CN113029844A - Automatic evaluation system informatization work system based on public health service health management application - Google Patents

Abstract

The invention provides an automatic evaluation system informatization operation system based on public health service health management application, which comprises a detection box body, wherein a generation chamber mounting seat for fixedly mounting a generation chamber, a filter chamber mounting seat for fixedly mounting a filter chamber, a combustion chamber mounting seat for fixedly mounting a combustion chamber and a settling chamber mounting seat for fixedly mounting a settling chamber are arranged in the detection box body; the generating chamber is fixedly arranged on a generating chamber mounting seat, the filtering chamber is fixedly arranged on a filtering chamber mounting seat, the combustion chamber is fixedly arranged on a combustion chamber mounting seat, and the settling chamber is fixedly arranged on a settling chamber mounting seat; the working system comprises the following steps: s1, acquiring the measurement data of the user to be measured; and S2, after the verification is passed, transmitting the measurement data in the step S1 to the remote server terminal. According to the invention, the data collected by the working system can be transmitted to the remote server terminal after being subjected to security verification, and is transmitted to the corresponding mobile intelligent handheld terminal through the secure mobile phone number for display.

Description

Automatic evaluation system informatization work system based on public health service health management application

Technical Field

The invention relates to the technical field of data security, in particular to an automatic evaluation system informatization operation system based on public health service health management application.

Background

The medical health career is a career for benefiting people and is a vital interest for the masses. Patent application No. 2019104211964 entitled "a public health geographic data privacy removal processing method and system", discloses that includes the following steps: the login account information is encrypted in the first stage and then sent to the server side so that the server side can decrypt and authenticate the login account information, and each user endows corresponding operation authority according to different system roles; screening out private data from the public health geographic data when the public health geographic data needs to be input, and grading according to a preset grading rule to obtain different grades of private data; secondly encrypting the private data according to the level and sending the encrypted private data to the server, and storing the correctly decrypted private data by the server; when the public health geographic data needs to be acquired at the server, the preset query conditions are encrypted at the third stage and are sent to the server, and the server acquires the query conditions which can be correctly decrypted and feeds back the public health geographic data corresponding to the query conditions. The patent application adopts a multi-level encryption mode to ensure the security of data.

Disclosure of Invention

The invention aims to at least solve the technical problems in the prior art, and particularly creatively provides an automatic evaluation system informatization work system based on public health service health management application.

In order to achieve the above object, the present invention provides an automatic evaluation system informatization work system based on public health service health management application, which comprises a detection box body, wherein a generation chamber installation seat for fixedly installing a generation chamber, a filter chamber installation seat for fixedly installing a filter chamber, a combustion chamber installation seat for fixedly installing a combustion chamber and a settling chamber installation seat for fixedly installing a settling chamber are arranged in the detection box body; the generating chamber is fixedly arranged on a generating chamber mounting seat, the filtering chamber is fixedly arranged on a filtering chamber mounting seat, the combustion chamber is fixedly arranged on a combustion chamber mounting seat, and the settling chamber is fixedly arranged on a settling chamber mounting seat;

the generating chamber comprises a generating chamber air inlet and a generating chamber air outlet, the filtering chamber comprises a filtering chamber air inlet and a filtering chamber air outlet, the combustion chamber comprises a combustion chamber air inlet and a combustion chamber air outlet, and the settling chamber comprises a settling chamber air inlet and a settling chamber air outlet;

the first connecting conduit, the second connecting conduit, the third connecting conduit, the fourth connecting conduit and the fifth connecting conduit are also included;

the first end of a first connecting conduit is connected with an air inlet of a generating chamber of the generating chamber, the second end of the first connecting conduit is connected with an air inlet mask, and an induction sensor for inducing whether the air inlet mask is attached to exhale is arranged at an air inlet mask attaching part; the air inlet mask is placed on an air inlet mask support frame arranged on the detection box body;

the first end of the second connecting conduit is connected with the air outlet of the generating chamber, the second end of the second connecting conduit is connected with the air inlet of the filtering chamber, the air inlet pipe of the filtering chamber extends to a position Xmm away from the bottom of the filtering chamber, and X is greater than 0 and less than the liquid level of the filtering chamber; a gas sensor used for sensing whether the generation chamber generates carbon monoxide or not is arranged in the second connecting pipe;

the first end of the third connecting conduit is connected with the air outlet of the filtering chamber, and the second end of the third connecting conduit is connected with the air inlet of the combustion chamber; a first pressure sensor for measuring the weight gain of the filter chamber is arranged between the filter chamber and the filter chamber mounting seat;

the first end of the fourth connecting conduit is connected with the air outlet of the combustion chamber, the second end of the fourth connecting conduit is connected with the air inlet of the settling chamber, the air inlet pipe of the settling chamber extends to a position which is far from the bottom Ymm of the settling chamber, and Y is more than 0 and less than the liquid level of the settling chamber;

the first end of the fifth connecting duct is connected with the air outlet of the sedimentation chamber, and the second end of the fifth connecting duct is connected with the air outlet of the detection box body; a second pressure sensor for measuring the weight increase of the settling chamber is arranged between the settling chamber and the settling chamber mounting seat;

and a PCB circuit board mounting seat arranged in the detection box body and used for fixedly mounting the PBB circuit board, wherein the PCB circuit board is fixedly mounted on the PCB circuit board mounting seat, the PCB is provided with a controller, a network data transmission module and an ID reading module, wherein a network data transmission end of the network data transmission module is connected with a network data transmission end of the controller, a data reading output end of the ID reading module is connected with a data reading input end of the controller, an induction data output end of an induction sensor is connected with an induction data input end of the controller, a pressure data output end of a first pressure sensor is connected with a pressure data first input end of the controller, a pressure data output end of a second pressure sensor is connected with a pressure data second input end of the controller, and a gas sensitive data output end of a gas sensitive sensor is connected with a gas sensitive data input end of the controller; the touch display end of the controller is connected with the touch display end of a touch display screen arranged on the detection box body;

the working system comprises the following steps:

s1, acquiring the measurement data of the user to be measured;

and S2, after the verification is passed, the measurement data in the step S1 is sent to the remote server terminal.

In a preferred embodiment of the present invention, the device further comprises one or any combination of a sixth connecting conduit, a seventh connecting conduit, an eighth connecting conduit, a ninth connecting conduit, a tenth connecting conduit and an eleventh connecting conduit; the filter chamber also comprises a filter chamber sewage draining port and a filter chamber liquid inlet, and the settling chamber also comprises a settling chamber sewage draining port and a settling chamber liquid inlet;

the first end of a sixth connecting conduit is connected with a gas releasing device for releasing cleaning gas, and the second end of the sixth connecting conduit is connected with the first connecting conduit; the gas release control end of the gas release device is connected with the gas release control end of the controller;

the first end of the seventh connecting conduit is connected with a sewage outlet of the filtering chamber, and the second end of the seventh connecting conduit is connected with a waste liquid inlet of a waste liquid collecting box arranged on the detection box body;

the first end of the eighth connecting conduit is connected to the second connecting conduit, and the second end of the eighth connecting conduit is connected to the fifth connecting conduit;

the first end of the ninth connecting conduit is connected with a sewage outlet of the settling chamber, and the second end of the ninth connecting conduit is connected with a waste liquid inlet of a waste liquid collecting box arranged on the detection box body;

the first end of the tenth connecting conduit is connected with a liquid inlet of the settling chamber, the liquid inlet pipe of the settling chamber extends to Zmm which is far away from the bottom of the settling chamber, Z is a positive number greater than 0, and mm represents a unit millimeter of length; the second end of the tenth connecting conduit is connected with a detection tank body precipitation liquid inlet of the detection tank body;

the first end of the eleventh connecting conduit is connected with a liquid inlet of a filter chamber of the filter chamber, the liquid inlet pipe of the filter chamber extends to a distance Mmm from the bottom of the filter chamber, M is a positive number greater than 0, and mm represents a unit millimeter of length; the second end of the eleventh connecting conduit is connected with a filtering liquid inlet of the detection box body.

