CN216621475U - Quick temperature measurement block terminal based on cloud platform - Google Patents

Abstract

The utility model discloses a rapid temperature measurement distribution box based on a cloud platform, which comprises a box body and a shell, and is also provided with a temperature measurement module and a display control module, wherein the temperature measurement module and the display control module are arranged on the box body, the temperature measurement module and the display control module are both connected with a power supply device, the power supply module is used for supplying power for the temperature measurement module, the display control module and a communication module, the temperature measurement module comprises an infrared thermal imaging sensor and an ultrasonic distance measurement device, the infrared thermal imaging sensor and the ultrasonic distance measurement device are arranged on the front surface of the shell of the distribution box, the display control module comprises a liquid crystal touch screen, the liquid crystal touch screen is arranged at the front side position of the box body, the ultrasonic distance measurement and infrared thermal imaging sensor are electrically connected with the liquid crystal touch screen, a rapid temperature measurement structure is arranged on a household distribution box, and the household distribution box is used as a carrier, and the cloud platform is combined to measure the body temperature of the user in real time and upload data through the communication module in time.

Description

Quick temperature measurement block terminal based on cloud platform

Technical Field

The utility model belongs to the technical field of infrared thermal imaging temperature measurement, and particularly relates to a rapid temperature measurement distribution box based on a cloud platform.

Background

At present, in the post epidemic situation era, based on the condition of re-work and re-production, each person is required to report own body temperature data in time every day at home. Most people usually use a thermometer and a thermometer to measure the body temperature and then report the body temperature by a mobile phone. Therefore, data obtained by the influence of environmental temperature such as the influence of indoor air conditioners and the influence of measured distances are inaccurate, and data failure can be caused by the fact that data are not uploaded timely due to low speed.

Disclosure of Invention

In order to achieve the purpose, the technical scheme of the utility model is as follows: quick temperature measurement block terminal based on cloud platform, the block terminal includes box and shell, and the block terminal still is provided with temperature measurement module and display control module, and temperature measurement module and display control module set up on the box, and power supply unit is all connected with display control module to temperature measurement module, power module for supply power for temperature measurement module, display control module and communication module.

The temperature measuring module comprises an infrared thermal imaging sensor and an ultrasonic ranging device which are arranged on the upper side of the front surface of the shell of the distribution box,

the display control module comprises a liquid crystal touch screen, the liquid crystal touch screen is arranged at the front side of the box body, the ultrasonic ranging and infrared thermal imaging sensor is electrically connected with the liquid crystal touch screen, the liquid crystal touch screen is a color liquid crystal touch screen and is used for user operation and displaying body temperature data measured by the temperature measurement module, and the storage control module is used for storing data information measured by the temperature measurement module and controlling whether the data is uploaded or not.

Based on above-mentioned scheme, this scheme is through setting up quick temperature measurement structure on domestic block terminal to domestic block terminal is the carrier, and combines together real-time measurement user's body temperature and in time uploads data through communication module with the cloud platform, and communication module adopts at least one in 4G communication or the wiFi, all communicable between block terminal and other equipment in this scheme.

As an improvement of the utility model, the infrared thermal imaging sensor is electrically connected with the STC8A single chip microcomputer, and the STC8A single chip microcomputer is connected with the liquid crystal touch screen through an RS485 interface.

Based on the scheme, the infrared thermal imaging sensor is used for acquiring human body temperature data in real time.

As a modification of the present invention, the ultrasonic module employs an HC-SR04 module.

Based on the scheme, the ultrasonic ranging device is used for measuring the distance between the device and a human body measurement part, the data transmission module is used for transmitting temperature information and ultrasonic ranging information measured by the infrared thermal imaging sensor to the operation processing module in real time, and the operation processing module is used for eliminating the influence of the distance on body temperature detection according to a set temperature compensation method.

The working principle of the ultrasonic ranging module is that the module automatically sends square waves by utilizing triggering ranging, whether signals return or not is detected, if the signals return, high level is output to further obtain a measured distance, corresponding temperature values of infrared radiation energy attenuation caused by the distance are calculated, and the influence of the environment temperature and the distance on human body temperature detection is eliminated according to a temperature compensation method.

As an improvement of the utility model, the infrared thermal imaging sensor adopts an AMGG8833 sensor.

As an improvement of the utility model, the color liquid crystal display touch screen is also provided with a circuit switch display structure, and further comprises a communication condition display area and a body temperature data and temperature measurement distance display area.

