CN213806770U - Temperature detection pavilion with disinfection function - Google Patents

Abstract

The utility model provides a temperature detection pavilion with disinfection function belongs to epidemic situation prevention and control technical field. The temperature detection pavilion with the sterilization function comprises a pavilion frame assembly, a temperature detection assembly, a spray sterilization assembly, an RFID radio frequency card and a control module. The kiosk assembly includes a frame, an induction door, a support, and a shoe mold. The temperature detection assembly comprises an infrared thermometer and a temperature display module, the infrared thermometer is arranged above the frame, and the temperature display module is positioned on the upper portion of the infrared thermometer. The spraying disinfection assembly comprises a liquid supply part and a sensing disinfection liquid box, the liquid supply part comprises a micro pump, a first liquid supply pipe, a second liquid supply pipe, a rotary nozzle and an atomizing compression pump, and the rotary nozzle is located inside the inner cavity. The RFID radio frequency card is arranged on the side face of the frame. The utility model discloses an adopt the control that detects disinfection integration, improve detection speed, improved the measuring environment, improved the use convenience.

Description

Temperature detection pavilion with disinfection function

Technical Field

The utility model relates to an epidemic situation prevention and control field particularly, relates to a temperature detection pavilion with disinfection function.

Background

Impact of epidemic situations on various industries is realized, and epidemic situation development change solution epidemic prevention predicament is tracked and evaluated; reasonable and effective measures are made to ensure the enterprise to carry out the work and the work again, ensure the school to carry out the class and study again, and ensure the industry to be developed stably. The impact of the epidemic situation is short-term, as the repeated work and the production are started in many places, the repeated work and the production of the homework, the repeated work and the production of the enterprise, the study of the primary and the secondary schools in the colleges and universities start to carry out the course again, the situation that the number of workers increases is shown, no laches can be left for the start and the start of the work and the requirements of the construction project units and the schools for the prevention and control of the epidemic situation, and the two-hand holding and the two-error prevention of the academic industry and the prevention and control of the epidemic situation are continuously realized. At present, the threat of external epidemic is still in an increasing state, and any relaxation and relaxation of epidemic prevention can cause the epidemic to be aggravated or out of control, so that epidemic prevention is still necessary under the current situation, and the emphasis is to reduce the infection rate and improve the isolation rate, so as to prevent the input epidemic source, take isolation infection prevention as a means, and cut off the external source and internal infection prevention. Scientific method measures and equipment are used for scientifically and objectively analyzing the occurrence, development and change of the comprehensive epidemic situation, carrying out rapid detection and necessary protection on various personnel entering enterprises, schools, institutions and office places, and providing scientific guarantee for the development of different types of compound labor and compound production and compound classes.

At present, the current detection and disinfection device for epidemic situation prevention and control is independent, and in the actual operation process, the detection and disinfection efficiency is low, so that inconvenience is brought to the convenience of use.

SUMMERY OF THE UTILITY MODEL

In order to make up for above not enough, the utility model provides a temperature detects pavilion with disinfection function aims at improving the problem that detects disinfection use control.

The utility model discloses a realize like this:

the utility model provides a temperature detection pavilion with disinfection function, including pavilion frame subassembly, temperature detect subassembly, spraying disinfection subassembly, RFID radio frequency card and control module.

Pavilion frame subassembly includes frame, induction door, support piece and shoe mold, the induction door set up in the frame, support piece is located the frame bottom, the induction door set up in support piece upper portion, the shoe mold includes the model, the model set up in support piece upper portion, set up the inner chamber in the model, the orifice has evenly been seted up to model surface week side.

The temperature detection assembly comprises an infrared thermometer and a temperature display module, the infrared thermometer is arranged above the frame, and the temperature display module is positioned on the upper portion of the infrared thermometer.

The spraying disinfection subassembly is including supplying liquid spare and response antiseptic solution case, supply the liquid spare to include micropump, first feed pipe, second feed pipe, rotatory nozzle and atomizing compressor pump, the micropump set up in frame bottom one side, first feed pipe with the second feed pipe all feed through in the export of micropump, the first feed pipe other end extend and feed through in response antiseptic solution case, response antiseptic solution case set up in the frame side, atomizing compressor pump set up in on the second feed pipe, the second feed pipe other end with rotatory nozzle intercommunication, rotatory nozzle is located inside the inner chamber.

The RFID radio frequency card is arranged on the side face of the frame.

