CN205719264U - Thermal source detection device and system thereof - Google Patents
Thermal source detection device and system thereof Download PDFInfo
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- CN205719264U CN205719264U CN201620295919.2U CN201620295919U CN205719264U CN 205719264 U CN205719264 U CN 205719264U CN 201620295919 U CN201620295919 U CN 201620295919U CN 205719264 U CN205719264 U CN 205719264U
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Abstract
This utility model provides a kind of thermal source detection device and system thereof, it is to utilize the visible image of current captured determinand but is not limited to this, aspect ratio pair is carried out with previous captured history image, move to identical camera site with homing guidance user, to promote the accuracy that history detection data compare;The most automatically uploading detection data are to server, and history to detect data classification automatically and produces analysis report, and in time receiving abnormal temperature data, IMU responds with enforcement exception handler.
Description
[technical field]
This utility model is that relevant a kind of thermal source detects device and system, particularly one can improve detection degree of accuracy also
The thermal source detection device of instant circular abnormal temperature and system thereof.
[background technology]
Traditional infra red thermograph, is generally of external or built-in storage media, and such as SD storage card, USB store
Device and built-in memory module etc., in order to record the temperature data of detection gained.Hot shadow through infra red thermograph sensing determinand
As or temperature data after, SD storage card etc. is stored the storage data jump in media from a work computer by user again, to enter
Row data compilation and analysis, and find out abnormal data, to get rid of the abnormal superheat state of determinand.It is well known that for
For same determinand, user this infra red thermograph hand-held detects the temperature data of this determinand gained, can be used
Detecting distance between person and this survey thing (because caloradiance and distance square be inversely proportional to) or the impact of detection angles and have
Significantly temperature reading difference, and traditional settling mode for example, utilizes a fixed foot rest, is fixed by infra red thermograph
In an identical camera site, to reduce the measurement difference that camera site difference is caused.
But, the most abnormal in order to detect the temperature of distribution board in high technology building, if requiring, patrol officer carries with
One fixed foot rest is patrolled and examined at on-site with infra red thermograph, will result in the inconvenience of patrol officer.Additionally, patrol officer needs elder generation
After completing sensor operation, then it is passed to work computer to carry out anomaly analysis, time-consumingly from the temperature data being about to store in media
Laborious and flow process is tediously long, and lack the instant ability circulating a notice of abnormal temperature.
In sum, a kind of thermal source detection device improving detection degree of accuracy and immediately circulating a notice of abnormal temperature how is provided
And system is the target that current pole need to be made great efforts.
[utility model content]
This utility model provides a kind of thermal source detection device and system thereof, and it is the visible of the current captured determinand of utilization
Optical image but be not limited to this, carry out aspect ratio pair with previous captured history image, move to phase with homing guidance user
Same camera site, to promote the accuracy that history detection data compare;The most automatically uploading detection data are to server, with certainly
The dynamic data that history detected are classified and produce analysis report, and in time receiving abnormal temperature data, IMU responds with reality
Execute exception handler.
The thermal source detecting system of this utility model one embodiment comprises a thermal source detection device, a mobile device and clothes
Business device.Thermal source detection device comprises a visible image acquisition unit, thermal imagery sensing unit and a communication device.Visible
Optical image acquisition unit captures a visible image of determinand using as detection data;Thermal imagery sensing unit captures by correspondence
The heat distribution image that multiple temperature datas of this determinand are formed is using as detection data;And communication device transmits detection
Data.Mobile device and thermal source detection device communication connection, and the detection data that mobile device reception communication device is transmitted.Move
Dynamic device comprises a display and a processing unit;Display display detection data;Processing unit is electrically connected with display,
And processing unit comprises an identification unit and a control unit;Identification unit identification compound detection data, with produce one work as
A deviation between front feature, and a history feature of identification unit comparison current signature and determinand, to export an identification letter
Number;And control unit and identification unit are electrically connected with, and control unit is according to identification signal, transmits detection data and current
Feature at least one.Server communicates to connect with mobile device, and server receives the detection number that mobile device is transmitted
According to this and current signature at least one, and stored and processed.
The thermal source detecting system of this utility model one embodiment, current signature comprises a figure of determinand in visible image
Case, a profile or a characteristic point.
The thermal source detecting system of this utility model one embodiment, identification unit more according to deviation, shows that a displacement is instructed in
On the display of mobile device, wherein, deviation comprises the distance difference of the relative position between current signature with history feature.