As an improvement of the utility model, the upper parts of the infrared thermal imaging sensor and the ultrasonic distance measuring device are provided with a protection structure for preventing dust.

Based on above-mentioned scheme, protection architecture can set up to the shielding plate for sheltering from the dust for infrared thermal imaging sensor and ultrasonic ranging device, can keep testing arrangement's cleanness, improves and detects the accuracy, prevents to glue on infrared thermal imaging sensor and the ultrasonic ranging device that the ash leads to unable normal detection or detects inaccurately.

The utility model has the beneficial effects that: according to the scheme, the rapid temperature measurement structure is arranged on the household distribution box, the household distribution box is used as a carrier, the household distribution box is combined with the cloud platform to measure the body temperature of the user in real time, and data are uploaded through the communication module in time, so that the body temperature can be measured in real time, and the convenience of body temperature measurement is greatly improved; the dustproof protection structure arranged on the box body can keep the test device clean, and the detection accuracy is improved.

Drawings

Fig. 1 is a schematic structural view of a distribution box according to the present invention.

Fig. 2 is a block diagram of the present invention.

List of reference symbols: the device comprises 1-an ultrasonic ranging device, 2-an infrared thermal imaging sensor, 3-a protection structure and 4-a liquid crystal touch screen.

Detailed Description

The present invention will be further illustrated with reference to the accompanying figures 1-2 and the following detailed description, which should be understood to be illustrative only and not to limit the scope of the utility model.

Example (b): referring to fig. 1 and 2, quick temperature measurement block terminal based on cloud platform, the block terminal includes box and shell, and the block terminal still is provided with temperature measurement module and display control module, and temperature measurement module and display control module set up on the box, and power supply unit is all connected with display control module to temperature measurement module, power module for supply power for temperature measurement module, display control module and communication module. The temperature measurement module includes infrared thermal imaging sensor 2 and ultrasonic ranging device 1, infrared thermal imaging sensor 2 and ultrasonic ranging device 1 set up the preceding upside of shell at the block terminal, it includes liquid crystal touch-sensitive screen 4 to show control module, liquid crystal touch-sensitive screen 4 sets up at box front side position, ultrasonic ranging and 2 electric connection liquid crystal touch-sensitive screens 4 of infrared thermal imaging sensor, liquid crystal touch-sensitive screen 4 is colored liquid crystal touch-sensitive screen 4, a body temperature data for user operation and demonstration temperature measurement module record, be used for storing uploading of data information and control data that temperature measurement module surveyed through storing control module. This scheme is through setting up quick temperature measurement structure on domestic block terminal to domestic block terminal is the carrier, and combines together real-time measurement user's body temperature and in time uploads data through communication module with the cloud platform, and communication module adopts at least one in 4G communication or the wiFi, all communicable between block terminal and other equipment in this scheme. The infrared thermal imaging sensor 2 is electrically connected with the STC8A single chip microcomputer, and the STC8A single chip microcomputer is connected with the liquid crystal touch screen 4 through an RS485 interface. The infrared thermal imaging sensor 2 is used for collecting human body temperature data in real time. The ultrasonic module adopts an HC-SR04 module. The ultrasonic ranging device 1 is used for measuring the distance between the device and a human body measuring part, and then the data transmission module is used for transmitting temperature information and ultrasonic ranging information measured by the infrared thermal imaging sensor 2 to the operation processing module in real time, and the operation processing module is used for eliminating the influence of the distance on body temperature detection according to a set temperature compensation method. The working principle of the ultrasonic ranging module is that the module automatically sends square waves by utilizing triggering ranging, whether signals return or not is detected, if the signals return, high level is output to further obtain a measured distance, corresponding temperature values of infrared radiation energy attenuation caused by the distance are calculated, and the influence of the environment temperature and the distance on human body temperature detection is eliminated according to a temperature compensation method. The infrared thermal imaging sensor 2 employs an AMGG8833 sensor. The color liquid crystal display touch screen is also provided with a circuit switch display structure, and further comprises a communication condition display area and a body temperature data and temperature measurement distance display area. The upper parts of the infrared thermal imaging sensor 2 and the ultrasonic distance measuring device 1 are provided with a protective structure 3 for preventing dust. The protection structure 3 can be set as a shielding plate (the shielding plate is at a certain angle with the box body and is fixed by bolts with the box body) for shielding dust on the upper side for the infrared thermal imaging sensor 2 and the ultrasonic ranging device 1. Further, this scheme adopts infrared thermal imaging sensor 2 to measure body temperature, color liquid crystal touch screen 4 carries on MCGS embedding version configuration software as demonstration, storage and control center, peripheral cooperation RTE input/output module and cloud platform, select the temperature measurement mode through liquid crystal touch screen 4, this scheme utilizes AMGG8833 human body infrared thermal imaging sensor 2 and ultrasonic ranging device 1, wherein red thermal imaging sensor not only detects the human body or the object that removes, can also detect the position and the surface temperature that generate heat of static object, because of the more and thin epidermis of the blood vessel of face part, can reflect human temperature state well, the event gets the infrared thermal imaging data of face position. The ultrasonic ranging module mainly adopts an HC-SR04 module. The working principle of the ultrasonic temperature measurement device is that an ultrasonic module HC-SR04 triggers distance measurement by using IO, the module automatically sends square waves to detect whether signals return or not, if the signals return, the IO outputs high level to further obtain a measured distance, a corresponding temperature value of infrared radiation energy attenuation caused by the distance is calculated, the influence of the environment temperature and the distance on human body temperature detection is eliminated according to a temperature compensation method, and meanwhile, a threshold value is set based on a recent body temperature floating value of a user. And then the data detected by the sensor is processed by the STC8A single chip microcomputer and then is further processed according to the setting of the system, and the data is displayed by communicating with the touch screen through an RS485 interface. The data of the touch screen is connected with the cloud platform through the 4G communication module, the data are uploaded to the cloud platform, all the data are stored according to the detection sequence based on system setting, the cloud platform can store and analyze the data, and abnormal conditions are automatically screened.

