CN212748062U - Handheld temperature measuring device - Google Patents
Handheld temperature measuring device Download PDFInfo
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- CN212748062U CN212748062U CN202021288399.5U CN202021288399U CN212748062U CN 212748062 U CN212748062 U CN 212748062U CN 202021288399 U CN202021288399 U CN 202021288399U CN 212748062 U CN212748062 U CN 212748062U
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Abstract
The embodiment of the utility model discloses handheld temperature measuring device. The device includes: the device comprises a shell, a scanning module, an infrared temperature measuring module, a data processing module, a transparent transmission module, a storage module, a power supply module, a control module and an antenna, wherein the scanning module, the infrared temperature measuring module, the data processing module, the transparent transmission module, the storage module, the power supply module, the control module and the antenna are arranged in the shell; the input end of the data processing module is connected with the scanning module and the infrared temperature measurement module, and the output end of the data processing module is connected with the transparent transmission module and the storage module; the power supply module is connected with the control module and supplies power to the device through the control module; the control module is respectively connected with the scanning module, the infrared temperature measurement module, the data processing module, the transparent transmission module and the storage module; the antenna is connected with the transparent transmission module. The scanning module is added to identify the equipment information, so that the equipment information and the equipment temperature form association and summary when the temperature of the equipment is measured, and the association and the summary are uploaded to the central control system in time, the problems that the equipment name and the equipment measured temperature cannot be correspondingly stored and cannot be effectively managed are solved, and the effect of accurately and correspondingly storing data is realized.
Description
Technical Field
The embodiment of the utility model provides a relate to equipment detection technique, especially relate to a handheld temperature measuring device.
Background
With the development of 5G, the 5G technology is gradually applied to various industrial fields, for example, temperature measurement needs to be performed on various devices in a factory, and device internet of things has become an essential step for the intelligent development of enterprises.
In the process of temperature measurement in the conventional factory inspection, most inspection personnel distinguish the equipment types according to the prior experience and the nameplates on the equipment, a handheld infrared temperature measuring gun is used for measuring the temperature of the equipment, and the inspection personnel usually judge the state of the equipment according to the own experience.
The problems that the name of the equipment and the temperature measured by the equipment cannot be correspondingly stored, effective data summarization, transmission, management and the like cannot be carried out exist, the equipment is limited by the experience of inspection personnel, and the judgment on the state of the equipment is not necessarily accurate.
SUMMERY OF THE UTILITY MODEL
The utility model provides a handheld temperature measuring device to realize that the accuracy corresponds the save data, in time gather, the effect of conveying and management data.
To achieve the purpose, the utility model adopts the following technical proposal:
a handheld thermometry device comprising: the device comprises a shell, a scanning module, an infrared temperature measuring module, a data processing module, a transparent transmission module, a storage module, a power supply module, a control module and an antenna, wherein the scanning module, the infrared temperature measuring module, the data processing module, the transparent transmission module, the storage module, the power supply module, the control module and the antenna are arranged in the shell;
the scanning module is used for scanning two-dimensional code information on the equipment to be tested to obtain the information of the equipment to be tested;
the infrared temperature measurement module is used for measuring the temperature of the equipment to be measured;
the input end of the data processing module is connected with the scanning module and the infrared temperature measuring module, and the output end of the data processing module is connected with the transparent transmission module and the storage module; the device information and the temperature of the equipment to be tested are correlated and summarized, correlation data and summarized data are stored in the storage module, and meanwhile, the correlation data and the summarized data are uploaded to the central control system through the transparent transmission module and receive feedback data of the central control system;
the power supply module is connected with the control module and supplies power to the device through the control module;
the control module is respectively connected with the scanning module, the infrared temperature measurement module, the data processing module, the transparent transmission module and the storage module, and is used for controlling the working state of each module;
the antenna is connected with the transparent transmission module and used for assisting the transparent transmission module in uploading and receiving data.
Optionally, a button is further disposed on the surface of the casing, and the button is connected to the control module and used for controlling the working state of each module according to the pressing or releasing state of the button.
Optionally, the antenna is a retractable antenna, and a portion of the antenna is located outside the housing when the antenna is extended and completely retracted into the housing when the antenna is retracted.
Optionally, the surface of the shell further comprises a display module, and the display module is used for displaying the information of the device to be tested and the temperature of the device to be tested, and displaying the uploading state of data and the content of receiving feedback data.
Optionally, the button is further used for confirming the feedback data.
Optionally, the associated data and the summarized data generated by the data processing module are in a Modbus communication format.
Optionally, the transparent transmission module adopts a LoRa modulation technology, and the transmission power is 30 dBm.
Optionally, the data transmission distance is 2Km indoors and 10Km outdoors.
Optionally, the power module is a lithium battery.