The control module comprises a support frame, a single chip microcomputer controller, a combined power supply and a voice alarm module, the single chip microcomputer controller and the combined power supply are arranged on one side of the support frame, and the voice alarm module is arranged on the upper portion of the support frame.

In an embodiment of the present invention, the base is disposed on two sides of the bottom of the frame.

In an embodiment of the utility model, the support piece includes plate body, cushion, waste liquid pipette, waste liquid suction pump and waste liquid collection bag, the plate body surface is seted up flutedly, the cushion set up in the recess, the waste liquid pipette set up in the cushion below, the round hole has evenly been seted up on waste liquid pipette surface, waste liquid suction pump one end with waste liquid pipette intercommunication, the waste liquid suction pump other end with waste liquid collection bag intercommunication.

In an embodiment of the present invention, the number of the models is two, two the models are all located on the upper portion of the elastic pad.

In an embodiment of the present invention, the infrared thermometer is connected to the temperature display module via signals, the infrared thermometer model is MLX90614ESF-BCC, and the temperature display module model is LCD 1602.

In an embodiment of the present invention, the sensing disinfectant tank includes a tank body, a bottom frame, a liquid discharge pipe, a solenoid valve, a first photoelectric sensor and a second photoelectric sensor, the tank body is disposed at the side of the frame, the top of the tank body is connected to the first liquid supply pipe, the bottom frame is disposed under the tank body, the liquid discharge pipe is connected to the bottom of the tank body, the solenoid valve is disposed on the surface of the liquid discharge pipe, the first photoelectric sensor is disposed at two sides in the tank body, and the second photoelectric sensor is disposed at two sides of the bottom frame.

In an embodiment of the present invention, the chip of the RFID rf card is an MFRC531 rf chip.

The utility model discloses an in the embodiment, the single chip microcomputer controller model is STCC, infrared radiation thermometer the temperature display module the micropump the atomizing compression pump the combined power source the audio alert module first photoelectric type sensor with the equal electric connection of second photoelectric type sensor in single chip microcomputer controller.

The utility model discloses an in the embodiment, still include the host computer, the host computer set up in frame one side, RFID radio frequency card signal connection in the host computer, single chip microcomputer controller with host computer electrical connection.

In an embodiment of the utility model, the voice alarm module includes WT588D voice chip and voice horn, WT588D voice chip with voice horn all with single chip microcomputer controller.

The utility model has the advantages that: the utility model discloses a temperature detection pavilion with disinfection function that obtains through above-mentioned design, during the use, through set up temperature detection subassembly in pavilion frame subassembly, the spraying disinfection subassembly, RFID radio frequency card and control module, be equipped with RFID radio frequency card on the frame, the person of being examined accomplishes identity response discernment, the induction door is opened, get into the position of installing the infrared thermometer, accomplish body temperature detection and when temperature display module shows in the twinkling of an eye, both feet get into semi-enclosed model, the disinfecting equipment who installs at the bottom starts, pass through the micropump with antiseptic solution flow in the atomizing compressor pump through the second feed pipe, carry out the atomizing compression by the atomizing compressor pump and form vaporific liquid, spout through rotatory nozzle, fog blowout antiseptic solution through the orifice again, last a period, accomplish detection and disinfection, during shoes disinfection, the person of being examined stretches into the hand response disinfectant box position, acquire the liquid soap through the response mode, rub hand and the action of washing hand as required, accomplish hand and shoes disinfection back, the induction door is opened by oneself, through the control that adopts the detection disinfection integration, effectively improves detection speed, has improved the measuring environment, no matter be in the epidemic situation prevention and control period or resume the conventional detection means after the normal condition, all have obvious practical function, improved the convenience of using.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a temperature detection kiosk with a sterilization function according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a kiosk assembly according to an embodiment of the present invention;

FIG. 3 is a schematic view of a part of the structure of a supporting member according to an embodiment of the present invention;

FIG. 4 is a schematic view of a shoe mold structure according to an embodiment of the present invention;

FIG. 5 is a schematic view of an inductive disinfectant tank according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a control module according to an embodiment of the present invention;

fig. 7 is a circuit diagram of a single chip microcomputer controller provided in the embodiment of the present invention;

fig. 8 is a block diagram of a single chip microcomputer control system provided in the embodiment of the present invention;

fig. 9 is a circuit diagram of an integrated power supply according to an embodiment of the present invention.