The thermal source detecting system of this utility model one embodiment, mobile device further includes a sensing element, right in order to sense
Should be in a RFID tag of determinand or a near field communication tag, to obtain an article information, wherein, article information comprises
One identification code of corresponding determinand.
The thermal source detecting system of this utility model one embodiment, thermal source detection device further includes a sensing element, in order to feel
Survey the RFID tag corresponding to determinand or a near field communication tag, to obtain an article information, wherein, article information
Comprise an identification code of corresponding determinand.
The thermal source detecting system of this utility model one embodiment, server comprises a data processing unit, in order to receive thing
Part information, and according to identification code by detection data corresponding with identification code for identification code and at least one point of current signature
Class is stored in data storage element.
The thermal source detecting system of this utility model one embodiment, data processing unit is analyzed in different time according to identification code
The detection data that point is received, to produce a temperature detection form.
The thermal source detecting system of this utility model one embodiment, server comprises an abnormality processing module, and it is according to temperature
Temperature variation between data and a threshold value determines an abnormal signal and is back to mobile device, an alert messages to be shown in
Display.
The thermal source detecting system of this utility model one embodiment, mobile device comprises an abnormality processing module, and it is according to temperature
Temperature variation between degrees of data and a threshold value, is shown in display by an alert messages.
The thermal source detection device of another embodiment of this utility model, itself and a mobile device and server composition one heat
Source detecting system.Mobile device and thermal source detection device communicate to connect and transmit detection data and a current signature at least its
One of to server;Mobile device comprises a display and a processing unit, and wherein, display is in order to show detection number
According to, processing unit comprises an identification unit and a control unit.Thermal source detection device comprise a visible image acquisition unit,
One communication device and thermal imagery sensing unit.Visible image acquisition unit captures a visible image of determinand to make
For detection data;Thermal imagery sensing unit capture the heat distribution image that is made up of multiple temperature datas of corresponding determinand with
As detection data;Communication device and visible image acquisition unit and thermal imagery sensing unit are electrically connected with, and with movement
Device communication link, and communication device transmission detection data are to mobile device, wherein, identification unit identification compound detection number
According to, to produce current signature, and the deviation between a history feature of identification unit comparison current signature and determinand, with
Export an identification signal to control unit;Control unit transmits these detection data and this current signature at least according to identification signal
One of them is to server.
The thermal source detection device of another embodiment of this utility model, current signature comprises in visible image the one of determinand
Pattern, a profile or a characteristic point.
The thermal source detection device of another embodiment of this utility model, this identification unit more according to deviation, shows that a displacement refers to
Being shown on the display of mobile device, wherein, deviation comprises the distance difference of the relative position between current signature with history feature.
The thermal source detection device of another embodiment of this utility model, thermal source detection device further includes a sensing element, in order to
Sensing the RFID tag corresponding to determinand or a near field communication tag, to obtain an article information, wherein, object is believed
Breath comprises an identification code of corresponding determinand.
The thermal source detection device of another embodiment of this utility model, communication device comprises a universal serial bus unit.
The thermal source detection device of another embodiment of this utility model, communication device comprises a wireless communication unit.
The thermal source detection device of another embodiment of this utility model, server comprises an abnormality processing module, and it is according to temperature
Temperature variation between degrees of data and a threshold value determines an abnormal signal and is sent to mobile device, an alert messages to be shown
In display.
Below by the graphic elaborate appended by specific embodiment cooperation, when being easier to understand mesh of the present utility model
, technology contents, feature and the effect reached thereof.
[accompanying drawing explanation]
Fig. 1 is a schematic diagram, the thermal source detecting system of display this utility model one embodiment.
Fig. 2 is a schematic diagram, the thermal source detection device of display this utility model one embodiment.
Fig. 3 is a schematic diagram, the circuit structure of the thermal source detection device of display this utility model one embodiment.
Fig. 4 is a schematic diagram, the visible image of display this utility model one embodiment.
Fig. 5 is a schematic diagram, the heat distribution image of display this utility model one embodiment.
Fig. 6 is a schematic diagram, the current signature of display this utility model one embodiment.
Fig. 7 is a schematic diagram, the heat distribution image of display another embodiment of this utility model.