The utility model discloses through increase scanning module identification equipment information in the temperature measuring device, when measuring the temperature to equipment, equipment information and equipment temperature form to be related and gather, and will keep the storage module in the device; through passing module and antenna in time and uploading to central control system, solve the unable problem of corresponding save and unable effective data summarization, conveying and management of equipment name and equipment measured temperature, realize accurate corresponding save data, in time summarization, conveying and management data to can combine data feedback to make the effect of accurate judgement to equipment running state.
Drawings
Fig. 1 is a schematic structural diagram of a handheld temperature measuring device according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of another handheld temperature measuring device according to an embodiment of the present invention.
Description of the main elements
Scanning module 10
Infrared temperature measurement module 20
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.
Fig. 1 is a schematic structural diagram of a handheld temperature measuring device according to an embodiment of the present invention; fig. 2 is a schematic structural diagram of another handheld temperature measuring device according to an embodiment of the present invention.
As shown in fig. 1, a hand-held thermometry device comprises: the device comprises a shell (not shown), and a scanning module 10, an infrared temperature measuring module 20, a data processing module 30, a transparent transmission module 40, a storage module 50, a power supply module 60, a control module 70 and an antenna 80 which are arranged inside the shell.
The scanning module 10 is configured to scan two-dimensional code information on a device to be tested, and acquire information of the device to be tested.
The infrared temperature measurement module 20 is used for measuring the temperature of the equipment to be measured.
The input end a of the data processing module 30 is connected with the scanning module 10 and the infrared temperature measuring module 20. The output end b of the data processing module 30 is connected with the transparent transmission module 40 and the storage module 50. The data processing module 30 is configured to associate and summarize information of the device to be tested and the temperature of the device to be tested, store associated data and summarized data in the storage module 50, and upload the associated data and summarized data to the central control system and receive feedback data of the central control system through the transparent transmission module 40;
the power module 60 is connected with the control module 70, and supplies power to the device through the control module 70;
the control module 70 is respectively connected to the scanning module 10, the infrared temperature measuring module 20, the data processing module 30, the transparent transmission module 40 and the storage module 50. The control module 70 is used for controlling the working state of each module;
the antenna 80 is connected to the transparent transmission module 40, and is configured to assist the transparent transmission module 40 in uploading and receiving data.
When the inspection personnel inspect, the handheld temperature measuring device is used for measuring the temperature of the equipment. Specifically, the method includes activating a handheld temperature measuring device, so that the scanning module 10 aligns two-dimensional code information on the device to be measured to perform scanning operation, and acquiring information of the device to be measured, such as a device name, a device category, a system to which the device belongs, and the like; after the information of the equipment to be measured is obtained, an infrared temperature measuring module 20 on the handheld temperature measuring device measures the temperature of the equipment to be measured, wherein the infrared temperature measuring module 20 is preferably an infrared temperature measuring sensor; the data processing module 30 receives the information of the device to be tested transmitted by the scanning module 10 and the device temperature transmitted by the infrared temperature measuring module 20, correlates the currently acquired information of the device to be tested with the temperature of the device to be tested, stores the information in the storage module 50, and uploads the information to the central control system in real time through the transparent transmission module 40, wherein the transparent transmission module 40 uploads and receives data through the antenna 80, continues to receive the information of the next group of the device to be tested and the temperature of the device to be tested, and after receiving multiple groups of data, performs summary arrangement and receives the feedback of the central control system; after receiving the uploaded associated information of the equipment to be tested and the temperature of the equipment to be tested, the central control system judges whether the current equipment temperature is within a normal temperature range of the equipment, and if not, sends feedback data to the handheld temperature measuring device for displaying, reminds an inspector that the current equipment temperature is abnormal, and assists the inspector in accurately judging the equipment state; the power module 60 supplies power to the device through the control module 70, and when the control module 70 activates the handheld temperature measuring device, the power module 60 supplies power to the device.
The embodiment of the utility model provides an through increase scanning module identification equipment information in temperature measuring equipment, when measuring the temperature to equipment, equipment information and equipment temperature form to be related and gather, and will keep the storage module in the device; through passing module and antenna in time and uploading to central control system, solve the unable problem of corresponding save and unable effective data summarization, conveying and management of equipment name and equipment measured temperature, realize accurate corresponding save data, in time summarization, conveying and management data to can combine data feedback to make the effect of accurate judgement to equipment running state.
As shown in fig. 2, optionally, a button 90 is further disposed on a surface of the housing 1, and the button 90 is connected to the control module (not shown) for controlling the operating state of each module according to a pressed or released state of the button 90.
Patrol and examine personnel and press when treating equipment and carry out temperature measurement button 90 activates handheld temperature measuring device, loosens after the measurement is accomplished button 90, handheld temperature measuring device gets into standby state.
Optionally, the antenna 80 is a retractable antenna, and a part of the retractable antenna is located outside the housing 1 when the retractable antenna is extended, and the retractable antenna is completely retracted into the housing 1 when the retractable antenna is retracted.
Before the inspection personnel use the handheld temperature measuring device to measure the equipment to be tested, the telescopic antenna is pulled out and stretched, so that data uploading and receiving are facilitated.