In the figure: 100-a kiosk assembly; 110-a frame; 120-a base; 130-induction gate; 140-a support; 141-a plate body; 142-an elastic pad; 143-waste pipette; 144-waste liquid suction pump; 145-a waste liquid collection bag; 150-shoe mold; 151-model; 152-spraying holes; 200-a temperature detection component; 210-an infrared thermometer; 220-temperature display module; 300-a spray disinfection assembly; 310-a liquid supply; 311-a micropump; 312-a first supply tube; 313-a second supply tube; 314-a rotary spray head; 315-atomizing compressor pump; 320-induction disinfectant tank; 321-a box body; 322-a chassis; 323-drain pipe; 324-a solenoid valve; 325 — a first photoelectric sensor; 326-a second photoelectric sensor; 500-RFID radio frequency card; 600-a control module; 610-a support frame; 620-single chip controller; 630-a combined power supply; 640-a voice alarm module; 700-an upper computer.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

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

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

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Examples

Referring to fig. 1-9, the present invention provides a technical solution: a temperature detection kiosk with disinfection functionality includes a kiosk frame assembly 100, a temperature detection assembly 200, a spray disinfection assembly 300, an RFID radio frequency card 500, and a control module 600.

Wherein, temperature-detecting subassembly 200 is used for detecting the temperature and showing the person examined, and spraying disinfection subassembly 300 is used for carrying out disinfection treatment to the person examined, and RFID radio frequency card 500 is used for discerning the response to the person examined's identity, and control module 600 is used for controlgear's operation.

Referring to fig. 1-5, the pavilion assembly 100 includes a frame 110, an induction door 130, a support member 140 and a shoe mold 150, wherein two sides of the bottom of the frame 110 are provided with a base 120, the induction door 130 is disposed in the frame 110, when the pavilion assembly is specifically disposed, the induction door 130 is a side-hung induction door, the support member 140 is disposed at the bottom of the frame 110, the induction door 130 is disposed at the upper portion of the support member 140, the support member 140 includes a plate body 141, an elastic pad 142, a waste liquid suction tube 143, a waste liquid suction pump 144 and a waste liquid collection bag 145, when the pavilion assembly is specifically disposed, the elastic pad 142 is a sponge pad, a groove is formed on the surface of the plate body 141, the elastic pad 142 is disposed in the groove, the waste liquid suction tube 143 is disposed below the elastic pad 142, circular holes are uniformly formed on the surface of the waste liquid suction tube 143, one end of the waste liquid suction pump 144 is communicated with the waste liquid suction tube 143, the waste liquid suction tube 143 is a stainless steel band with a diameter of 10mm, and the other end of the waste liquid suction pump 144 is communicated with the waste liquid collection bag 145, waste liquid that spun antiseptic solution produced, when the elastic pad 142 received the person of being examined and stood the extrusion, waste liquid flow in the round hole, take out through waste liquid suction pump 144 and flow in waste liquid collection bag 145 and collect in unison, shoe mold 150 includes model 151, and model 151 sets up in support piece 140 upper portion, has seted up the inner chamber in the model 151, and orifice 152 has evenly been seted up to model 151 surface week side, and model 151 is equipped with two, and two models 151 all lie in elastic pad 142 upper portion setting.

Referring to fig. 1, the temperature detecting assembly 200 includes an infrared thermometer 210 and a temperature display module 220, the infrared thermometer 210 is disposed above the frame 110, the temperature display module 220 is disposed on the upper portion of the infrared thermometer 210, the infrared thermometer 210 is in signal connection with the temperature display module 220, the model of the infrared thermometer 210 is MLX90614ESF-BCC, and the model of the temperature display module 220 is LCD 1602.

MLX90614ESF-BCC is adopted to realize non-contact measurement of human body temperature;