[symbol description]
A determinand
C far-end computer
LB label
F current signature
R detects data
U user
10 thermal source detection devices
11 communication devices
12 visible image acquisition units
13 thermal imagery sensing unit
14 sensing elements
15 buses
20 mobile devices
30 servers
H temperature spot
[detailed description of the invention]
Hereinafter will be described each embodiment of the present utility model, and coordinate graphic illustratively.Except the plurality of detailed description
Outside, this utility model also can be performed in other embodiment widely, the replacement easily of any described embodiment, amendment,
Equivalence change is included in the range of this utility model, and is as the criterion with claim.In the description of description, for
Reader is made to have more completely understanding to this utility model, it is provided that many specific detail;But, this utility model may save
Slightly partly or entirely on the premise of specific detail, still can implement.Moreover, it is well known that step or element be not described in details
In, to avoid this utility model is formed unnecessary restriction.In graphic, same or similar element will be with same or like symbol
Number represent.It is specifically intended that the graphic use being only signal, size that not representation element is actual or quantity, some details
May draw the most completely, in the hope of graphic succinct.
Refer to Fig. 1, the thermal source detecting system of an embodiment of the present utility model comprises thermal source detection device 10, shifting
Dynamic device 20 and a server 30.Thermal source detection device 10 communicates to connect with mobile device 20, and a user U passes through thermal source
Detection device 10 detects detection data R of a determinand A;For example, determinand A comprise a water pipe, appendix, electronic box or
Electroplax, but be not limited.
Please with reference to Fig. 1 to Fig. 3, thermal source detection device 10 comprises communication device 11, visible image and captures single
Unit 12 and thermal imagery sensing unit 13.In an embodiment, communication device 11, visible image acquisition unit 12 and
Thermal imagery sensing unit 13 is to be electrically connected to each other by a bus 15.In an embodiment, it is general that communication device 11 comprises one
Serial bus (Universal Serial Bus) unit.In another embodiment, communication device 11 comprises a radio communication list
Unit;For example, wireless communication unit is to be reached an agreement on by a Bluetooth communication agreement, an infrared communication agreement, a near-field communication
Or a WiFi communication agreement, and mobile device 20 communication cable, but it is not limited to this.Visible image acquisition unit 12 captures to be measured
One visible image of thing A is using as detection data R, for example, it is seen that what optical image acquisition unit 12 captured an electroplax can
See optical image, as shown in Figure 4;Thermal imagery sensing unit 13 captures be made up of multiple temperature datas of corresponding determinand A
Heat distribution image is using as detection data R, and for example, thermal imagery sensing unit 13 captures the heat distribution image of an electroplax, as
Shown in Fig. 5;And communication device 11 transmits detection data R to mobile device 20.It is understood that detect determinand starting
Before the infrared image of A or temperature data, can first capture an identification code of determinand A, file in order to follow-up data and manage.
In an embodiment, thermal source detection device 10 can capture the one of determinand A by visible image acquisition unit 12 and quickly respond
Code (QR Code) label LB, to obtain an article information, wherein, article information comprises the identification code of corresponding determinand A, such as
Its board sequence number.In another embodiment, thermal source detection device 10 further includes a sensing element 14, in order to sense determinand A's
One RF identification (RFID) label or a near-field communication (NFC) label, to obtain article information.In another embodiment, have
Generally skill also can capture the quick response codes label of determinand A by the visible image acquisition unit of mobile device 20
LB, to obtain article information, but is not limited to this.In another embodiment, tool usually intellectual also can pass through mobile device 20
Sensing element, the sensing A RFID tag of determinand or near field communication tag, to obtain article information, but be not limited to this.
Continuing referring to Fig. 1 and Fig. 4 to Fig. 6, mobile device 20 comprises a display (not illustrating) and a processing unit
(not illustrating), wherein, display display detection data R, a visible image as shown in Figure 4, or a heat point as shown in Figure 5
Cloth image, and processing unit and display be electrically connected with.Processing unit comprises an identification unit (not illustrating) and and controls single
Unit (not illustrating), wherein, identification unit identification detection data, such as one visible image but be not limited to this, current to produce one
Feature F, an electroplax profile F as shown in Figure 6, and between a history feature of identification unit comparison current signature F and determinand
A deviation, to export an identification signal.Control unit is electrically connected with identification unit, and control unit passes according to identification signal
Send visible image, heat distribution image, multiple temperature data and current signature at least one to a server 30, its
In, thermal imagery sensing unit 10 persistently return detect data R to mobile device 20, only identification signal points out current signature and history
When feature is consistent, mobile device 20 begins to transmit detection data R to server 30.