In a preferred embodiment of the present invention, the electromagnetic valve further comprises one or any combination of a first electromagnetic valve, a second electromagnetic valve, a third electromagnetic valve, a fourth electromagnetic valve, a fifth electromagnetic valve, a sixth electromagnetic valve, a seventh electromagnetic valve, an eighth electromagnetic valve, a ninth electromagnetic valve, a tenth electromagnetic valve, an eleventh electromagnetic valve, a twelfth electromagnetic valve and a thirteenth electromagnetic valve;

the first electromagnetic valve is arranged at the air inlet of the air inlet mask and used for closing and conducting the air inlet of the air inlet mask, and the control end of the first electromagnetic valve is connected with the first control end of the electromagnetic valve of the controller;

the second electromagnetic valve is arranged at the generating chamber air inlet of the generating chamber and used for closing and conducting the generating chamber air inlet of the generating chamber, and the control end of the second electromagnetic valve is connected with the second control end of the electromagnetic valve of the controller;

the third electromagnetic valve is arranged at the gas outlet of the generation chamber and is used for sealing and conducting the gas outlet of the generation chamber, and the control end of the third electromagnetic valve is connected with the third control end of the electromagnetic valve of the controller;

the fourth electromagnetic valve is arranged at the extension end of the filter chamber air inlet pipe of the filter chamber and used for closing and conducting the extension end of the filter chamber air inlet pipe of the filter chamber, and the control end of the fourth electromagnetic valve is connected with the fourth control end of the electromagnetic valve of the controller;

the fifth electromagnetic valve is arranged at the combustion chamber air inlet of the combustion chamber and used for closing and conducting the combustion chamber air inlet of the combustion chamber, and the control end of the fifth electromagnetic valve is connected with the fifth control end of the electromagnetic valve of the controller;

the sixth electromagnetic valve is arranged at the air outlet of the combustion chamber and used for sealing and conducting the air outlet of the combustion chamber, and the control end of the sixth electromagnetic valve is connected with the six control ends of the electromagnetic valves of the controller;

the seventh electromagnetic valve is arranged at the extension end of the air inlet pipe of the settling chamber and used for closing and conducting the extension end of the air inlet pipe of the settling chamber, and the control end of the seventh electromagnetic valve is connected with the seventh control end of the electromagnetic valve of the controller;

the eighth electromagnetic valve is arranged at the gas outlet of the detection box body and is used for closing and conducting the gas outlet of the detection box body, and the control end of the eighth electromagnetic valve is connected with the eighth control end of the electromagnetic valve of the controller;

the ninth electromagnetic valve is arranged at the sewage draining outlet of the filtering chamber and used for sealing and conducting the sewage draining outlet of the filtering chamber, and the control end of the ninth electromagnetic valve is connected with the ninth control end of the electromagnetic valve of the controller;

the tenth electromagnetic valve is arranged at the sewage discharge port of the settling chamber and used for closing and conducting the sewage discharge port of the settling chamber, and the control end of the tenth electromagnetic valve is connected with the tenth control end of the electromagnetic valve of the controller;

the eleventh electromagnetic valve is provided with a detection box body filtering liquid inlet of the detection box body and used for sealing and conducting the detection box body filtering liquid inlet of the detection box body, and the control end of the eleventh electromagnetic valve is connected with the eleventh control end of the electromagnetic valve of the controller;

the twelfth electromagnetic valve is arranged on the detection box body precipitation liquid inlet of the detection box body and used for closing and conducting the detection box body precipitation liquid inlet of the detection box body, and the control end of the twelfth electromagnetic valve is connected with the twelfth control end of the electromagnetic valve of the controller;

the thirteenth electromagnetic valve is arranged at the first end of the eighth connecting conduit and used for closing and conducting the first end of the eighth connecting conduit, and the control end of the thirteenth electromagnetic valve is connected with the thirteenth control end of the electromagnetic valve of the controller.

In a preferred embodiment of the present invention, the first to twelfth solenoid valves are normally closed solenoid valves, and the method further includes step S0 of initializing a system, where the system initialization includes the steps of:

s01, detecting whether the weight gain of the filtering chamber or/and the weight gain of the settling chamber is larger than or equal to the weight gain threshold value preset in the corresponding filtering chamber and the weight gain threshold value preset in the settling chamber:

if the weight gain of the filter chamber is greater than or equal to the preset weight gain threshold value of the filter chamber, a warning is sent out, and solution in the filter chamber is added into the filter chamber;

if the weight gain of the settling chamber is greater than or equal to the preset weight gain threshold value of the settling chamber, a warning is given, and solution in the settling chamber is added into the settling chamber;

otherwise, executing the next step;

s02, controlling the gas releasing device to release the cleaning gas by the controller; the controller sequentially sends conduction control commands to the second electromagnetic valve, the third electromagnetic valve, the fourth electromagnetic valve, the fifth electromagnetic valve, the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve respectively according to the sequence; leading the closed pipeline of the device to be communicated;

s03, after the gas to be cleaned removes the impurity gas in the generating chamber, the filtering chamber, the combustion chamber and the settling chamber; the controller respectively sends a sealing control signal to the seventh electromagnetic valve and the fourth electromagnetic valve and then respectively sends a sealing control command to the second electromagnetic valve, the third electromagnetic valve, the fifth electromagnetic valve, the sixth electromagnetic valve and the eighth electromagnetic valve; after the second electromagnetic valve closes the pipeline, the controller controls the gas releasing device to stop releasing the cleaning gas;

s04, the controller collects the weight of the filtering chamber and the weight of the settling chamber at this time as the initial weight of the filtering chamber and the initial weight of the settling chamber, respectively.

In a preferred embodiment of the present invention, step S1 includes the following steps:

s11, acquiring identity information of the user to be detected; after the identity information of the user to be detected is obtained, the next step is executed;

s12, if the controller detects that the induction sensor sends out an induction signal, the controller respectively sends out conduction control commands to the first electromagnetic valve and the second electromagnetic valve to conduct the closed pipelines; introducing gas exhaled by a user to be detected into a generation chamber;

s13, if the controller does not detect that the induction sensor sends out an induction signal, the controller respectively sends out a closing control command to the first electromagnetic valve to close the pipeline; the controller controls the gas releasing device to release the cleaning gas; t is t₁After s time, t₁The positive number is more than 0, s is time unit second, and the controller controls the gas release device to stop releasing the cleaning gas;

s14, after the gas in the generating chamber reacts, the controller sends a conduction control command to the third electromagnetic valve to conduct the conduit;

s15, if the gas sensor does not detect carbon monoxide, the controller sends conduction control commands to the eighth solenoid valve and the thirteenth solenoid valve in sequence to enable the fifth connecting conduit and the eighth connecting conduit to be conducted, and exhaust gas of the fifth connecting conduit and the eighth connecting conduit is discharged out of the detection box body; after the waste gas is discharged out of the detection box body, the controller sends a closing control command to the third electromagnetic valve, the eighth electromagnetic valve and the thirteenth electromagnetic valve to close the guide pipe; returning to step S21 or S22;

if the gas sensor detects carbon monoxide, the controller sends a conduction control command to the fourth electromagnetic valve and the fifth electromagnetic valve, converts gas exhaled by a user into carbon monoxide gas for the generation chamber, and then the carbon monoxide gas enters the combustion chamber after being introduced into the filter chamber;

s11116, after the gas in the filtering chamber enters the combustion chamber, the controller sends a closing control command to the fifth electromagnetic valve to convert the carbon monoxide entering the combustion chamber into carbon dioxide, after the conversion is finished, the controller sends a conducting control command to the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve to introduce the gas converted by the combustion chamber into the precipitation chamber and discharge the gas out of the detection box body; after the gas is discharged, the controller sends a closing control command to the eighth electromagnetic valve to close the pipeline;

s17, calculating the variation of the settling chamber:

Q＝Q₁-Q₀，

wherein Q represents the amount of change in the settling chamber;

Q₁represents the weight detected by the second pressure sensor after the gas enters the settling chamber;

Q₀indicating the weight detected by the second pressure sensor before the gas enters the settling chamber.