all objects with temperature radiate infrared rays into the air, the principle of the human body infrared thermometer 210 is that an instrument for measuring the body temperature of a human body by receiving the infrared energy radiated by the human body, and a non-contact infrared temperature sensor adopts MLX90614ESF-BCC and can detect the temperature of the human body according to the infrared radiation energy and wavelength distribution of the detected human body. The product adopts a non-contact type, high precision, high resolution, quick response time, factory self calibration, a built-in level conversion circuit with temperature gradient compensation and direct access to a 3.3V or 5V MCU system. The signal output indicates a product parameter: the effective detection distance is 0.8m to 1.5m (max), the working voltage is 2.5V to 5.0V, and the product size is as follows: 47.7mm 17.9 mm. Working voltage: 3.3V-5V, environment temperature measurement range: -40 ℃ to 85 ℃. The measured energy information is transmitted to a central processing unit for processing, and then converted into temperature reading to be displayed on an LCD display screen. The infrared thermometer 210 program includes 4 parts of a temperature module, a main control module, a display module, and a time measurement module, and first, the start condition is written, an address is assigned, and a stack is written, which indicates the temperature to be read. And secondly, reading the temperature value, retransmitting the starting condition and the writing and reading command, reading the command step by step, reading correct temperature information, and reading error information, wherein the infrared thermometer is applied to 210 modules of wireless interconnection technologies. The infrared temperature sensor can be configured in the EEPROM for 3 outputs: a Pulse Width Modulated (PWM) serial bus and a thermal relay. All of these outputs provide a measured temperature, linearization and ready to use. The output temperature is linearized in a digital manner, making it possible to compensate for the ambient temperature. For the PWM option, the duty cycle (the proportion of the high level in the pulse period) of the continuous pulse train reflects the measured temperature. Measurement resolution: the temperature precision of the temperature measuring device can reach 0.02 ℃, the temperature precision obtained by measuring at the ambient temperature of (0-50 ℃) basically keeps within the range of +/-0.5 ℃, and the field of view (FOV) of the temperature measuring device is 35 degrees.

The temperature display module 220 adopts a new 0.96-inch OLED to realize data display;

signals for measuring temperature, I²The C bus (abbreviation of Inter-Integrated Circuit) is used to transmit data to the OLED for quantitative display, and is a two-wire interface. I is²C uses only two bi-directional lines, one Serial Data Line (SDA) and the other Serial Clock (SCL). And (2) SCL: the rising edge inputs data into each EEPROM device; the falling edge drives the EEPROM device to output data. The input buffer is a high input impedance non-inverting device, data passes through I²And C, transmitting the temperature to a 3.5-inch wide-temperature color OLED display screen for quantitative display of the temperature. The module adopts a high-brightness low-power-consumption display screen, the visual angle can reach 170 degrees, the display color is pure, and the displayed numerical value can be clearly seen even in the sunlight. The active light emitting characteristic of the OLED allows data display with almost no visual limitation.

Referring to fig. 1 and 5, the spray sterilization assembly 300 includes a liquid supply part 310 and a sensing sterilization liquid tank 320, the liquid supply part 310 includes a micro pump 311, a first liquid supply pipe 312, a second liquid supply pipe 313, a rotary nozzle 314 and an atomization compression pump 315, the micro pump 311 is disposed at one side of the bottom of the frame 110, the first liquid supply pipe 312 and the second liquid supply pipe 313 are both communicated with an outlet of the micro pump 311, the other end of the first liquid supply pipe 312 extends and is communicated with the sensing sterilization liquid tank 320, the sensing sterilization liquid tank 320 is disposed at a side of the frame 110, the atomization compression pump 315 is disposed on the second liquid supply pipe 313, the other end of the second liquid supply pipe 313 is communicated with the rotary nozzle 314, and the rotary nozzle 314 is disposed inside the inner cavity.

It should be noted that the sensing disinfectant tank 320 includes a tank 321, a bottom chassis 322, a liquid discharge pipe 323, an electromagnetic valve 324, a first photoelectric sensor 325 and a second photoelectric sensor 326, the tank 321 is disposed on the side of the frame 110, the top of the tank 321 is communicated with the first liquid supply pipe 312, the bottom chassis 322 is disposed below the tank 321, the liquid discharge pipe 323 is communicated with the bottom of the tank 321, the electromagnetic valve 324 is disposed on the surface of the liquid discharge pipe 323, the first photoelectric sensor 325 is disposed on two sides of the tank 321, and the second photoelectric sensor 326 is disposed on two sides of the bottom chassis 322.