In an embodiment, current signature including but not limited to a pattern of determinand in visible image, a profile or
One characteristic point.For example, it is seen that the nut pattern on determinand surface or a gabarit of nut flange in optical image, it is possible to
As a current signature;Or according to multiple brightness values of multiple pixels in visible image, by algorithm, calculate multiple spy
Levy a little, but be not limited.In another embodiment, it is possible to by previous captured visible image directly as a standard shadow
Picture, by between the current visible image of identification unit comparison and standard video, to export an identification signal.In another embodiment
In, also can pass through algorithm, composite visible light image and heat distribution image, using as a current signature;Or composite visible light shadow
As and temperature data, to produce a current signature, wherein, identification unit allow temperature data ranges can sets itself, citing
For be positive and negative 10 degree of C, tool usually intellectual is when can modify conversion voluntarily, but is not limited.It is understood that history
Feature refers at the current signature captured in those years, mobile device 20 upload and be stored in server 30
In, using as a comparison basis;Or the visual demand of mobile device 20 captures the current spy of visible image or detection data again
Levy and upload onto the server 30, to save as the history feature updated.Therefore, if user is when currently patrolling and examining, not in
Store in mobile device 20 previous captured determinand A history feature or employ another mobile device 20, the most only need
In advance from the server 30 i.e. off-line using of download before entering plant area and patrolling and examining, improve the convenience of user.
In an embodiment, identification unit, more according to above-mentioned image deviation, shows that a displacement is instructed in mobile device 20
On display, wherein, image deviation comprises the distance difference of the relative position between current signature with history feature.For example,
Identification unit judges that visible image currently captured for user U has left shift compared to up till now captured standard video
Problem, can be moved right specific range by displacement instruction notice user U, to adjust mobile device 20 and thermal source sense
Survey device 10 to previous identical camera site.Indicating by above-mentioned displacement, mobile device 20 can be moved by homing guidance user
Move to identical camera site, it is to avoid because of the camera site measurement difference that caused of difference, with promote the degree of accuracy measured and
The accuracy that history detection data compare.
It should be noted that, traditional thermal imaging system is typically the heat distribution image utilizing determinand and processes as coherent video
Foundation, such as find lost-and-found object according to heat distribution image.The most actually heat distribution image is to be determined by multiple temperature datas
Fixed, it is impossible to the actual look of accurate description one determinand or profile, for example, if two electric wires being connected with high-tension current are equal
For 50 degree and when being disposed adjacent Celsius, both heat distribution images may show with identical color lump because temperature is identical, will
It is considered a thicker electric wire, and causes the puzzlement of image identification;Or as shown in Figures 5 and 6, because of electroplax metal temperature and week
Meeting with the intermetallic temperature spread of material little, the heat distribution image therefore shooting out is compared to visible image more mould
Stick with paste, and be difficult to identification.In order to solve the problems referred to above, this utility model is the visible image utilizing current captured determinand,
By identification unit identification visible image, to produce a current signature F with clear profile, as shown in Figure 6;Or identification list
Unit is by algorithm identification composite visible light image and heat distribution image, to produce the current signature with clear profile, as
Shown in Fig. 7.Therefore, the current signature from visible image will not affected by difference variation, contributes to mobile device automatic
Guiding user to move to suitable camera site, it is accurate that the degree of accuracy measured with lifting and history detection data compare
Property.
Continue described above, and server 30 communicates to connect with mobile device 20, and server 30 receives mobile device 20 institute
Detection data R transmitted and current signature at least one, and stored and processed.In an embodiment, server
30 comprise a data processing unit, in order to receive article information.Data processing unit foundation identification code is by identification code and identification code
Corresponding detection data R and at least one classified storage of current signature are in data storage element.For example, by Fig. 7
Multiple temperature detection data R foundation distribution board sequence number that shown multiple distribution boaries are corresponding, classified storage is in data storage element
In multiple data folders.In another embodiment, data processing unit analyzes, according to identification code, the inspection received in different time points
Survey data R, to produce a temperature detection form.It is understood that user U or the 3rd people can pass through a far-end computer C
Communication cable is set up, whenever and wherever possible inspection temperature detection form with server 30.For example, far-end computer can be on one
Type computer, a lithographic plate computer or a Smartphone, but it is not limited to this.By thermal source detecting system of the present utility model, detection
Data R can upload onto the server 30 automatically, and history is detected data and classifies and produce analysis report and allow by server 30 automatically
User is consulted via network connectivity, can avoid time and effort consuming and tediously long operating process, with the temperature of immediately monitoring determinand
Change.