In a preferred embodiment of the present invention, step S11 includes the following steps:

s111, if the controller receives an ID reading module work trigger signal, the controller sends a work control signal to the ID reading module, the ID reading module obtains ID card information of the ID reading module, and the ID card comprises one or any combination of an identity card, a social security medical card and a bank card; the ID card information comprises a user identity card number;

s112, processing the user ID card number in a data processing mode as follows:

s113, sending the obtained new ID card number to a remote server terminal for verification:

if the new ID card number exists in the remote server terminal, sending a verification pass code to the detection box body;

and if the new identification number does not exist in the remote server terminal, storing the new identification number in a remote server terminal database, and sending a verification pass code to the detection box body.

In a preferred embodiment of the present invention, step S2 includes the following steps:

s21, sending the data obtained by measurement and the identity information corresponding to the data obtained by measurement to a remote server terminal;

and S22, after the remote server terminal receives the data obtained by measurement and the identity information corresponding to the data obtained by measurement, the remote server terminal inquires the mobile phone number associated with the identity information, and sends the measurement data to the mobile intelligent handheld terminal through the mobile phone number.

In a preferred embodiment of the present invention, S15, if the gas sensor does not detect carbon monoxide, the controller sequentially sends a conduction control command to the eighth solenoid valve and the thirteenth solenoid valve to conduct the fifth connecting conduit and the eighth connecting conduit, and the controller controls the gas releasing device to release the cleaning gas and then sends a conduction control command to the second solenoid valve to discharge the exhaust gas out of the detection box; after the waste gas is discharged out of the detection box body, the controller sends a closing control command to the second electromagnetic valve, the third electromagnetic valve, the eighth electromagnetic valve and the thirteenth electromagnetic valve to close the guide pipe of the second electromagnetic valve; the controller controls the gas releasing device to stop releasing the cleaning gas, and returns to step S11 or S12;

s16, after the gas in the filtering chamber enters the combustion chamber, the controller sends a closing control command to the fifth electromagnetic valve to convert the carbon monoxide entering the combustion chamber into carbon dioxide, after the conversion is completed, the controller sends a conducting control command to the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve, the controller controls the gas releasing device to release cleaning gas, and then sends conducting control commands to the second electromagnetic valve, the third electromagnetic valve, the fourth electromagnetic valve and the fifth electromagnetic valve to introduce the gas converted by the combustion chamber into the settling chamber and discharge the gas out of the detection box body; after the gas is discharged, the controller controls the gas releasing device to stop releasing the cleaning gas; and the controller sends a closing control command to the second electromagnetic valve, the third electromagnetic valve, the fourth electromagnetic valve, the fifth electromagnetic valve, the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve to close the pipelines.

In a preferred embodiment of the present invention, when the controller receives the filter chamber cleaning priming triggering signal, the method comprises the following steps:

s31, the controller operates T to the filter chamber vibration pump installed in the filter chamber₁After s, the T₁Is a positive number greater than or equal to 0, s is a unit of time of secondsThe controller sends a conduction control command to the ninth electromagnetic valve to conduct the seventh connecting conduit, so that the waste liquid in the filtering chamber is discharged out of the filtering chamber, and after the waste liquid in the filtering chamber is discharged out of the filtering chamber, the controller sends stop information to the vibrating pump of the filtering chamber and sends a sealing control command to the ninth electromagnetic valve;

s32, after the vibration pump in the filtering chamber stops working and the seventh connecting conduit is closed, the controller sends a conduction control command to the eleventh electromagnetic valve to conduct the eleventh connecting conduit, and liquid is added into the filtering chamber through the liquid inlet of the filtering chamber; after the liquid is added, the controller sends a closing control command to the eleventh electromagnetic valve of the controller to close the conduit of the eleventh electromagnetic valve;

when the controller receives a cleaning liquid adding trigger signal of the settling chamber, the method comprises the following steps:

s33, the controller operates T to the settling chamber vibration pump installed in the settling chamber₂After s, the T₂The positive number is greater than or equal to 0, s is time unit second, the controller sends a conduction control command to a tenth electromagnetic valve of the controller to conduct a ninth connecting conduit of the controller, waste liquid in a settling chamber of the controller is discharged out of the settling chamber, and after the waste liquid in the settling chamber is discharged out of the settling chamber, the controller sends stop work information to a vibrating pump of the settling chamber of the controller and sends a closing control command to the tenth electromagnetic valve;

s34, after the vibration pump of the settling chamber stops working and the ninth connecting conduit is closed, the controller sends a conduction control command to the twelfth electromagnetic valve of the settling chamber to conduct the tenth connecting conduit, and liquid is added into the settling chamber through the liquid inlet of the settling chamber; after the liquid is added, the controller sends a closing control command to the twelfth electromagnetic valve to close the conduit.

In summary, due to the adoption of the technical scheme, the data collected by the working system can be transmitted to the remote server terminal after being safely verified, and is transmitted to the corresponding mobile intelligent handheld terminal through the safe mobile phone number to be displayed.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic diagram of the present invention.

FIG. 2 is a block diagram illustrating the flow of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of illustrating the present invention and are not to be construed as limiting the present invention.

The invention provides an informatization working system based on public health service health management application automatic evaluation system, which comprises a detection box body 6, wherein a generation chamber mounting seat for fixedly mounting a generation chamber 21, a filter chamber mounting seat for fixedly mounting a filter chamber 25, a combustion chamber mounting seat for fixedly mounting a combustion chamber 29 and a settling chamber mounting seat for fixedly mounting a settling chamber 3 are arranged in the detection box body 6; the generating chamber 21 is fixedly arranged on a generating chamber mounting seat, the filtering chamber 25 is fixedly arranged on a filtering chamber mounting seat, the combustion chamber 29 is fixedly arranged on a combustion chamber mounting seat, and the settling chamber 3 is fixedly arranged on a settling chamber mounting seat; in the present embodiment, the generation chamber 21 is used for converting acetone entering the generation chamber 21 into carbon monoxide, and the combustion chamber 29 is used for converting carbon monoxide entering the combustion chamber 29 into carbon dioxide. The solution in the filtering chamber 25 is a barium chloride or calcium chloride saturated solution to absorb the carbon dioxide gas exhaled by the user, so as to prevent errors, and similarly, the solution in the settling chamber 3 may also be a barium chloride or calcium chloride saturated solution to absorb the carbon dioxide gas generated by the combustion chamber 29, so as to facilitate calculation.

The generation chamber 21 comprises a generation chamber air inlet and a generation chamber air outlet, the filter chamber 25 comprises a filter chamber air inlet and a filter chamber air outlet, the combustion chamber 29 comprises a combustion chamber air inlet and a combustion chamber air outlet, and the settling chamber 3 comprises a settling chamber air inlet and a settling chamber air outlet;

further comprising a first connecting duct 13, a second connecting duct 16, a third connecting duct 26, a fourth connecting duct 7 and a fifth connecting duct 5;

the first end of a first connecting conduit 13 is connected with the air inlet of the generating chamber 21 of the generating chamber, the second end of the first connecting conduit 13 is connected with the air inlet mask 10, and an induction sensor used for inducing whether the air inlet mask 10 is jointed to exhale is arranged at the jointing part of the air inlet mask 10; the air inlet mask 10 is placed on an air inlet mask support frame 11 arranged on the detection box body 6;

the first end of the second connecting conduit 16 is connected with the generation chamber air outlet of the generation chamber 21, the second end of the second connecting conduit 16 is connected with the filter chamber air inlet of the filter chamber 25, the filter chamber air inlet pipe of the filter chamber 25 extends to Xmm away from the chamber bottom of the filter chamber 25, X is more than 0 and less than the liquid level height of the filter chamber 25, and mm represents the length unit millimeter; preferably, X is 15-35. A gas sensor 15 for sensing whether the generation chamber 21 generates carbon monoxide or not is provided in the second connection pipe 16;

a first end of the third connecting duct 26 is connected to the filter chamber air outlet of the filter chamber 25, and a second end of the third connecting duct 26 is connected to the combustion chamber air inlet of the combustion chamber 29; a first pressure sensor for measuring the weight gain of the filter chamber is arranged between the filter chamber 25 and the filter chamber mounting seat;

the first end of the fourth connecting conduit 7 is connected with the combustion chamber air outlet of the combustion chamber 29, the second end of the fourth connecting conduit 7 is connected with the settling chamber air inlet of the settling chamber 3, the settling chamber air inlet pipe of the settling chamber 3 extends to a position Ymm which is far away from the bottom of the settling chamber 3, Y is more than 0 and less than the liquid level of the settling chamber 3, and mm represents the length unit millimeter; preferably, Y is 18-35.