Optionally, the surface of the housing 1 further includes a display module 100, and the display module 100 is configured to display the information of the device to be tested and the temperature of the device to be tested, and display the content of the data uploading state and the feedback data receiving.
When the patrol personnel uses the handheld temperature measuring device to scan the two-dimensional code information on the equipment to be tested, the display module 100 displays the information of the equipment to be tested; after the handheld temperature measuring device is used for measuring the temperature of the equipment to be measured, the temperature of the equipment to be measured is displayed on the display module 100; after the data is successfully uploaded to the central control system, the display module 100 displays a character of 'successful data uploading', and the handheld temperature measuring device receives feedback data of the central control system and displays the feedback data on the display module 100.
Optionally, the button 90 is also used for confirming feedback data.
After the central control system feeds back data to the handheld temperature measuring device, the patrol personnel presses the button 90 for confirmation, and if the patrol personnel does not confirm the feedback data, the feedback data repeatedly flickers on the display module 100 for reminding.
Optionally, the associated data and the summarized data generated by the data processing module (not shown) are in a Modbus (Modbus protocol) communication format.
The Modbus communication protocol can be used for completing butt joint with most control systems and the Internet of things system, and real-time transmission during data measurement is achieved.
Optionally, the transparent transmission module (not shown) adopts a Long Range (Long Range, a spread spectrum modulation technique) modulation technique, and the transmission power is 30 dBm.
By using a high spreading factor, the LoRa technique can transmit small volumes of data across a wide range of radio spectrum. One significant advantage of the LoRa modulation is that the modulation scheme and the coding scheme enable the LoRa device to correctly receive two signals transmitted in the same channel in an overlapped manner. The LoRa technology is very suitable for the application of the Internet of things requiring low power consumption, long distance, a large number of connections, positioning and tracking and the like.
Optionally, the data transmission distance is 2Km indoors and 10Km outdoors. Data uploading and feedback data receiving during inspection of an inspector are fully guaranteed.
Optionally, the power module is a lithium battery. Can be repeatedly charged for use.
It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.
Claims (9)
1. A handheld temperature measuring device, comprising: the device comprises a shell, a scanning module, an infrared temperature measuring module, a data processing module, a transparent transmission module, a storage module, a power supply module, a control module and an antenna, wherein the scanning module, the infrared temperature measuring module, the data processing module, the transparent transmission module, the storage module, the power supply module, the control module and the antenna are arranged in the shell;
the scanning module is used for scanning two-dimensional code information on the equipment to be tested to obtain the information of the equipment to be tested;
the infrared temperature measurement module is used for measuring the temperature of the equipment to be measured;
the input end of the data processing module is connected with the scanning module and the infrared temperature measuring module, and the output end of the data processing module is connected with the transparent transmission module and the storage module; the device information and the temperature of the equipment to be tested are correlated and summarized, correlation data and summarized data are stored in the storage module, and meanwhile, the correlation data and the summarized data are uploaded to the central control system through the transparent transmission module and receive feedback data of the central control system;
the power supply module is connected with the control module and supplies power to the device through the control module;
the control module is respectively connected with the scanning module, the infrared temperature measurement module, the data processing module, the transparent transmission module and the storage module, and is used for controlling the working state of each module;
the antenna is connected with the transparent transmission module and used for assisting the transparent transmission module in uploading and receiving data.
2. The handheld temperature measuring device of claim 1, wherein a button is further disposed on the surface of the housing, and the button is connected to the control module, so that the control module controls the operating state of each module according to the pressing or releasing state of the button.
3. The handheld thermometric apparatus of claim 1, wherein the antenna is a retractable antenna, a portion of which is located outside the housing when extended and completely received in the housing when retracted.
4. The handheld temperature measuring device of claim 1, wherein the surface of the housing further comprises a display module, and the display module is configured to display information of the device under test and a temperature of the device under test, and display a data uploading state and receive contents of feedback data.
5. The handheld thermometric device of claim 2, wherein the button is further configured to confirm the feedback data.
6. The handheld temperature measuring device of claim 1, wherein the associated data and the summarized data generated by the data processing module are in a Modbus communication format.
7. The handheld temperature measuring device of claim 1, wherein the transparent transmission module adopts a LoRa modulation technology, and the transmission power is 30 dBm.
8. The handheld temperature measuring device of claim 1, wherein the data transmission distance is 2Km indoors and 10Km outdoors.
9. The handheld temperature measuring device of claim 1, wherein the power module is a lithium battery.
Priority Applications (1)
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CN202021288399.5U CN212748062U (en) | 2020-07-02 | 2020-07-02 | Handheld temperature measuring device |
Applications Claiming Priority (1)
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CN202021288399.5U CN212748062U (en) | 2020-07-02 | 2020-07-02 | Handheld temperature measuring device |
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CN212748062U true CN212748062U (en) | 2021-03-19 |
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CN202021288399.5U Active CN212748062U (en) | 2020-07-02 | 2020-07-02 | Handheld temperature measuring device |
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