CN214260064U - Portable disinfection temperature measuring device and communication system - Google Patents

Abstract

The utility model is used for the disinfecting equipment field, concretely relates to portable disinfection temperature measuring device and communication system. The utility model provides a portable disinfection temperature measuring device, includes disinfection light source, temperature sensing module and main control unit, the main control unit is connected with disinfection light source and temperature sensing module respectively, the main control unit control disinfection light source produces the disinfection light beam, and acquires the temperature data that temperature sensing module detected. The beneficial effects of the utility model reside in that, compared with the prior art, the utility model discloses a design a portable disinfection temperature measuring device and communication system, on the one hand in the miniaturized design of disinfection light source, conveniently carry, be suitable for various scenes, on the other hand combines disinfection and temperature measurement, provides very big facility, better protection user does not receive the infringement of virus and bacterium, collects disinfection and temperature measurement as an organic whole, portable really satisfies the demand of disinfection, temperature measurement of travel, commute, public area anytime and anywhere.

Description

Portable disinfection temperature measuring device and communication system

Technical Field

The utility model provides a disinfecting equipment field, concretely relates to portable disinfection temperature measuring device and communication system.

Background

Aiming at the virus which is popular in 2020 and is named as COVID-19, how to make self protection and disinfection is always the direction of human exploration. Meanwhile, after the disease occurs, how to identify the infected person through body temperature and other symptoms is also a crucial part in isolating treatment as soon as possible and avoiding secondary transmission and infection.

The viruses causing diseases are smaller than bacteria, cannot be seen and found, but are widely existed in daily life of people, elevator keys, mobile phone shells and even cups for drinking water are everywhere, so that people and animals are ill and even killed.

With the development of modern medicine, specific preventive measures are now known to control the viral damage, for example by vaccination. However, the details of life, and more so the key to defending against viruses, are the first gateway, especially in the face of unknown viruses, and especially when no vaccine is available, sterilization is a very important link.

However, various disinfection products on the market generally have some problems: the product has large volume, is only suitable for being placed at a fixed position at home for disinfection, is inconvenient to carry and cannot be conveniently carried; the power consumption is large, and the battery can be used only by plugging in power or needs to be charged frequently; ozone and other gases which damage the human body are generated to damage the human body; or the bactericidal power is weak and is not enough to kill the bacteria and viruses really; the function is single, and the preference of a user is difficult to grasp.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to the above-mentioned defect of prior art, provide a portable disinfection temperature measuring device and communication system, solve the various shortcoming problems of various disinfection products on the present market.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a portable disinfection temperature measuring device, including disinfection light source, temperature sensing module and main control unit, the main control unit is connected with disinfection light source and temperature sensing module respectively, the main control unit control disinfection light source produces the disinfection light beam, and acquires the temperature data that temperature sensing module detected.

Wherein, the preferred scheme is: the portable disinfection temperature measuring device comprises a main control unit, a disinfection light source, a deep ultraviolet LED light source, a constant current driving module and a portable disinfection temperature measuring device, wherein the disinfection light source is the deep ultraviolet LED light source, the constant current driving module is respectively connected with the main control unit and the deep ultraviolet LED light source, and the main control unit drives the deep ultraviolet LED light source to work through the constant current driving module.

Wherein, the preferred scheme is: the deep ultraviolet LED light source is a UVC light emitting diode to generate short-wave sterilization deep ultraviolet with the wavelength of 200-275 nm.

Wherein, the preferred scheme is: the temperature sensing module comprises a thermistor; the thermistor comprises a thermistor body, a main control unit and a temperature control unit, wherein the thermistor is an NTC negative temperature coefficient thermistor with the resistance value becoming smaller along with the temperature rise, the main control unit comprises a storage module which stores a resistance value thermometer reflecting the relation between the resistance value and the temperature, and the main control unit obtains the actual temperature value according to the resistance value data of the resistance value thermometer and the NTC negative temperature coefficient thermistor.

Wherein, the preferred scheme is: the portable disinfection temperature measuring device also comprises a wireless transmission unit which can establish a communication link with external wireless equipment, and the main control unit interacts with the external wireless equipment through the communication link of the wireless transmission unit.