The first end of the fifth connecting duct 5 is connected with the air outlet of the settling chamber 3, and the second end of the fifth connecting duct 5 is connected with the air outlet 4 of the detection box body 6; a second pressure sensor for measuring the weight increase of the settling chamber is arranged between the settling chamber 3 and the settling chamber mounting seat;

and a PCB circuit board mounting seat arranged in the detection box body 6 and used for fixedly mounting a PCB circuit board, wherein the PCB circuit board is fixedly arranged on the PCB circuit board mounting seat, a controller, a network data transmission module and an ID reading module are arranged on the PCB, a network data transmission end of the network data transmission module is connected with a network data transmission end of the controller, a data reading output end of the ID reading module is connected with a data reading input end of the controller, a sensing data output end of a sensing sensor is connected with a sensing data input end of the controller, a pressure data output end of a first pressure sensor is connected with a pressure data first input end of the controller, a pressure data output end of a second pressure sensor is connected with a pressure data second input end of the controller, and a gas-sensitive data output end of a gas-sensitive sensor 15 is connected with a gas-sensitive data input end of the controller; the touch display end of the controller is connected with the touch display end of the touch display screen arranged on the detection box body 6. In this embodiment, the network data transmission module includes a network data wireless transmission module or/and a network data wired transmission module, a network data wireless transmission end of the network data wireless transmission module is connected with a network data wireless transmission end of the controller, and a network data wired transmission end of the network data wired transmission module is connected with a network data wired transmission end of the controller; the network data wireless transmission module comprises one or any combination of a network data wireless 3G transmission module, a network data wireless 4G transmission module, a network data wireless 5G transmission module and a network data wireless WiFi transmission module; a network data wireless 3G transmission end of the network data wireless 3G transmission module is connected with a network data wireless 3G transmission end of the controller, a network data wireless 4G transmission end of the network data wireless 4G transmission module is connected with a network data wireless 4G transmission end of the controller, a network data wireless 5G transmission end of the network data wireless 5G transmission module is connected with a network data wireless 5G transmission end of the controller, and a network data wireless WiFi transmission end of the network data wireless WiFi transmission module is connected with a network data wireless WiFi transmission end of the controller; the network wired transmission module comprises a network data wired hundred-million transmission module or/and a network data wired giga transmission module, and a network data wired hundred-million transmission end of the network data wired hundred-million transmission module is connected with a network data wired hundred-million transmission end of the controller; the network data wired gigabit transmission end of the network data wired gigabit transmission module is connected with the network data wired gigabit transmission end of the controller.

The working system comprises the following steps:

s1, acquiring the measurement data of the user to be measured;

and S2, after the verification is passed, transmitting the measurement data in the step S1 to the remote server terminal.

In a preferred embodiment of the present invention, further comprises one or any combination of a sixth connecting conduit 12, a seventh connecting conduit 24, an eighth connecting conduit 9, a ninth connecting conduit 28, a tenth connecting conduit 2, and an eleventh connecting conduit; the filter chamber 25 also comprises a filter chamber sewage draining port and a filter chamber liquid inlet, and the settling chamber 3 also comprises a settling chamber sewage draining port and a settling chamber liquid inlet 1;

the first end of the sixth connecting conduit 12 is connected to a gas releasing device for releasing the cleaning gas, and the cleaning gas released by the gas releasing device is not limited to nitrogen or helium and can be selected according to actual requirements. The second end of the sixth connecting duct 12 is connected to the first connecting duct 13; the gas release control end of the gas release device is connected with the gas release control end of the controller;

the first end of the seventh connecting conduit 24 is connected with the sewage outlet of the filtering chamber 25, and the second end of the seventh connecting conduit 24 is connected with the waste liquid inlet of the waste liquid collecting box 22 arranged on the detection box body 6;

the first end of the eighth connecting duct 9 is connected to the second connecting duct 16, and the second end of the eighth connecting duct 9 is connected to the fifth connecting duct 5;

a first end of a ninth connecting conduit 28 is connected with a sewage outlet of the settling chamber 3, and a second end of the ninth connecting conduit 28 is connected with a waste liquid inlet of the waste liquid collecting box 22 arranged on the detection box body 6;

the first end of the tenth connecting conduit 2 is connected with a liquid inlet of the settling chamber 3, a liquid inlet pipe of the settling chamber 3 extends to a position Zmm which is far away from the bottom of the settling chamber 3, Z is a positive number greater than 0, and mm represents a length unit millimeter; preferably, Z is 15-40. The second end of the tenth connecting conduit 2 is connected with a detection box body precipitation liquid inlet 1 of a detection box body 6;

the first end of the eleventh connecting conduit is connected with a liquid inlet of the filtering chamber 25, the liquid inlet of the filtering chamber 25 extends to a distance Mmm from the bottom of the filtering chamber 25, M is a positive number greater than 0, and mm represents a unit millimeter of length; preferably, M is 20-30. The second end of the eleventh connecting conduit is connected with a detection box body filtering liquid inlet of the detection box body 6.

In a preferred embodiment of the present invention, one or any combination of the first solenoid valve, the second solenoid valve 18, the third solenoid valve, the fourth solenoid valve 17, the fifth solenoid valve 27, the sixth solenoid valve, the seventh solenoid valve 8, the eighth solenoid valve, the ninth solenoid valve, the tenth solenoid valve, the eleventh solenoid valve, the twelfth solenoid valve, and the thirteenth solenoid valve 14 is further included;

the first electromagnetic valve is arranged at the air inlet of the air inlet mask 10 and used for closing and conducting the air inlet of the air inlet mask 10, and the control end of the first electromagnetic valve is connected with the first control end of the electromagnetic valve of the controller;

the second electromagnetic valve 18 is arranged at the generating chamber air inlet of the generating chamber 21 and is used for closing and conducting the generating chamber air inlet of the generating chamber 21, and the control end of the second electromagnetic valve 18 is connected with the second control end of the electromagnetic valve of the controller;

the third electromagnetic valve is arranged at the gas outlet of the generation chamber 21 and used for closing and conducting the gas outlet of the generation chamber 21, and the control end of the third electromagnetic valve is connected with the third control end of the electromagnetic valve of the controller;

the fourth electromagnetic valve 17 is arranged at the extension end of the filter chamber air inlet pipe of the filter chamber 25 and is used for closing and conducting the extension end of the filter chamber air inlet pipe of the filter chamber 25, and the control end of the fourth electromagnetic valve 17 is connected with the fourth control end of the electromagnetic valve of the controller;

the fifth electromagnetic valve 27 is arranged at the combustion chamber air inlet of the combustion chamber 29 and is used for closing and conducting the combustion chamber air inlet of the combustion chamber 29, and the control end of the fifth electromagnetic valve 27 is connected with the fifth control end of the electromagnetic valve of the controller;