When a user selects a quick temperature measuring mode of the distribution box, the AMG8833 human body infrared thermal imaging sensor 2 calculates heat loss according to the difference between the surface temperature of the measured object and the ambient temperature of the measured object through the detection of the temperature of the two-dimensional area, so that the body sensing temperature is identified, and the heat distribution of the measured object is known. The ultrasonic ranging module automatically sends 8 square waves of 40Khz, and the ultrasonic ranging module meets the return of a human body to obtain the barrier distance. After the data are processed by the single chip microcomputer, one side of the data is connected with a color liquid crystal display screen through an interface to display questioning data in real time, and meanwhile, the data are transmitted to a cloud platform by utilizing a 4G network communication protocol. The cloud platform is divided into an infrastructure layer, a middle layer and a user service layer, wherein the infrastructure layer provides computing, storage, network and other basic resources for the cloud platform; the middle layer manages data and improves the utilization rate of resources; and the user service layer uses the application service on the cloud platform through the display screen and the mobile terminal. Therefore, the body temperature of the user can be accurately and conveniently measured indoors.

It should be noted that the above-mentioned contents only illustrate the technical idea of the present invention, and the protection scope of the present invention is not limited thereby, and it is obvious to those skilled in the art that several modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations fall within the protection scope of the claims of the present invention.

Claims (6)

1. The rapid temperature measurement distribution box based on the cloud platform is characterized by comprising a box body and a shell, and further comprising a temperature measurement module and a display control module which are arranged on the box body, wherein the temperature measurement module and the display control module are both connected with a power supply device,

the temperature measuring module comprises an infrared thermal imaging sensor (2) and an ultrasonic ranging device (1), the infrared thermal imaging sensor (2) and the ultrasonic ranging device (1) are arranged at the upper side position in front of the shell of the distribution box,

the display control module comprises a liquid crystal touch screen (4), the liquid crystal touch screen (4) is arranged at the front side of the box body, and the ultrasonic ranging and infrared thermal imaging sensor (2) is electrically connected with the liquid crystal touch screen (4).

2. The cloud platform-based rapid temperature measurement distribution box according to claim 1, wherein the infrared thermal imaging sensor (2) is electrically connected to the STC8A single chip microcomputer, and the STC8A single chip microcomputer is connected to the liquid crystal touch screen (4) through an RS485 interface.

3. The cloud platform-based rapid thermometric power distribution box according to claim 1, wherein the ultrasonic module is an HC-SR04 module.

4. The cloud platform-based rapid temperature measurement distribution box according to claim 1, wherein the infrared thermal imaging sensor (2) is an AMGG8833 sensor.

5. The cloud platform-based rapid temperature measurement distribution box according to claim 1, wherein a circuit switch display structure is further disposed on the color liquid crystal display touch screen.

6. The cloud platform-based rapid temperature measurement distribution box according to claim 1, wherein a protection structure (3) for preventing dust is arranged on the upper part of the infrared thermal imaging sensor (2) and the ultrasonic distance measuring device (1).

Images