The liquid level signal of the disinfectant in the box body 321 is collected at regular time through the first photoelectric sensor 325, and the miniature pump 311 is controlled to add the disinfectant in real time through the data processing of the single chip microcomputer and automatically stops when reaching the upper line position. The control technology realizes that the detection and conversion of signals are zero response, when the sensor is shielded by disinfectant, the receiving tube is conducted, the output VOUT of the module circuit is 0V, and when the disinfectant drops to the control low-level control line mark and infrared light emitted by the sensor is not shielded, the output of the module VOUT is 5V; the photoelectric sensor accurately detects the parameters of the liquid level and can quickly replace the parameters into electric signals, an I/O port of an STC89C52 singlechip can quickly process the signals according to received data signals, the sensor with the shaping and amplifying functions directly outputs analog signals to the singlechip for processing, and signals output by a P/O port of the singlechip are amplified by driving to control the spraying and adding of disinfectant. Meanwhile, a driving circuit is needed to carry out conversion processing and power amplification on the isolated inductive load. The design of the function of automatically adding the disinfectant fundamentally changes the operation of manually adding the humidifying disinfectant by managers and ensures the constant supply of the disinfectant. The buffer of the single chip microcomputer and the peripheral circuit adopts an ULN2003 integrated driving array, and a diode for eliminating coil back electromotive force is integrated in the module and can be used for eliminating inductance instantaneous pulse potential generated in the process of connecting an inductance component. The double-row 16-pin package is a NPN transistor matrix, and the circuit is stable and reliable.

The induction type obtains the no-clean disinfectant to complete the hand cleaning and disinfection:

the non-washing disinfectant containing 75% of medical alcohol, carbomer and triethanolamine is bottled, 2-3CC is controlled by induction, the testee puts the hands at a designated position according to the instructions hung above the disinfectant on one side, the second photoelectric sensor 326 controls the electromagnetic valve 324 to release the non-washing disinfectant, and the testee completes hand disinfection while disinfecting the shoes. The photoelectric sensor is based on a sensor with photoelectric effect, can generate the photoelectric effect immediately when the sensor is irradiated by visible light, and then converts the light signal into an electric form for output. When the hand is placed at the designated position, the signal sent by the photoelectric sensor is blocked and returned to the receiving tube, and the amplified and shaped signal controls the equipment to act, so that the cleaning and disinfecting procedure of the hand washing-free disinfectant is completed. The method is widely applied to detection and control.

Referring to fig. 1, the RFID rf card 500 is disposed on the side surface of the frame 110, and the chip of the RFID rf card 500 is an MFRC531 rf chip.

The RFID radio frequency testee information and the upper computer software system run on the monitoring PC. The RFID radio frequency chip adopts an MFRC531 radio frequency chip, supports ISO/IEC14443A/B protocol and has the capability of passing related industry certification. And the radio frequency chip and the MCU are communicated by adopting parallel I/O.

Referring to fig. 1 and 6-9, the control module 600 includes a support frame 610, a single-chip microcomputer controller 620, a combined power supply 630 and a voice alarm module 640, the single-chip microcomputer controller 620 and the combined power supply 630 are disposed on one side of the support frame 610, the voice alarm module 640 is disposed on the upper portion of the support frame 610, the model of the single-chip microcomputer controller 620 is STC89C52, the infrared thermometer 210, the temperature display module 220, the micro pump 311, the atomizing compression pump 315, the combined power supply 630, the voice alarm module 640, the first photoelectric sensor 325 and the second photoelectric sensor 326 are electrically connected to the single-chip microcomputer controller 620, the voice alarm module 640 includes a WT588D voice chip and a voice speaker, and the WT588D voice chip and the single-chip microcomputer controller 620 are both.

Referring to fig. 1 and 8, the temperature detection kiosk with disinfection function further includes an upper computer 700, the upper computer 700 is disposed on one side of the frame 110, the RFID radio frequency card 500 is in signal connection with the upper computer 700, and the single chip controller 620 is electrically connected with the upper computer 700.