the sixth electromagnetic valve is arranged at the combustion chamber air outlet of the combustion chamber 29 and is used for closing and conducting the combustion chamber air outlet of the combustion chamber 29, and the control end of the sixth electromagnetic valve is connected with the six control ends of the electromagnetic valves of the controller;

the seventh electromagnetic valve 8 is arranged at the extension end of the air inlet pipe of the settling chamber 3 and is used for closing and conducting the extension end of the air inlet pipe of the settling chamber 3, and the control end of the seventh electromagnetic valve 8 is connected with the seventh control end of the electromagnetic valve of the controller;

the eighth electromagnetic valve is arranged at the gas outlet 4 of the detection box body 6 and is used for closing and conducting the gas outlet 4 of the detection box body 6, and the control end of the eighth electromagnetic valve is connected with the eighth control end of the electromagnetic valve of the controller;

the ninth electromagnetic valve is arranged at the sewage draining outlet of the filtering chamber 25 and is used for sealing and conducting the sewage draining outlet of the filtering chamber 25, and the control end of the ninth electromagnetic valve is connected with the ninth control end of the electromagnetic valve of the controller;

the tenth electromagnetic valve is arranged at the sewage draining outlet of the settling chamber 3 and is used for sealing and conducting the sewage draining outlet of the settling chamber 3, and the control end of the tenth electromagnetic valve is connected with the tenth control end of the electromagnetic valve of the controller;

the eleventh electromagnetic valve is provided with a detection box body filtering liquid inlet of the detection box body 6 and used for closing and conducting the detection box body filtering liquid inlet of the detection box body 6, and the control end of the eleventh electromagnetic valve is connected with the eleventh control end of the electromagnetic valve of the controller;

the twelfth electromagnetic valve is arranged on the detection box body precipitation liquid inlet of the detection box body 6 and is used for closing and conducting the detection box body precipitation liquid inlet 1 of the detection box body 6, and the control end of the twelfth electromagnetic valve is connected with the twelfth control end of the electromagnetic valve of the controller;

the thirteenth electromagnetic valve 14 is disposed at the first end of the eighth connecting conduit 9 and is used for closing and conducting the first end of the eighth connecting conduit 9, and a control end of the thirteenth electromagnetic valve 14 is connected with a thirteenth control end of the electromagnetic valve of the controller. In the present embodiment, it is preferable that an exhaust pump is provided in the fifth connecting duct to facilitate the gas in the generation chamber 21 and the precipitation chamber 3 to be exhausted from the generation chamber 21 and the precipitation chamber 3.

In a preferred embodiment of the present invention, the first to twelfth electromagnetic valves are normally closed electromagnetic valves, that is, the controller sends a closing control command to the first to twelfth electromagnetic valves, and the pipelines corresponding to the first to twelfth electromagnetic valves are in a pipeline closing state; when the controller sends conduction control commands to the first electromagnetic valve to the twelfth electromagnetic valve, the pipelines corresponding to the first electromagnetic valve to the twelfth electromagnetic valve are in a pipeline conduction state; the step S0 includes the following steps:

s01, detecting whether the weight gain of the filtering chamber or/and the weight gain of the settling chamber is larger than or equal to the weight gain threshold value preset in the corresponding filtering chamber and the weight gain threshold value preset in the settling chamber:

if the weight gain of the filtering chamber is larger than or equal to the preset weight gain threshold value of the filtering chamber, a warning is sent out, and the filtering chamber solution is added into the filtering chamber 25; the solution in the filter chamber is saturated barium chloride solution.

If the weight gain of the settling chamber is larger than or equal to the preset weight gain threshold value of the settling chamber, a warning is given, and solution in the settling chamber is added into the settling chamber 3; the solution in the precipitation chamber is a saturated solution of barium chloride.

Otherwise, executing the next step;

s02, controlling the gas releasing device to release the cleaning gas by the controller; the controller sequentially sends conduction control commands to the second electromagnetic valve 18, the third electromagnetic valve, the fourth electromagnetic valve 17, the fifth electromagnetic valve 27, the sixth electromagnetic valve, the seventh electromagnetic valve 8 and the eighth electromagnetic valve respectively in sequence; leading the closed pipeline of the device to be communicated;

s03, after the gas to be cleaned removes the impurity gases in the generating chamber 21, the filter chamber 25, the combustion chamber 29 and the settling chamber 3; the controller respectively sends a closing control signal to the seventh electromagnetic valve 8 and the fourth electromagnetic valve 17, and then respectively sends closing control commands to the second electromagnetic valve 18, the third electromagnetic valve, the fifth electromagnetic valve 27, the sixth electromagnetic valve and the eighth electromagnetic valve; after the second electromagnetic valve 18 closes the pipeline, the controller controls the gas releasing device to stop releasing the cleaning gas;

s04, the controller collects the weight of the filtering chamber and the weight of the settling chamber at this time as the initial weight of the filtering chamber and the initial weight of the settling chamber, respectively.

In a preferred embodiment of the present invention, step S1 includes the following steps:

s11, acquiring identity information of the user to be detected; after the identity information of the user to be detected is obtained, the next step is executed;

s12, if the controller detects that the induction sensor sends out an induction signal, the controller respectively sends out conduction control commands to the first electromagnetic valve and the second electromagnetic valve 18 to conduct the closed pipelines; introducing the gas exhaled by the user to be tested into the generation chamber 21;

s13, if the controller does not detect that the induction sensor sends out an induction signal, the controller respectively sends out a closing control command to the first electromagnetic valve to close the pipeline; the controller controls the gas releasing device to release the cleaning gas; t is t₁After s time, t₁Is a positive number greater than 0, s is time unit second, t₁Taking 0.5-1.5. The controller controls the gas releasing device to stop releasing the cleaning gas;

s14, after the gas in the generating chamber 21 reacts, the controller sends a conduction control command to the third electromagnetic valve to conduct the conduit;

s115, if the gas sensor 15 does not detect carbon monoxide, the controller sequentially sends a conduction control command to the eighth electromagnetic valve and the thirteenth electromagnetic valve 14 to enable the fifth connecting conduit 5 and the eighth connecting conduit 9 to be conducted, and waste gas is discharged out of the detection box body 6; after the waste gas is discharged out of the detection box body 6, the controller sends a closing control command to the third electromagnetic valve, the eighth electromagnetic valve and the thirteenth electromagnetic valve 14 to close the guide pipes; returning to step S11 or S12;

if the gas sensor 15 detects carbon monoxide, the controller sends a conduction control command to the fourth electromagnetic valve 17 and the fifth electromagnetic valve 27, converts the gas exhaled by the user into carbon monoxide gas for the generation chamber 21, and then the carbon monoxide gas enters the filtering chamber 25 and then enters the combustion chamber 29;

s16, after the gas in the filtering chamber 25 enters the combustion chamber 29, the controller sends a closing control command to the fifth electromagnetic valve 27 to convert the carbon monoxide entering the combustion chamber 29 into carbon dioxide, after the conversion is finished, the controller sends a conducting control command to the sixth electromagnetic valve, the seventh electromagnetic valve 8 and the eighth electromagnetic valve to introduce the gas converted by the combustion chamber 29 into the precipitation chamber 3 and discharge the gas out of the detection box 6; after the gas is exhausted, the controller sends a closing control command to the eighth electromagnetic valve to close the pipeline;

s17, calculating the variation of the settling chamber:

Q＝Q₁-Q₀，

wherein Q represents the amount of change in the settling chamber;

Q₁represents the weight detected by the second pressure sensor after the gas enters the settling chamber;

Q₀indicating the weight detected by the second pressure sensor before the gas enters the settling chamber.