Wherein, the preferred scheme is: the master control unit and the wireless transmission unit are integrated into a master control MCU; the master control MCU is a low power consumption Bluetooth SOC.

Wherein, the preferred scheme is: the portable disinfection temperature measuring device further comprises a shell, a circuit board and a switch, components constituting a control unit are arranged on the circuit board, the switch is arranged on the shell and connected with the circuit board to control the disinfection light source and the temperature sensing module to be opened through the main control unit, the disinfection light source and the temperature sensing module are both connected with the circuit board, the disinfection light beam of the disinfection light source is emitted to the outer side of the shell, and the temperature sensing module acquires temperature data of the outer side of the shell.

Wherein, the preferred scheme is: the disinfection light source or the temperature sensing module is fixed on the circuit board and protrudes out of the shell through the hollow structure of the shell; or the disinfection light source or the temperature sensing module is fixed on the circuit board, the disinfection light beam of the disinfection light source penetrates through the hollow structure of the shell to be emitted outwards, and the temperature sensing module penetrates through the hollow structure of the shell to acquire temperature data outside the shell; or the disinfection light source or the temperature sensing module is fixed on the shell.

Wherein, the preferred scheme is: the shell comprises a handheld part, the temperature sensing module is arranged at the end part of the shell, and the at least one disinfection light source is arranged on one side surface of the shell; wherein the switch is arranged on the opposite side of the disinfection light source.

Wherein, the preferred scheme is: the switch is toggle switch, toggle switch is equipped with three gear, the gear is including shutting down the gear, disinfection light source opens gear and temperature detection gear.

The utility model provides a technical scheme that its technical problem adopted is: the communication system of the portable disinfection temperature measuring device comprises the portable disinfection temperature measuring device and terminal equipment, the portable disinfection temperature measuring device further comprises a wireless transmission unit, the terminal equipment and the wireless transmission unit establish a communication link, work information or/and user use information of the portable disinfection temperature measuring device is obtained, and the portable disinfection temperature measuring device is processed, configured or controlled; or, communication system includes portable disinfection temperature measuring device, terminal equipment and high in the clouds server, portable disinfection temperature measuring device still includes wireless transmission unit, terminal equipment and wireless transmission unit establish communication link, acquire portable disinfection temperature measuring device's work information or/and user's use information, high in the clouds server and terminal equipment remote connection, terminal equipment uploads to high in the clouds server with the work information or/and the user's use information who acquires. .

The beneficial effects of the utility model reside in that, compared with the prior art, the utility model discloses a design a portable disinfection temperature measuring device and communication system, on the one hand in the miniaturized design of disinfection light source, conveniently carry, be suitable for various scenes, on the other hand, combine disinfection and temperature measurement, great convenience is provided, better protection user does not receive the infringement of virus and bacterium, collect disinfection and temperature measurement as an organic whole, and convenient to carry really satisfies the travel, commute, the disinfection of public area anytime and anywhere, the demand of temperature measurement, and a tractor serves several purposes, in disinfection, can also possess the temperature measurement function, make things convenient for the consumer to use.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

FIG. 1 is a schematic structural view of the portable disinfection temperature measuring device of the present invention;

FIG. 2 is a schematic structural view of the disinfection light source and the constant current driving module of the present invention;

fig. 3 is a schematic structural diagram of the wireless transmission unit of the present invention;

FIG. 4 is a schematic structural diagram of a first embodiment of the communication system of the portable disinfection temperature measuring device of the present invention;

FIG. 5 is a schematic structural diagram of a second embodiment of the communication system of the portable sterilization temperature measurement device of the present invention;

FIG. 6 is a schematic view of the front three-dimensional structure of the portable disinfection temperature measuring device of the present invention;

fig. 7 is a schematic view of the back three-dimensional structure of the portable disinfection temperature measuring device of the present invention.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the utility model provides a preferred embodiment of a portable disinfection temperature measuring device.