The single chip microcomputer controller 620 adopts STC89C52 as a low-loss, high-performance, CMOS eight-bit microprocessor as a memory with 4 kbytes of online reprogrammable, quick-erase and quick-write programs in a main control chip, and can be repeatedly written in/erased 1000 times, and the data storage time is ten years. The TC89C52 can form a real minimum application system of the singlechip, reduce the volume of the system, increase the reliability of the system and reduce the cost of the system. As long as the program length is less than 4K, all four I/0 ports are provided to the user. The programmable controller can be programmed by 5V voltage, the erasing time only needs 10 milliseconds, the requirements of two power supplies are avoided, the chip is not pulled down during rewriting, and the programmable controller is suitable for a plurality of embedded control fields. The working voltage range is wide (2.7V-6V), the full-static working is realized, and the working frequency is wide between 0Hz and 24 MHz. After the system is powered on, initialization including parameter initialization, stack initialization and device initialization is performed first. Thereafter, it starts to wait for the input signal of the communication module, recognizes it as soon as it detects the input signal of the TC35I module, converts the corresponding code into a corresponding output, which is sent to two parts: a display and a driving circuit. Then the display updates the display content, and the driving circuit drives the corresponding data. And the module works stably and has strong anti-interference performance. The sensor assembly comprises an induction sensor, an infrared temperature sensor and a sensor, and the modules are mature at present, so that the system can be directly managed on a platform. The sensor input interface connected to the main controller can complete the link with the host computer. The single chip microcomputer clock signal is divided into an internal clock mode and an external clock mode, the internal clock mode is adopted in the system, and a crystal or ceramic oscillator and two capacitors are externally connected to pins XTAL2 and XTL 1.

The monitoring workstation is used as the upper computer 700 to realize real-time monitoring of the temperature detection state;

the upper computer 700 of the monitoring workstation is provided with control software YQGL.EXE (epidemic situation management) to monitor and manage the state of the detected person, and an interactive platform is provided between the lower computer function control unit and the monitoring workstation. The state controlled by the single chip microcomputer is transmitted to the upper computer, signals are calculated and processed through the CPU, and corresponding data are calculated and displayed on the liquid crystal display. With the wide application of the high-speed USB serial data transmission interface protocol and the development of the single chip technology specially aiming at the USB interface, in order to ensure the information safety, the temperature measurement control controlled by a microprocessor is adopted to accurately transmit data to a PC monitoring device. These are monitored by sygl.exe program software installed in the upper computer 700. Two bits of serial ports TXD (P3.1) and RXD (P3.0) and two bits of ports P1 and the like can be used as RTS and CTS to be communicated through a USB interface, so that various collected data can be easily sent to the upper computer 700 to be quickly processed. The acquisition of various data and the control of an actuating mechanism are all finished by a singlechip. The single chip microcomputer has limited computing capacity and is difficult to perform complex data processing. In an automatic control system with complex functions, an industrial personal computer is generally used as an upper computer 700, a single chip microcomputer is used as a lower computer, the single chip microcomputer is used for completing data acquisition and equipment control, and the upper computer is used for completing various complex data processing and single chip microcomputer control. In the distributed control system, a singlechip is mostly adopted as a lower computer to carry out data acquisition and field control, in the applications, the singlechip only directly faces the bottom layer of a controlled object, and the acquired data is further analyzed and processed by a PC with powerful functions. Therefore, the PC and the single chip microcomputer have rapid data exchange. The level conversion chip MAX232 is adopted to realize the interconversion between the TTL logic level and the RS 232 level, and serial signals TXD and RXD after conversion are directly connected with the serial port of the PC, so that the connection can embody the flexible control function of the singlechip, can exert the powerful calculation and display functions of the PC, and is favorable for the real-time acquisition, processing and monitoring of field signals.