In another embodiment, server 30 comprises an abnormality processing module, and it is according between temperature data and a threshold value
Temperature variation determines an abnormal signal and is back to mobile device 20, so that an alert messages to be shown in the display of mobile device
Device.Therefore, it is positioned at and measures after on-the-spot user U receives alert messages, can immediately overhaul determinand;And at far-end computer C
After other management personnel or management system also can implement exception handler simultaneously, such as reduce air-conditioner temperature or other be effective
Measure, to prevent, work peace is unexpected to be occurred.
Following description mobile communications device function when off-line state, in another embodiment, refer to Fig. 1, mobile
Device 20 can download related data from server 30 in advance, comprise history feature, outlier threshold but be not limited to this, work as mobile device
20 be in off-line state with server 30 and with server without communication connection time, mobile device 20 i.e. according in be stored in mobile dress
Put the data in 20 to judge to detect data R the most extremely, the mechanism abnormal to reach monitoring;The device of thermal source detection simultaneously is picked
Detection data R taken will be stored in mobile device 20, be about to detect in data R when device 20 to be moved recovers communication again again
Reach server 30.In an embodiment, mobile device comprises an abnormality processing module, and it is according between temperature data and a threshold value
Temperature variation, an alert messages is shown in display.Therefore, the user being positioned at the scene of measurement sees alert messages
After, can immediately overhaul determinand, to prevent, work peace is unexpected to be occurred.For example, refer to a heat of the electroplax shown in Fig. 7
Distribution image, when the multiple temperature datas in heat distribution image are higher than a threshold value, mobile device can be automatically by the highest
The temperature spot H overlap of person's (can be single or multiple, but be not limited to this) shows on heat distribution image, to warn user, rather than
Require user by naked eyes interpretation heat distribution striograph to find out maximum temperature point, to avoid patrol officer because of naked eyes interpretation
Personal error also improves its automation mechanized operation efficiency simultaneously.
Refer to Fig. 2 and Fig. 3, the thermal source of another embodiment of this utility model detection device 10, its with a mobile device with
And one server form a thermal source detecting system.Thermal source detection device 10 comprises communication device 11, visible image and captures
Unit 12 and thermal imagery sensing unit 13;Wherein, in thermal source detection device 10, each interelement technical characteristic connects with element
Connect relation, and related embodiment is as described above, does not repeats them here.
Summary, thermal source of the present utility model detection device and system thereof, it is to utilize current captured determinand
Visible image and detection data, carry out aspect ratio pair, with homing guidance with previous captured history image or characteristic image
User moves to identical camera site, it is to avoid the measurement difference caused because of camera site difference, to promote the essence measured
The accuracy that exactness and history detection data compare.Additionally, after server accepts detection data, automatically history is detected data
Classify and produce analysis report and consult via network connectivity by user, time and effort consuming and tediously long operating process can be avoided,
Variations in temperature with immediately monitoring determinand;And server is in time receiving abnormal temperature data, instant circular user or its
He manages system, to implement exception handler, and prevents the unexpected generation of work peace.
Embodiment described above is only for technological thought of the present utility model and feature are described, its purpose is familiar with this making
The personage of skill will appreciate that the content of this utility model and implements according to this, when can not with restriction patent of the present utility model
Scope, the impartial change the most generally made according to the spirit disclosed in this utility model or modification, must contain at this utility model
The scope of the claims in.
Claims (16)
1. a thermal source detecting system, it is characterised in that comprise:
One thermal source detection device, in order to detect detection data of a determinand, this thermal source detection device comprises:
One visible image acquisition unit, in order to capture a visible image of this determinand using as these detection data;
One thermal imagery sensing unit, in order to capture by should the heat distribution image that formed of multiple temperature datas of determinand
Using as these detection data;And
One communication device, in order to transmit this detection data;
One mobile device, itself and the detection device communication connection of this thermal source, in order to receive this detection number that this communication device is transmitted
According to, and it comprises:
One display, in order to show this detection data;And
One processing unit, it is electrically connected with this display, and it comprises:
One identification unit, it is in order to these detection data of identification, to produce a current signature, and this identification unit comparison this is the most special
Levy and a deviation between a history feature of this determinand, to export an identification signal;And
One control unit, it is electrically connected with this identification unit, and it is in order to according to this identification signal, transmit these detection data with
And this current signature at least one;And
One server, communicates to connect with this mobile device, its these detection data transmitted in order to receive this mobile device and
This current signature at least one, and stored and processed.