The utility model provides a portable disinfection temperature measuring device, includes disinfection light source 100, temperature sensing module 200 and main control unit 300, main control unit 300 is connected with disinfection light source 100 and temperature sensing module 200 respectively, main control unit 300 control disinfection light source 100 produces the disinfection light beam, and acquires the temperature data that temperature sensing module 200 detected.

Specifically, the portable disinfection temperature measuring device further comprises a power source 410, preferably a lithium battery, and the main control unit 300 can control the disinfection light source 100 to be conducted and started with the power source 410, generate and emit a disinfection light beam, so as to realize disinfection and sterilization operations; and the main control unit 300 may control the temperature sensing module 200 to perform detection, and acquire the detected temperature data, or acquire a corresponding temperature value through the temperature data according to an internal algorithm. On the one hand is in the miniaturized design of disinfection light source 100, conveniently carry, be suitable for various scenes, on the other hand, combine disinfection and temperature measurement, great convenience is provided, better protection user does not receive the infringement of virus and bacterium, collect disinfection and temperature measurement as an organic whole, portable really satisfies the difference travel, the commute, public area disinfection anytime and anywhere, the demand of temperature measurement, and a tractor serves several purposes, in disinfection, can also possess the temperature measurement function, make things convenient for the consumer to use.

The main control unit 300 is preferably an MCU, and controls the disinfection light source 100 and the temperature sensing module 200 to be turned on and off according to a preset control program or an external control signal, and records the time and frequency of turning on and off and the detected temperature data, and performs data summarization to form basic information and record of operation. A Micro Control Unit (MCU), also called a Single Chip Microcomputer (Single Chip Microcomputer) or a Single Chip Microcomputer (MCU), is a Chip-level computer formed by appropriately reducing the frequency and specification of a Central Processing Unit (CPU) and integrating peripheral interfaces such as a memory, a counter (Timer), a USB, an a/D converter, a UART, a PLC, a DMA, etc., and even an LCD driving circuit on a Single Chip, and performing different combination control for different applications. Of course, the control unit 300 may be configured as a module (including a logic circuit or MUC and its peripheral circuits) to control the operation of the disinfection light source 100 and the temperature sensing module 200 respectively; alternatively, the control unit 300 may be configured as two independently operable modules (including a logic circuit or MUC and its peripheral circuit) for respectively controlling the operation of the disinfection light source 100 and the temperature sensing module 200; the above-mentioned module can be an integrated package structure, and also can be an integrated circuit board structure, and also can be other integrated form structures, of course, as long as the structure that can realize control, it is the distributed design or external design all belong to the utility model discloses a protection scope.

Portable disinfection temperature measuring device still includes power 410 management circuit 420 with lithium cell connection for carry out charge-discharge management to the lithium cell, ensure that portable disinfection temperature measuring device uses and the person is complete, when the lithium cell low-power, main control unit 300 can carry out the low battery suggestion (the scintillation or the colour change of the LED lamp through setting up show the lithium cell electric quantity condition), and the user can connect power 410 adapter, charges to the product.

As shown in fig. 2, the present invention provides a preferred embodiment of the disinfection light source and the constant current driving module.

The portable disinfection temperature measuring device comprises a disinfection light source 100, a constant current driving module 500, a main control unit 300 and a deep ultraviolet LED light source, wherein the disinfection light source 100 is the deep ultraviolet LED light source, the constant current driving module 500 is respectively connected with the deep ultraviolet LED light source and the main control unit 300, the main control unit 300 drives the deep ultraviolet LED light source to work through the constant current driving module 500, high-efficiency sterilization is achieved, and the sterilization and disinfection effects are strong.

