connector 5 to improve the application scope of this embodiment, make the use of this embodiment more convenient.

In order to further improve the connection stability between the fixing device 3 and the smart phone 1, in this embodiment, a first anti-slip pad 303 is disposed on a surface of the clip 302 contacting the smart phone 1, a second anti-slip pad 304 is disposed on a surface of the inner wall of the groove contacting the smart phone 1, and the first anti-slip pad 303 and the second anti-slip pad 304 can improve the friction force between the fixing device 3 and the smart phone 1, so as to improve the connection stability between the fixing device 3 and the smart phone 1. In addition, the first anti-slip pad 303 and the second anti-slip pad 304 can also protect the smart phone 1, so that the smart phone 1 is prevented from being damaged due to the extrusion of the clip 302, and the influence of the embodiment on the service life of the smart phone 1 is reduced.

Example 2:

as shown in fig. 2, this embodiment shows an overheat identification method based on a thermal imager of a mobile phone, where the overheat identification method adopts the overheat identification system based on the thermal imager of the mobile phone as described in embodiment 1 or other embodiments the same as embodiment 1, and the use steps of the overheat identification method are as follows:

the working personnel opens the intelligent mobile phone 1 and the thermal infrared imager 2, the intelligent mobile phone 1 and the thermal infrared imager 2 are aligned to the tested device, the intelligent mobile phone 1 scans a two-dimensional code on the device or double naming of the device, the intelligent mobile phone 1 is connected with a terminal server through the Internet, device information and a threshold value N of the device are obtained from the terminal server according to the two-dimensional code or double naming on the device, meanwhile, the thermal infrared imager 2 generates an infrared map of the device and transmits the infrared map to the intelligent mobile phone 1 through the connecting line 4, processing software in the intelligent mobile phone 1 obtains the highest temperature X and the ambient temperature of the device at the moment from the infrared map, and the real-time load current of the device and the historical highest value M of the device temperature under the load current and the ambient temperature are obtained from the terminal server through the processing software according to the device information, and finally, the processing software carries out calculation, if X-M is larger than or equal to N, the equipment is overheated, meanwhile, the processing software carries out early warning and generates overheating information of the equipment, the processing software uploads the overheating information to a terminal server to provide clear data information for overhaul and maintenance of workers, if X-M is smaller than N, the equipment operates normally, and the workers can detect the next equipment.

While the invention has been described with reference to specific embodiments thereof, it will be understood by those skilled in the art that the invention is not limited thereto, and may be embodied in many different forms without departing from the spirit and scope of the invention as set forth in the following claims. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (8)

1. An overheat identification system based on a thermal imager of a mobile phone is used for detecting whether equipment is overheated or not, and is characterized in that: including smart mobile phone, thermal infrared imager and terminal server, wherein:

the thermal infrared imager is mounted on the smart phone and provided with a connecting wire, the thermal infrared imager realizes data transmission with the smart phone through the connecting wire, and the thermal infrared imager generates an infrared spectrum of the tested equipment and transmits the infrared spectrum to the smart phone;

the terminal server is used for acquiring the load current of the equipment in real time, the terminal server is provided with a memory for storing data information, and the memory is internally stored with equipment information of the equipment, a threshold value N of the equipment, the ambient temperature of the equipment and the temperature of the equipment under different load currents and ambient temperatures;

the smart phone is in wireless connection with the terminal server, the equipment is provided with a two-dimensional code or double naming for marking, and the smart phone acquires equipment information and a threshold value N of the equipment from the terminal server through the two-dimensional code or double naming on the equipment;

the smart phone is provided with processing software, the processing software acquires the maximum temperature X and the ambient temperature of the equipment according to the infrared spectrum, the processing software acquires the load current of the equipment and the historical maximum value M of the equipment temperature under the load current and the ambient temperature from the terminal server according to the equipment information, if X-M is more than or equal to N, the equipment is overheated, the processing software generates early warning and generates overheating information, the processing software uploads the overheating information to the terminal server, and otherwise, the equipment runs normally.

2. The thermal imager-based overheat identification system of claim 1, wherein: the thermal infrared imager is provided with a fixing device fixedly connected with a smart phone, the fixing device is provided with a groove, the inner wall of the groove is provided with a clamping piece, the fixing device is provided with an adjusting screw rod used for adjusting the clamping piece, the inner wall of the groove is provided with a through hole for the adjusting screw rod to pass through, the surface of the through hole is provided with an internal thread, and the surface of the adjusting screw rod is provided with an external thread matched with the internal thread.

3. The thermal imager-based overheat identification system of claim 2, wherein: the thermal infrared imager comprises a shell, and the shell and the fixing device are integrated.

4. The thermal imager-based overheat identification system of claim 2, wherein: the thermal infrared imager comprises a shell and an optical lens, wherein the optical lens is installed at the front end inside the shell, and a focal length adjusting device is arranged at the front end of the shell.

5. The thermal imager-based overheat identification system of claim 1, wherein: the connecting rope is connected with the connecting part of the smart phone and is provided with a connector, the connector is provided with a first interface and a second interface, the first interface and the second interface are respectively connected with the smart phone and the connecting wire, and the first interface and the second interface are vertically arranged.

6. The thermal imager-based overheat identification system of claim 2, wherein: the surface that clamping piece and smart mobile phone contacted is equipped with first slipmat.

7. The thermal imager-based overheat identification system of claim 2, wherein: and a second anti-slip pad is arranged on the surface of the inner wall of the groove, which is in contact with the smart phone.

8. An overheat identification method based on a thermal imager of a mobile phone is characterized in that: the overheat identification method adopts the overheat identification system based on the thermal imager of the mobile phone as claimed in any one of claims 1 to 7, and the use steps of the overheat identification method are as follows:

s1, the smart phone obtains the device information and the threshold value N of the device from the terminal server through the two-dimensional code or double naming on the device;

s2, generating an infrared spectrum of the equipment by the thermal infrared imager and transmitting the infrared spectrum to the smart phone;

s3, acquiring the highest temperature X and the ambient temperature of the equipment at the moment from the infrared map by the processing software;

s4, the processing software acquires the real-time load current of the equipment and the historical maximum value M of the equipment temperature under the load current and the environmental temperature from the terminal server according to the equipment information;

s5, the processing software carries out calculation, if X-M is larger than or equal to N, the equipment is overheated, the processing software carries out early warning and generates overheating information, and the processing software uploads the overheating information to the terminal server; if X-M < N, the equipment operates normally.

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