In a preferred embodiment of the present invention, step S11 includes the following steps:

s111, if the controller receives an ID reading module work trigger signal, the controller sends a work control signal to the ID reading module, the ID reading module obtains ID card information of the ID reading module, and the ID card comprises one or any combination of an identity card, a social security medical card and a bank card; the ID card information comprises a user identity card number;

s112, processing the user ID card number in a data processing mode as follows:

s1121, selecting a continuous digit k, wherein the k is greater than or equal to 4 and less than or equal to the number digit of the user identity card number;

s1122, MD5 hash operation is carried out on the number of the selected user identity card number to obtain an MD5 hash value, and the method for obtaining the MD5 hash value comprises the following steps:

γ(p_k′p_k′+1p_k′+2…p_k′+k)＝MD5(p_k′p_k′+1p_k′+2…p_k′+k)，

wherein p is₁p₂p₃…p_KRepresenting an identification number;

p_iindicating the ith bit number in the ID card number; i is a positive integer greater than or equal to 1 and less than or equal to K; k is the total number of the ID card number;

p_k′p_k′+1p_k′+2…p_k′+kindicating the secondary identification number p₁p₂p₃…p_KSelecting a number with continuous digits of k; k' is greater than or equal to 1 and less than or equal to K-K + 1;

MD5() represents the MD5 hash operation;

γ () represents an MD5 hash value obtained by performing MD5 hash operation;

s1123, replacing the selected number with the continuous digits of k with the obtained MD5 hash value to obtain a new identity card number;

s113, sending the obtained new ID card number to a remote server terminal for verification:

if the new ID card number exists in the remote server terminal, sending a verification pass code to the detection box body;

and if the new identification number does not exist in the remote server terminal, storing the new identification number in a remote server terminal database, and sending a verification pass code to the detection box body.

In a preferred embodiment of the present invention, step S2 includes the following steps:

s21, sending the data obtained by measurement and the identity information corresponding to the data obtained by measurement to a remote server terminal;

and S22, after the remote server terminal receives the data obtained by measurement and the identity information corresponding to the data obtained by measurement, the remote server terminal inquires the mobile phone number associated with the identity information, and sends the measurement data to the mobile intelligent handheld terminal through the mobile phone number. In a preferred embodiment of the present invention, in step S22, the method further includes restoring the mobile phone number obtained by querying the remote server terminal, and the step includes:

s221, acquiring non-digital continuous codes in the mobile phone number; the non-digital continuous code is one or any combination of A to J and a to J;

s222, mapping the obtained continuous codes to obtain an MD5 hash value; the mapping relationship is shown in table 1;

table 1 relationship between consecutive codes and MD5 hash values

S223, inquiring the obtained MD5 hash value to obtain a digital code of the MD5 hash value;

and S224, replacing the continuous codes with the obtained digital codes to obtain the restored mobile phone number of the continuous codes.

In this embodiment, the remote server terminal performs the following operations on the acquired mobile phone number:

the first step is as follows: selecting a mobile phone number with a continuous digit b, namely a digital code; b is greater than or equal to 4 and less than or equal to the number of digits of the mobile phone number;

secondly, performing MD5 hash operation on the selected mobile phone number digits to obtain an MD5 hash value, wherein the method for obtaining the MD5 hash value comprises the following steps:

ξ(C_b′C_b′+1C_b′+2…C_b′+b)＝MD5(C_b′C_b′+1C_b′+2…C_b′+b)，

wherein, C₁C₂C₃…C_BRepresenting a mobile phone number;

C_jthe j number in the mobile phone number is represented; j is a positive integer greater than or equal to 1 and less than or equal to B; b is the total number of digits of the ID card number;

C_b′C_b′+1C_b′+2…C_b′+bindicating the secondary identification number C₁C₂C₃…C_BSelecting a number with continuous digits as b; b' is greater than or equal to 1 and less than or equal to B-B + 1;

MD5() represents the MD5 hash operation;

ξ () represents the MD5 hash value obtained by performing MD5 hash operation;

thirdly, the MD5 hash value is associated with the digital code, and the digital code is obtained through the MD5 hash value query; converting the obtained MD5 hash value into a decimal system to obtain a decimal MD5 hash value, and mapping the decimal MD5 hash value to obtain a continuous code; the mapping relationship is shown in table 2;

table 2 relationship between consecutive codes and MD5 hash values

And fourthly, replacing the digital codes with continuous codes to obtain the safe mobile phone number.

In a preferred embodiment of the present invention, S15, if the gas sensor 15 does not detect carbon monoxide, the controller sequentially sends a conduction control command to the eighth solenoid valve and the thirteenth solenoid valve 14 to conduct the fifth connecting conduit 5 and the eighth connecting conduit 9, and the controller controls the gas releasing device to release the cleaning gas and then sends a conduction control command to the second solenoid valve 18 to discharge the exhaust gas from the detection box 6; after the waste gas is discharged out of the detection box body 6, the controller sends a closing control command to the second electromagnetic valve 18, the third electromagnetic valve, the eighth electromagnetic valve and the thirteenth electromagnetic valve 14 to close the guide pipe; the controller controls the gas releasing device to stop releasing the cleaning gas, and returns to step S11 or S12;

s16, after the gas in the filtering chamber 25 enters the combustion chamber 29, the controller sends a closing control command to the fifth electromagnetic valve 27 to convert the carbon monoxide entering the combustion chamber 29 into carbon dioxide, after the conversion is completed, the controller sends a conducting control command to the sixth electromagnetic valve, the seventh electromagnetic valve 8 and the eighth electromagnetic valve, controls the gas releasing device to release cleaning gas, then sends a conducting control command to the second electromagnetic valve 18, the third electromagnetic valve, the fourth electromagnetic valve 17 and the fifth electromagnetic valve 27, and discharges the gas converted in the combustion chamber 29 out of the detection box 6 after being introduced into the settling chamber 3; after the gas is discharged, the controller controls the gas releasing device to stop releasing the cleaning gas; the controller sends closing control commands to the second solenoid valve 18, the third solenoid valve, the fourth solenoid valve, the fifth solenoid valve 27, the sixth solenoid valve, the seventh solenoid valve 7 and the eighth solenoid valve to close the pipelines thereof.

In a preferred embodiment of the present invention, when the controller receives the filter chamber cleaning priming triggering signal, the method comprises the following steps:

s31, the controller operates T the filter chamber vibration pump to which it is installed in the filter chamber 21₁After s, the T₁Is a positive number greater than or equal to 0, s is time unit of seconds, T₁Taking 10-25. The controller sends a conduction control command to the ninth electromagnetic valve to conduct the seventh connecting conduit, so that the waste liquid in the filter chamber 21 is discharged out of the filter chamber 21, and after the waste liquid in the filter chamber 21 is discharged out of the filter chamber 21, the controller sends a stop working message to the vibration pump of the filter chamber and sends a sealing control command to the ninth electromagnetic valve;

s32, after the vibration pump in the filtering chamber stops working and the seventh connecting conduit 24 is closed, the controller sends a conduction control command to the eleventh electromagnetic valve to conduct the eleventh connecting conduit, and liquid is added into the filtering chamber through the liquid inlet of the filtering chamber; after the liquid is added, the controller sends a closing control command to the eleventh electromagnetic valve of the controller to close the guide pipe of the eleventh electromagnetic valve;

when the controller receives a cleaning liquid adding trigger signal of the settling chamber, the method comprises the following steps:

s33, the controller operates T the settling chamber vibration pump installed in the settling chamber 3₂After s, the T₂Is a positive number greater than or equal to 0, s is time unit of seconds, T₂Taking 12-22. The controller sends a conduction control command to the tenth electromagnetic valve to conduct the ninth connecting conduit, so that the waste liquid in the settling chamber 3 is discharged out of the settling chamber 3, and after the waste liquid in the settling chamber 3 is discharged out of the settling chamber 3, the controller sends stop information to the vibrating pump of the settling chamber and sends a closing control command to the tenth electromagnetic valve;