The deep ultraviolet generated by the deep ultraviolet LED light source can be divided into four regions according to different wavelengths, wherein short-wave deep ultraviolet is UVC for short, the wavelength is 200-280 nm, medium-wave deep ultraviolet is UVB for short, the wavelength is 280-320 nm, long-wave deep ultraviolet is UVA for short, the wavelength is 320-400 nm, vacuum deep ultraviolet is UVD for short, and the wave band wavelength is 100-200 nm. The deep ultraviolet LED light source in this embodiment is preferably a UVC light emitting diode to generate short-wave sterilizing deep ultraviolet light at a wavelength of 200 to 275nm, preferably a wavelength of 254nm, which is relatively strong in sterilizing power, or a strong sterilizing wavelength of 275nm, which coincides with the deep ultraviolet absorption and photochemical sensitivity range of deoxyribonucleic acid in the microbial cell nucleus. Further, through sterilization of the deep ultraviolet LED light source, normally, the sterilization rate of 99% to 99.9% can be achieved by means of 1-2 seconds of correlation, high-efficiency sterilization is achieved, safety and reliability are achieved, and sterilization can be achieved by means of direct injection of 10s to the articles to be sterilized or by means of 5 times of back-and-forth transverse scanning at constant speed; and no secondary pollution is caused, no chemical agent is added in the deep ultraviolet sterilization, no secondary pollution is caused to water and the surrounding environment, and no component is changed.

The constant current driving module 500 is respectively connected with the power supply 410 and the deep ultraviolet LED light source (of course, the power supply 410 can also be indirectly transmitted to the constant current driving module 500 through the main control unit 300, and the main control unit 300 serves as a transmission bridge), so that constant current electric energy is provided for the deep ultraviolet LED light source, the short-wave ultra-deep ultraviolet can be stably and efficiently emitted, and bacteria and viruses can be efficiently killed; and, after completing the operation, the path of the deep ultraviolet LED light source and the power source 410 is cut off by the main control unit 300 or by the constant current driving module 500, ensuring a low power consumption state. The important point is that the constant current driving module 500 is implemented by matching the output signal of the main control unit 300 with the constant current driving circuit or the constant current driving circuit, and the output current is constant.

In the present invention, a preferred embodiment of the temperature sensing module 200 is provided.

The temperature sensing module 200 includes a thermistor; the thermistor is an NTC negative temperature coefficient thermistor with a resistance value which becomes smaller as the temperature rises, the main control unit 300 includes a storage module in which a resistance value thermometer reflecting the relationship between the resistance value and the temperature is stored, and the main control unit 300 obtains an actual temperature value according to the resistance value thermometer and the resistance value data of the NTC negative temperature coefficient thermistor to reflect the temperature of the currently detected human body.

On one hand, the corresponding temperature is obtained through table lookup and calculation (resistance temperature lookup table) according to the resistance value change of the thermistor, the efficiency is high, the accuracy is high, and the overall structure is simple; on the other hand, the thermistor measures the temperature based on the thermal effect of the resistor, namely the characteristic that the resistance value of the resistor changes along with the change of the temperature, particularly the characteristic of the NTC negative temperature coefficient thermistor is utilized, the resistance value becomes smaller along with the rise of the temperature, the software compensation algorithm arranged in the main control unit 300 is matched, the realization precision is higher, and if the main control unit 300 is an MCU, the working frequency is high enough, and the good temperature measurement precision can be obtained by combining the stable and reliable algorithm.

Furthermore, the portable disinfection temperature measuring device should also be provided with an indicator light or a display screen, the temperature is displayed through the display screen, so that a user can check the temperature data in time, namely the temperature data reflected by the current thermistor is obtained through the main control unit 300, and then the display screen is controlled to display the corresponding numerical value; or, different temperature ranges are set, including at least a normal temperature range and an abnormal temperature range, and the main control unit 300 determines the range after acquiring the temperature data reflected by the current thermistor, and controls the on/off or on color of the indicator light according to the range, such as a normal temperature range of green light, indicating that the temperature is normal, and an abnormal temperature range of red light, indicating that the temperature is abnormal.

As shown in fig. 3, the present invention provides a preferred embodiment of a wireless transmission unit.

The portable disinfection temperature measuring device further comprises a wireless transmission unit 600 capable of establishing a communication link with an external wireless device 700, and the main control unit 300 interacts with the external wireless device 700 through the communication link of the wireless transmission unit 600. The interactive representation main control unit 300 acquires work information or/and user use information of the portable disinfection temperature measuring device, such as temperature measuring data, disinfection use times and other work information, and uploads the work information or/and the user use information to the external wireless device 700, where the work information or/and the user use information include work time, work frequency, work duration and the like of the disinfection light source 100, temperature data collected by the temperature sensing module 200, normal and abnormal proportions and the like, and further include residual capacity, charging frequency, charging time and the like of the power supply 410; the interaction also means control information sent by the external wireless device 700 to the main control unit 300, such as updating software, resetting, re-collecting work information or/and user usage information, self-checking control, configuring disinfection timeout time, etc.