2. thermal source detecting system as claimed in claim 1, it is characterised in that this current signature comprises should in this visible image
One pattern of determinand, a profile or a characteristic point.
3. thermal source detecting system as claimed in claim 1, it is characterised in that this identification unit, more according to this deviation, shows
Displacement is instructed on this display of this mobile device, and wherein, this deviation comprises the phase between this current signature with this history feature
Distance difference to position.
4. thermal source detecting system as claimed in claim 1, it is characterised in that this mobile device further includes a sensing element, uses
To sense the RFID tag corresponding to this determinand or a near field communication tag, to obtain an article information, wherein, should
Article information comprises should an identification code of determinand.
5. thermal source detecting system as claimed in claim 1, it is characterised in that this thermal source detection device further includes a sensing
Part, in order to sense the RFID tag corresponding to this determinand or a near field communication tag, to obtain an article information, its
In, this article information comprises should an identification code of determinand.
6. thermal source detecting system as claimed in claim 5, it is characterised in that this server comprises a data processing unit, uses
To receive this article information, and according to this identification code by these corresponding with this identification code for this identification code detection data and current
At least one classified storage of feature is in data storage element.
7. thermal source detecting system as claimed in claim 6, it is characterised in that this data processing unit is analyzed according to this identification code
In these detection data that different time points is received, to produce a temperature detection form.
8. thermal source detecting system as claimed in claim 1, it is characterised in that this server comprises an abnormality processing module, its
Determine an abnormal signal according to the temperature variation between this temperature data and a threshold value and be back to this mobile device, with alert by one
Show that message is shown in this display.
9. thermal source detecting system as claimed in claim 1, it is characterised in that this mobile device comprises an abnormality processing module,
One alert messages, according to the temperature variation between this temperature data and a threshold value, is shown in this display by it.
10. thermal source detects a device, and it forms a thermal source detecting system with a mobile device and a server, and this moves dress
Put with this thermal source detection device communicate to connect and transmit detection data and a current signature at least one to this service
Device, this mobile device comprises a display and a processing unit, it is characterised in that this display is in order to show this detection number
According to, this processing unit comprises an identification unit and a control unit, and this thermal source detection device comprises:
One visible image acquisition unit, in order to capture a visible image of a determinand using as these detection data;
One thermal imagery sensing unit, in order to capture by should the heat distribution image that formed of multiple temperature datas of determinand
Using as these detection data;And
One communication device, senses unit with this visible image acquisition unit and this thermal imagery and is electrically connected with, and move with this
Device communication link, in order to transmit these detection data to this mobile device,
Wherein this identification unit is in order to these detection data of identification, to produce this current signature, and this identification unit comparison this is current
A deviation between one history feature of feature and this determinand, to export an identification signal to this control unit;This control list
Unit in order to according to this identification signal transmit these detection data and this current signature at least one to this server.
11. thermal source as claimed in claim 10 detection devices, it is characterised in that this current signature comprises in this visible image
One pattern of this determinand, a profile or a characteristic point.
12. thermal source as claimed in claim 10 detection devices, it is characterised in that this identification unit is more according to this deviation, display
One displacement is instructed on this display of this mobile device, and wherein, this deviation comprises between this current signature and this history feature
The distance difference of position relatively.
13. thermal source as claimed in claim 10 detection devices, it is characterised in that this thermal source detection device further includes a sensing
Part, in order to sense the RFID tag corresponding to this determinand or a near field communication tag, to obtain an article information, its
In, this article information comprises should an identification code of determinand.
14. thermal source as claimed in claim 10 detection devices, it is characterised in that this communication device comprises a universal serial bus
Unit.
15. thermal source as claimed in claim 10 detection devices, it is characterised in that this communication device comprises a radio communication list
Unit.
16. thermal source as claimed in claim 10 detection devices, it is characterised in that this server comprises an abnormality processing module,
It determines an abnormal signal according to the temperature variation between this temperature data and a threshold value and is sent to this mobile device, with by one
Alert messages is shown in this display.
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