s34, after the vibration pump of the settling chamber stops working and the ninth connecting conduit 28 is closed, the controller sends a conduction control command to the twelfth electromagnetic valve of the settling chamber to conduct the tenth connecting conduit 2, and liquid is added into the settling chamber through a liquid inlet of the settling chamber; after the liquid is added, the controller sends a closing control command to the twelfth electromagnetic valve to close the guide pipe.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. A public health service health management application-based automatic evaluation system informatization operation system comprises a detection box body, and is characterized in that a generation chamber mounting seat for fixedly mounting a generation chamber, a filter chamber mounting seat for fixedly mounting a filter chamber, a combustion chamber mounting seat for fixedly mounting a combustion chamber and a settling chamber mounting seat for fixedly mounting a settling chamber are arranged in the detection box body; the generating chamber is fixedly arranged on a generating chamber mounting seat, the filtering chamber is fixedly arranged on a filtering chamber mounting seat, the combustion chamber is fixedly arranged on a combustion chamber mounting seat, and the settling chamber is fixedly arranged on a settling chamber mounting seat;

the generating chamber comprises a generating chamber air inlet and a generating chamber air outlet, the filtering chamber comprises a filtering chamber air inlet and a filtering chamber air outlet, the combustion chamber comprises a combustion chamber air inlet and a combustion chamber air outlet, and the settling chamber comprises a settling chamber air inlet and a settling chamber air outlet;

the first connecting conduit, the second connecting conduit, the third connecting conduit, the fourth connecting conduit and the fifth connecting conduit are also included;

the first end of a first connecting conduit is connected with an air inlet of a generating chamber of the generating chamber, the second end of the first connecting conduit is connected with an air inlet mask, and an induction sensor for inducing whether the air inlet mask is attached to exhale is arranged at an air inlet mask attaching part; the air inlet mask is placed on an air inlet mask support frame arranged on the detection box body;

the first end of the second connecting conduit is connected with the air outlet of the generating chamber, the second end of the second connecting conduit is connected with the air inlet of the filtering chamber, the air inlet pipe of the filtering chamber extends to a position Xmm away from the bottom of the filtering chamber, and X is greater than 0 and less than the liquid level of the filtering chamber; a gas sensor used for sensing whether the generation chamber generates carbon monoxide or not is arranged in the second connecting pipe;

the first end of the third connecting conduit is connected with the air outlet of the filtering chamber, and the second end of the third connecting conduit is connected with the air inlet of the combustion chamber; a first pressure sensor for measuring the weight gain of the filter chamber is arranged between the filter chamber and the filter chamber mounting seat;

the first end of the fourth connecting conduit is connected with the air outlet of the combustion chamber, the second end of the fourth connecting conduit is connected with the air inlet of the settling chamber, the air inlet pipe of the settling chamber extends to a position which is far from the bottom Ymm of the settling chamber, and Y is more than 0 and less than the liquid level of the settling chamber;

the first end of the fifth connecting duct is connected with the air outlet of the sedimentation chamber, and the second end of the fifth connecting duct is connected with the air outlet of the detection box body; a second pressure sensor for measuring the weight increase of the settling chamber is arranged between the settling chamber and the settling chamber mounting seat;

the PCB circuit board is fixedly arranged on the PCB circuit board mounting seat, a controller, a network data transmission module and an ID reading module are arranged on the PCB circuit board, the network data transmission end of the network data transmission module is connected with the network data transmission end of the controller, the data reading output end of the ID reading module is connected with the data reading input end of the controller, the sensing data output end of a sensing sensor is connected with the sensing data input end of the controller, the pressure data output end of a first pressure sensor is connected with the pressure data first input end of the controller, the pressure data output end of a second pressure sensor is connected with the pressure data second input end of the controller, and the gas-sensitive data output end of the gas-sensitive sensor is connected with the gas-sensitive data input end of the controller; the touch display end of the controller is connected with the touch display end of a touch display screen arranged on the detection box body;

the working system comprises the following steps:

s1, acquiring the measurement data of the user to be measured;

and S2, after the verification is passed, the measurement data in the step S1 is sent to the remote server terminal.

2. The automated public health services health management application-based informatization architecture work system of claim 1, further comprising one or any combination of a sixth connecting conduit, a seventh connecting conduit, an eighth connecting conduit, a ninth connecting conduit, a tenth connecting conduit, an eleventh connecting conduit; the filter chamber also comprises a filter chamber sewage draining port and a filter chamber liquid inlet, and the settling chamber also comprises a settling chamber sewage draining port and a settling chamber liquid inlet;

the first end of a sixth connecting conduit is connected with a gas releasing device for releasing cleaning gas, and the second end of the sixth connecting conduit is connected with the first connecting conduit; the gas release control end of the gas release device is connected with the gas release control end of the controller;

the first end of the seventh connecting conduit is connected with a sewage outlet of the filtering chamber, and the second end of the seventh connecting conduit is connected with a waste liquid inlet of a waste liquid collecting box arranged on the detection box body;

the first end of the eighth connecting conduit is connected to the second connecting conduit, and the second end of the eighth connecting conduit is connected to the fifth connecting conduit;

the first end of the ninth connecting conduit is connected with a sewage outlet of the settling chamber, and the second end of the ninth connecting conduit is connected with a waste liquid inlet of a waste liquid collecting box arranged on the detection box body;

the first end of the tenth connecting conduit is connected with a liquid inlet of the settling chamber, the liquid inlet pipe of the settling chamber extends to Zmm which is far away from the bottom of the settling chamber, Z is a positive number greater than 0, and mm represents a unit millimeter of length; the second end of the tenth connecting conduit is connected with a detection tank body precipitation liquid inlet of the detection tank body;

the first end of the eleventh connecting conduit is connected with a liquid inlet of a filter chamber of the filter chamber, a liquid inlet pipe of the filter chamber extends to a distance Mmm from the bottom of the filter chamber, M is a positive number greater than 0, and mm represents a unit millimeter of length; the second end of the eleventh connecting conduit is connected with a filtering liquid inlet of the detection box body.

3. The public health service health management application-based automated evaluation system informatization operation system of claim 1, further comprising one or any combination of a first solenoid valve, a second solenoid valve, a third solenoid valve, a fourth solenoid valve, a fifth solenoid valve, a sixth solenoid valve, a seventh solenoid valve, an eighth solenoid valve, a ninth solenoid valve, a tenth solenoid valve, an eleventh solenoid valve, a twelfth solenoid valve, a thirteenth solenoid valve;

the first electromagnetic valve is arranged at the air inlet of the air inlet mask and used for closing and conducting the air inlet of the air inlet mask, and the control end of the first electromagnetic valve is connected with the first control end of the electromagnetic valve of the controller;

the second electromagnetic valve is arranged at the generating chamber air inlet of the generating chamber and used for closing and conducting the generating chamber air inlet of the generating chamber, and the control end of the second electromagnetic valve is connected with the second control end of the electromagnetic valve of the controller;

the third electromagnetic valve is arranged at the gas outlet of the generating chamber and is used for sealing and conducting the gas outlet of the generating chamber, and the control end of the third electromagnetic valve is connected with the third control end of the electromagnetic valve of the controller;

the fourth electromagnetic valve is arranged at the extension end of the filter chamber air inlet pipe of the filter chamber and used for closing and conducting the extension end of the filter chamber air inlet pipe of the filter chamber, and the control end of the fourth electromagnetic valve is connected with the fourth control end of the electromagnetic valve of the controller;

the fifth electromagnetic valve is arranged at the combustion chamber air inlet of the combustion chamber and used for closing and conducting the combustion chamber air inlet of the combustion chamber, and the control end of the fifth electromagnetic valve is connected with the fifth control end of the electromagnetic valve of the controller;

the sixth electromagnetic valve is arranged at the air outlet of the combustion chamber and used for sealing and conducting the air outlet of the combustion chamber, and the control end of the sixth electromagnetic valve is connected with the six control ends of the electromagnetic valves of the controller;

the seventh electromagnetic valve is arranged at the extension end of the air inlet pipe of the settling chamber and used for closing and conducting the extension end of the air inlet pipe of the settling chamber, and the control end of the seventh electromagnetic valve is connected with the seventh control end of the electromagnetic valve of the controller;