Preferably, the wireless transmission unit 600 is a bluetooth communication module, preferably a low power consumption bluetooth communication module, and the external wireless device 700 is a terminal device with a wireless connection function, such as a mobile phone and a gateway; for example, the main control unit 300 is connected to the mobile phone through a bluetooth communication module, and is connected to the cloud server through the mobile phone as a bridge to perform interaction, for example, the main control unit 300 uploads the work information or/and the user use information to the mobile phone for local storage, or uploads the work information and/or the user use information to the cloud server for cloud storage, and the mobile phone can send a control command to the main control unit 300, or the cloud server sends a control command to the main control unit 300. For another example, the body temperature data can be effectively monitored for a long time by checking the current and previous measured specific temperature data through a mobile phone APP or an applet.

Or, the main control unit 300 and the wireless transmission unit 600 are integrated into a main control MCU, that is, the main control MCU is a low power consumption bluetooth SOC, which can realize data acquisition, sorting, analysis and processing, and can also perform bluetooth wireless transmission of data. Preferably, the low-power-consumption Bluetooth SOC adopting the Bluetooth 5.0 technology realizes low-power-consumption work and has strong applicability.

In this embodiment, with reference to fig. 4 and 5, a communication system of a portable disinfection temperature measuring device is provided, where the communication system includes a portable disinfection temperature measuring device 810, a terminal device 820 and a cloud server 830, the portable disinfection temperature measuring device 810 further includes a wireless transmission unit 811, the terminal device 820 and the wireless transmission unit 811 establish a communication link to obtain work information or/and user use information of the portable disinfection temperature measuring device 810, the cloud server 830 is remotely connected to the terminal device 820, and the terminal device 820 uploads the obtained work information or/and user use information to the cloud server 830; or, the cloud server 830 configures or controls the portable disinfection temperature measurement device 810 through the terminal device 820, or the terminal device 820 directly configures or controls the portable disinfection temperature measurement device 810. Uploading the temperature change and the data of whether to disinfect in time to the cloud server 830; and at the server side, the data is further analyzed, the user can be guided in a targeted manner, the disinfection duration can be set, and intelligent control is realized.

Specifically, two sets of schemes are provided, in the first scheme, the terminal device 820 can realize data acquisition, display, processing, parameter configuration, control of the portable disinfection and temperature measurement device 810 and other operations, such as a mobile phone, and one-to-one control of the terminal device 820 and the portable disinfection and temperature measurement device 810 is realized; in the second scheme, the terminal device 820 serves as an intermediate bridge, the cloud server 830 can achieve data acquisition through the terminal device 820, and the data are processed, parameters are configured, the portable disinfection and temperature measurement device 810 is controlled, and the mode of summarizing, controlling and processing big data is achieved.

The terminal device 820 is essentially the external wireless device 700 described above.

As shown in figures 6 and 7, the present invention provides a preferred embodiment of a portable sterilization temperature measuring device.

The portable disinfection temperature measuring device further comprises a shell 910 and a switch 920, the disinfection light source 100 and the temperature sensing module 200 are both arranged on the shell 910, and the switch 920 is connected with the main control unit 300 to control the disinfection light source 100 and the temperature sensing module 200 to be turned on through the main control unit 300.

The portable disinfection temperature measuring device further comprises a shell 910, a circuit board (not shown) and a switch 920, components constituting the control unit 300 are arranged on the circuit board, the switch 920 is arranged on the shell 910 and connected with the circuit board to control the disinfection light source 100 and the temperature sensing module 200 to be opened through the main control unit 300, the disinfection light source 100 and the temperature sensing module 200 are both connected with the circuit board, the disinfection light beam of the disinfection light source 100 is emitted to the outer side of the shell 910, and the temperature sensing module 200 acquires temperature data outside the shell 910.