The voice alarm module 640 has a main function of broadcasting warm prompts according to set voices when the flow of the detected person is blocked, so as to remind the user of rapidly handling the obstacles. And the program application design is to perform corresponding voice broadcast reminding when the execution of the received signals of other modules is in a problem. The voice alarm module 640 is triggered and controlled by an STC89C52 control key in an automatic control mode to realize prompting. The voice module uses a WT588D voice chip, and can directly drive a low-power loudspeaker to realize voice broadcast. WT588D voice chip is a powerful rewritable voice single chip. The operation software of the upper computer matched with WT588D Viocechip can change any control mode of WT588D voice single chip, and the information is downloaded to SPI-Flash. The chip is packaged with DIP18, SSOP20 and LQFP32 in different playing time lengths according to different external or internal SPI-Flash, and the chip supports 2M-32 Mbit SPI-Flash memory, embedded DSP high-speed audio processor, high processing speed, built-in 13Bit/DA converter, 12Bit/PWM output and good sound quality; the PWM output can be directly pushed to exert oneself 0.5.5W/8 omega loudspeaker, and the push-pull current power is enough. The method supports two output modes of DAC/PWM and supports loading WAV audio format, can freely combine voice through operating software of an industrial host computer, can insert silence, does not occupy the capacity of a memory when inserted silence, and can repeatedly call a plurality of addresses when loaded voice. The USB download mode supports the MP3 control mode, the key control mode, the combination control mode, the opening control mode, the one-line serial port control mode, the three-line serial port control mode, and the switching of the three-line serial port control I/O port expansion output mode and the three-line serial port control mode to the three-line serial port control I/O port expansion output mode, and the switching can be carried out only by sending data. After the switching, the last working state band before the switching can still be switched, the switched mode work can be set freely, the BUSY output mode of the voice playing state signal is displayed, the anti-interference performance is strong, the method can be applied to the industrial field, 220 sections can control address bits, 128 sections of surprised tones can be loaded at most by a single address bit, and the voice in the address bits is played in a combined mode; WT588D is simple and straightforward to operate, matches speech combination techniques, and greatly reduces speech editing time. The online downloading is completely supported, even if the WT588D is powered on, information can be downloaded to the related SPI-Flash through a downloader of the PC upper computer, and the control mode of the WT588D voice chip circuit can be updated to the control mode of the latest downloading. A10-element Chip set of a WT588D finished product is purchased from a Guangdong Shenzhen world flag ship shop, the debugging method is brief and understandable, the USB interface is very convenient, twelve main voices which need to be prompted are directly edited and stored by a PC (personal computer) after connection, and the corresponding voices edited by the Vioce Chip software are played by the singlechip STC89C52 through triggering address bits according to information fed back by radio frequency identification, temperature measurement and disinfection progress. The loudspeaker of 0.5 Europe 8W can be directly connected, and the power amplifier can also be connected through the DAC output, so as to obtain the high-quality sound-playing voice broadcast.

The efficiency is improved by applying the switch combination power supply 630;

the intelligent control of the power supply is realized by adopting the singlechip, and a stable working voltage is required to be designed for converting 220V alternating voltage into the combined voltage required by the MCU and the control system when the MCU control system is designed. Generally, the linear adjustment working mode of the traditional linear voltage-stabilized power supply has large heat loss during working, the working efficiency is only 30% -50%, and nearly half of electric energy is converted into heat energy to be wasted. The novel switching power supply assembly operates in a fully on or off manner. Therefore, during operation, either a large current flows through the switching tube with a low turn-on voltage or the current is completely cut off and does not flow. Resulting in a significant increase in power supply efficiency.

Specifically, this temperature that has disinfection function detects pavilion's theory of operation: the frame 110 is provided with an RFID rf card 500, so that the examinee can perform identity sensing and identification, the sensing door 130 is opened and enters a position where the infrared thermometer 210 is installed, when the body temperature is detected instantly and displayed by the temperature display module 220, the feet enter the semi-closed model 151, the disinfection equipment arranged at the bottom is started, the disinfectant flows into the atomizing compression pump 315 through the second liquid supply pipe 313 through the micro pump 311, and is atomized and compressed by the atomizing compression pump 315 to form atomized liquid, sprayed out by the rotary spray nozzle 314 and then flows through the spray holes 152 to spray out the mist-shaped disinfection solution for a period of time to finish detection and disinfection, during the shoe disinfection period, the examinee puts the hand into the induction disinfectant tank 320, obtains the hand sanitizer in an induction mode, the hands are rubbed and washed as required, after the hands and shoes are disinfected, the induction door 130 is opened automatically, and the examinee enters a unit or school.

It should be noted that the specific model specifications of the waste liquid suction pump 144, the micropump 311, the atomizing compression pump 315, the electromagnetic valve 324, the first photoelectric sensor 325, the second photoelectric sensor 326 and the combined power supply 630 need to be determined according to the actual specification of the device, and the specific model selection calculation method adopts the prior art in the field, so detailed description is omitted.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A temperature detection pavilion with a sterilization function is characterized by comprising

The pavilion assembly (100), the pavilion assembly (100) comprises a frame (110), an induction door (130), a support piece (140) and a shoe mold (150), the induction door (130) is arranged in the frame (110), the support piece (140) is located at the bottom of the frame (110), the induction door (130) is arranged at the upper part of the support piece (140), the shoe mold (150) comprises a model (151), the model (151) is arranged at the upper part of the support piece (140), an inner cavity is formed in the model (151), and spray holes (152) are uniformly formed in the peripheral side of the surface of the model (151);

the temperature detection assembly (200), the temperature detection assembly (200) comprises an infrared thermometer (210) and a temperature display module (220), the infrared thermometer (210) is arranged above the frame (110), and the temperature display module (220) is positioned at the upper part of the infrared thermometer (210);