Specifically, the housing 910 includes a hand-held portion, the temperature sensing module 200 is disposed at an end portion of the housing 910, preferably at an end portion of a non-hand-held portion, at least one of the disinfection light sources 100 is disposed at one side of the housing 910, and the switch 920 is disposed at an opposite side of the disinfection light source 100. A plurality of disinfection light sources 100, for example, four UVC light emitting diodes arranged side by side at intervals, are vertically arranged on the surface of the housing 910 forming a concave plane, and when the disinfection mode is turned on by the switch 920, the four UVC light emitting diodes all emit deep ultraviolet rays forward, and may have a certain diffusion angle, so that the irradiated area is covered by the deep ultraviolet rays. The appearance design of the shell 910 is similar to that of a common pen, one part is a handheld part, the other part is provided with a cover to cover and protect the disinfection light source 100 and the temperature sensing module 200, the shell can be carried out and can be easily put in a clothes pocket or a bag, the use scene is wide, the size is small, the weight is light, and the user experience is improved.

The disinfection light source or the temperature sensing module is fixed on the circuit board and protrudes outside the shell 910 through the hollow structure of the shell 910; or the disinfection light source or the temperature sensing module is fixed on the circuit board, the disinfection light beam of the disinfection light source penetrates through the hollow structure of the shell 910 to be emitted outwards, and the temperature sensing module penetrates through the hollow structure of the shell 910 to obtain temperature data outside the shell 910; alternatively, the disinfection light source or the temperature sensing module is fixed on the housing 910.

The switch 920 is a toggle switch 920, and the toggle switch 920 is provided with three gears, wherein the gears include a shutdown gear, a disinfection light source 100 startup gear and a temperature detection gear; preferably, the shutdown gear, the disinfection light source 100 start gear and the temperature detection gear are sequentially arranged, the toggle switch 920 is pushed from the shutdown gear to the disinfection light source 100 start gear, and then pushed from the disinfection light source 100 start gear to the temperature detection gear, or vice versa, when the toggle switch 920 is in the shutdown gear, the main control unit 300 is in the shutdown state or the sleep state, when the toggle switch 920 is in the disinfection light source 100 start gear, the main control unit 300 controls the disinfection light source 100 to work, that is, the plurality of UVC light emitting diodes simultaneously emit light to perform sterilization operation, when the toggle switch 920 is in the temperature detection gear, the main control unit 300 controls the disinfection light source 100 to be turned off, and controls the temperature sensing module to work, so as to obtain the temperature data in front, specifically the temperature data of the human body in front; preferably, when the toggle switch 920 is directly pushed from the shutdown gear to the temperature detection gear or pushed from the temperature detection gear to the shutdown gear, although the disinfection light source 100 is turned on, the disinfection light source 100 is not triggered to be turned on, a delay circuit may be provided to delay the trigger signal to the main control unit 300 when the toggle switch 920 is in the disinfection light source 100 on gear, or a delay trigger command is provided in the main control unit 300, and when a trigger disinfection mode is received, the disinfection light source 100 is controlled to be turned on in a delayed manner.

Of course, the switch 920 may also be provided with a plurality of switches, which are respectively a shutdown key, a disinfection light source 100 startup key and a temperature detection key, so as to implement corresponding functions.

In this embodiment, the housing 910 further includes a charging interface to charge a lithium battery in the housing 910.

The utility model discloses can realize real portable, integrated temperature measurement and disinfection function two unifications to can carry out radio communication through the bluetooth low energy with smart mobile phone, can all look over information such as temperature data, disinfection data through the cell-phone, and can dispose through the cell-phone.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the scope of the present invention, which is intended to cover all equivalent changes and modifications made within the scope of the present invention.

Claims (11)

1. The utility model provides a portable disinfection temperature measuring device, its characterized in that, includes disinfection light source, temperature sensing module and main control unit, the main control unit is connected with disinfection light source and temperature sensing module respectively, the main control unit control disinfection light source produces the disinfection light beam, and acquires the temperature data that temperature sensing module detected.

2. The portable sterilization thermometric device of claim 1, wherein: the portable disinfection temperature measuring device comprises a main control unit, a disinfection light source, a deep ultraviolet LED light source, a constant current driving module and a portable disinfection temperature measuring device, wherein the disinfection light source is the deep ultraviolet LED light source, the constant current driving module is respectively connected with the main control unit and the deep ultraviolet LED light source, and the main control unit drives the deep ultraviolet LED light source to work through the constant current driving module.

3. The portable sterilization thermometric device of claim 2, wherein: the deep ultraviolet LED light source is a UVC light emitting diode to generate short-wave sterilization deep ultraviolet with the wavelength of 200-275 nm.

4. The portable sterilization thermometric device of claim 1, wherein: the temperature sensing module comprises a thermistor; the thermistor comprises a thermistor body, a main control unit and a temperature control unit, wherein the thermistor is an NTC negative temperature coefficient thermistor with the resistance value becoming smaller along with the temperature rise, the main control unit comprises a storage module which stores a resistance value thermometer reflecting the relation between the resistance value and the temperature, and the main control unit obtains the actual temperature value according to the resistance value data of the resistance value thermometer and the NTC negative temperature coefficient thermistor.

5. The portable sterilization thermometric device of claim 1, wherein: the portable disinfection temperature measuring device also comprises a wireless transmission unit which can establish a communication link with external wireless equipment, and the main control unit interacts with the external wireless equipment through the communication link of the wireless transmission unit.

6. The portable sterilization thermometric device of claim 5, wherein: the master control unit and the wireless transmission unit are integrated into a master control MCU; the master control MCU is a low power consumption Bluetooth SOC.

7. The portable sterilization thermometric device of claim 1, wherein: the portable disinfection temperature measuring device further comprises a shell, a circuit board and a switch, components constituting a control unit are arranged on the circuit board, the switch is arranged on the shell and connected with the circuit board to control the disinfection light source and the temperature sensing module to be opened through the main control unit, the disinfection light source and the temperature sensing module are both connected with the circuit board, the disinfection light beam of the disinfection light source is emitted to the outer side of the shell, and the temperature sensing module acquires temperature data of the outer side of the shell.

8. The portable sterilization thermometric device of claim 7, wherein: the disinfection light source or the temperature sensing module is fixed on the circuit board and protrudes out of the shell through the hollow structure of the shell; or the disinfection light source or the temperature sensing module is fixed on the circuit board, the disinfection light beam of the disinfection light source penetrates through the hollow structure of the shell to be emitted outwards, and the temperature sensing module penetrates through the hollow structure of the shell to acquire temperature data outside the shell; or the disinfection light source or the temperature sensing module is fixed on the shell.

9. The portable sterilization thermometric apparatus of claim 7 or 8, wherein: the shell comprises a handheld part, the temperature sensing module is arranged at the end part of the shell, and the at least one disinfection light source is arranged on one side surface of the shell; wherein the switch is arranged on the opposite side of the disinfection light source.

10. The portable sterilization thermometric apparatus of claim 7 or 8, wherein: the switch is toggle switch, toggle switch is equipped with three gear, the gear is including shutting down the gear, disinfection light source opens gear and temperature detection gear.

11. A communication system of a portable disinfection temperature measuring device, wherein the communication system comprises the portable disinfection temperature measuring device as claimed in any one of claims 1 to 10 and a terminal device, the portable disinfection temperature measuring device further comprises a wireless transmission unit, the terminal device establishes a communication link with the wireless transmission unit, obtains working information or/and user use information of the portable disinfection temperature measuring device, and processes, configures or controls the portable disinfection temperature measuring device;

or, the communication system includes the portable disinfection temperature measuring device according to any one of claims 1 to 10, a terminal device, and a cloud server, the portable disinfection temperature measuring device further includes a wireless transmission unit, the terminal device establishes a communication link with the wireless transmission unit to obtain work information or/and user use information of the portable disinfection temperature measuring device, the cloud server is remotely connected with the terminal device, and the terminal device uploads the obtained work information or/and user use information to the cloud server.

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