the spray disinfection component (300), the spray disinfection component (300) comprises a liquid supply part (310) and a sensing disinfection liquid box (320), the liquid supply part (310) comprises a micro pump (311), a first liquid supply pipe (312), a second liquid supply pipe (313), a rotary spray head (314) and an atomization compression pump (315), the micro pump (311) is arranged on one side of the bottom of the frame (110), the first liquid supply pipe (312) and the second liquid supply pipe (313) are both communicated with an outlet of the micro pump (311), the other end of the first liquid supply pipe (312) extends and is communicated with the sensing disinfection liquid box (320), the sensing disinfection liquid box (320) is arranged on the side surface of the frame (110), the atomization compression pump (315) is arranged on the second liquid supply pipe (313), the other end of the second liquid supply pipe (313) is communicated with the rotary spray head (314), the rotary spray head (314) is positioned inside the inner cavity;

the RFID radio frequency card (500), the RFID radio frequency card (500) is arranged on the side surface of the frame (110);

control module (600), control module (600) includes support frame (610), single chip microcomputer controller (620), combined power source (630) and audio alert module (640), single chip microcomputer controller (620) with combined power source (630) set up in support frame (610) one side, audio alert module (640) set up in support frame (610) upper portion.

2. The temperature detection booth with a sterilization function according to claim 1, wherein a base (120) is provided at both sides of the bottom of the frame (110).

3. The temperature detection kiosk with disinfection function of claim 1, characterized in that said support member (140) comprises a plate body (141), an elastic pad (142), a waste liquid suction tube (143), a waste liquid suction pump (144) and a waste liquid collection bag (145), said plate body (141) is grooved, said elastic pad (142) is disposed in said groove, said waste liquid suction tube (143) is disposed under said elastic pad (142), said waste liquid suction tube (143) is uniformly perforated with round holes, one end of said waste liquid suction pump (144) is connected to said waste liquid suction tube (143), and the other end of said waste liquid suction pump (144) is connected to said waste liquid collection bag (145).

4. A temperature sensing kiosk with sterilizing function as claimed in claim 3, characterized in that said models (151) are provided in two, and both said models (151) are provided on the upper portion of said elastic pad (142).

5. The temperature detection kiosk with disinfection function of claim 1, characterized in that the infrared thermometer (210) and the temperature display module (220) are in signal connection, the infrared thermometer (210) is model MLX90614ESF-BCC, and the temperature display module (220) is model LCD 1602.

6. The temperature detection booth with sterilization function according to claim 1, wherein the sensing sterilization fluid tank (320) comprises a tank body (321), a bottom frame (322), a drain pipe (323), a solenoid valve (324), a first photoelectric sensor (325), and a second photoelectric sensor (326), the tank body (321) is disposed at a side of the frame (110), a top of the tank body (321) is communicated with the first liquid supply pipe (312), the bottom frame (322) is disposed below the tank body (321), the drain pipe (323) is communicated with a bottom of the tank body (321), the solenoid valve (324) is disposed at a surface of the drain pipe (323), the first photoelectric sensor (325) is disposed at two sides inside the tank body (321), and the second photoelectric sensor (326) is disposed at two sides inside the bottom frame (322).

7. A temperature detection kiosk with disinfection function as claimed in claim 1, characterized in that said RFID radio frequency card (500) chip is a MFRC531 radio frequency chip.

8. The temperature detection kiosk with disinfection function of claim 6, characterized in that the single chip microcomputer controller (620) is STC89C52, the infrared thermometer (210), the temperature display module (220), the micro pump (311), the atomizing compression pump (315), the combined power supply (630), the voice alarm module (640), the first photoelectric sensor (325) and the second photoelectric sensor (326) are all electrically connected to the single chip microcomputer controller (620).

9. The temperature detection kiosk with disinfection function of claim 1, characterized by further comprising an upper computer (700), wherein the upper computer (700) is arranged on one side of the frame (110), the RFID radio frequency card (500) is in signal connection with the upper computer (700), and the single chip microcomputer controller (620) is electrically connected with the upper computer (700).

10. The temperature detection kiosk with disinfection function of claim 1, characterized in that the voice alarm module (640) comprises a WT588D voice chip and a voice speaker, both the WT588D voice chip and the voice speaker are connected with the single chip controller (620).

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