the eighth electromagnetic valve is arranged at the gas outlet of the detection box body and is used for closing and conducting the gas outlet of the detection box body, and the control end of the eighth electromagnetic valve is connected with the eighth control end of the electromagnetic valve of the controller;

the ninth electromagnetic valve is arranged at the sewage draining outlet of the filtering chamber and used for sealing and conducting the sewage draining outlet of the filtering chamber, and the control end of the ninth electromagnetic valve is connected with the ninth control end of the electromagnetic valve of the controller;

the tenth electromagnetic valve is arranged at the sewage draining outlet of the settling chamber and is used for closing and conducting the sewage draining outlet of the settling chamber, and the control end of the tenth electromagnetic valve is connected with the tenth control end of the electromagnetic valve of the controller;

the eleventh electromagnetic valve is provided with a detection box body filtering liquid inlet of the detection box body and used for sealing and conducting the detection box body filtering liquid inlet of the detection box body, and the control end of the eleventh electromagnetic valve is connected with the eleventh control end of the electromagnetic valve of the controller;

the twelfth electromagnetic valve is arranged on the detection box body precipitation liquid inlet of the detection box body and used for closing and conducting the detection box body precipitation liquid inlet of the detection box body, and the control end of the twelfth electromagnetic valve is connected with the twelfth control end of the electromagnetic valve of the controller;

the thirteenth electromagnetic valve is arranged at the first end of the eighth connecting conduit and used for closing and conducting the first end of the eighth connecting conduit, and the control end of the thirteenth electromagnetic valve is connected with the thirteenth control end of the electromagnetic valve of the controller.

4. The automated public health service based health management application-based informatization operation system of claim 1, further comprising a step S0 of system initialization, wherein the system initialization comprises the following steps:

s01, detecting whether the weight gain of the filtering chamber or/and the weight gain of the settling chamber is larger than or equal to the weight gain threshold value preset in the corresponding filtering chamber and the weight gain threshold value preset in the settling chamber:

if the weight gain of the filter chamber is greater than or equal to the preset weight gain threshold value of the filter chamber, a warning is sent out, and solution in the filter chamber is added into the filter chamber;

if the weight gain of the settling chamber is greater than or equal to the preset weight gain threshold value of the settling chamber, a warning is given, and solution in the settling chamber is added into the settling chamber;

otherwise, executing the next step;

s02, controlling the gas releasing device to release the cleaning gas by the controller; the controller sequentially sends conduction control commands to the second electromagnetic valve, the third electromagnetic valve, the fourth electromagnetic valve, the fifth electromagnetic valve, the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve respectively according to the sequence; leading the closed pipeline of the device to be communicated;

s03, after the gas to be cleaned removes the impurity gas in the generating chamber, the filtering chamber, the combustion chamber and the settling chamber; the controller respectively sends a sealing control signal to the seventh electromagnetic valve and the fourth electromagnetic valve and then respectively sends a sealing control command to the second electromagnetic valve, the third electromagnetic valve, the fifth electromagnetic valve, the sixth electromagnetic valve and the eighth electromagnetic valve; after the second electromagnetic valve closes the pipeline, the controller controls the gas releasing device to stop releasing the cleaning gas;

s04, the controller collects the weight of the filtering chamber and the weight of the settling chamber at this time as the initial weight of the filtering chamber and the initial weight of the settling chamber, respectively.

5. The public health service-based health management application automated evaluation architecture informatization operation system of claim 1, characterized by comprising the following steps in step S1:

s11, acquiring identity information of the user to be detected; after the identity information of the user to be detected is obtained, the next step is executed;

s12, if the controller detects that the induction sensor sends out an induction signal, the controller respectively sends out conduction control commands to the first electromagnetic valve and the second electromagnetic valve to conduct the closed pipelines; introducing gas exhaled by a user to be detected into a generation chamber;

s13, if the controller does not detect that the induction sensor sends out an induction signal, the controller respectively sends out a closing control command to the first electromagnetic valve to close the pipeline; the controller controls the gas releasing device to release the cleaning gas; t is t₁After time s, said t₁The positive number is more than 0, s is time unit second, and the controller controls the gas release device to stop releasing the cleaning gas;

s14, after the gas in the generating chamber reacts, the controller sends a conduction control command to the third electromagnetic valve to conduct the conduit;

s15, if the gas sensor does not detect carbon monoxide, the controller sends conduction control commands to the eighth solenoid valve and the thirteenth solenoid valve in sequence to enable the fifth connecting conduit and the eighth connecting conduit to be conducted, and exhaust gas is discharged out of the detection box body; after the waste gas is discharged out of the detection box body, the controller sends a closing control command to the third electromagnetic valve, the eighth electromagnetic valve and the thirteenth electromagnetic valve to close the guide pipe; returning to step S11 or S12;

if the gas sensor detects carbon monoxide, the controller sends a conduction control command to the fourth electromagnetic valve and the fifth electromagnetic valve, converts gas exhaled by a user into carbon monoxide gas for the generation chamber, and then the carbon monoxide gas enters the combustion chamber after being introduced into the filter chamber;

s16, after the gas in the filtering chamber enters the combustion chamber, the controller sends a closing control command to the fifth electromagnetic valve to convert the carbon monoxide entering the combustion chamber into carbon dioxide, after the conversion is completed, the controller sends a conducting control command to the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve to introduce the gas converted by the combustion chamber into the precipitation chamber and discharge the gas out of the detection box; after the gas is discharged, the controller sends a closing control command to the eighth electromagnetic valve to close the pipeline;

s17, calculating the variation of the settling chamber:

Q＝Q₁-Q₀，

wherein Q represents the amount of change in the settling chamber;

Q₁represents the weight detected by the second pressure sensor after the gas enters the settling chamber;

Q₀indicating the weight detected by the second pressure sensor before the gas enters the settling chamber.

6. The public health service-based health management application automated evaluation architecture informatization operation system of claim 5, characterized by comprising the following steps in step S11:

s111, if the controller receives an ID reading module work trigger signal, the controller sends a work control signal to the ID reading module, the ID reading module obtains ID card information of the ID reading module, and the ID card comprises one or any combination of an identity card, a social security medical card and a bank card; the ID card information comprises a user identity card number;

s112, processing the user ID card number;

s113, sending the obtained new ID card number to a remote server terminal for verification:

if the new ID card number exists in the remote server terminal, sending a verification pass code to the detection box body;

and if the new identification number does not exist in the remote server terminal, storing the new identification number in a remote server terminal database, and sending a verification pass code to the detection box body.

7. The public health service-based health management application automated evaluation architecture informatization operation system of claim 1, characterized by comprising the following steps in step S2:

s21, sending the data obtained by measurement and the identity information corresponding to the data obtained by measurement to a remote server terminal;

and S22, after the remote server terminal receives the data obtained by measurement and the identity information corresponding to the data obtained by measurement, the remote server terminal inquires the mobile phone number associated with the identity information, and sends the measurement data to the mobile intelligent handheld terminal through the mobile phone number.

8. The informatization operation system of public health service health management application-based automatic evaluation system of claim 1, wherein, S15, if the gas sensor does not detect carbon monoxide, the controller sequentially sends conduction control commands to the eighth solenoid valve and the thirteenth solenoid valve to make the fifth connecting conduit and the eighth connecting conduit conduct, and the controller controls the gas releasing device to release the cleaning gas and then sends the conduction control command to the second solenoid valve to discharge the waste gas out of the detection box; after the waste gas is discharged out of the detection box body, the controller sends a closing control command to the second electromagnetic valve, the third electromagnetic valve, the eighth electromagnetic valve and the thirteenth electromagnetic valve to close the guide pipe of the second electromagnetic valve; the controller controls the gas releasing device to stop releasing the cleaning gas, and returns to step S11 or S12;

s16, after the gas in the filtering chamber enters the combustion chamber, the controller sends a closing control command to the fifth electromagnetic valve to convert the carbon monoxide entering the combustion chamber into carbon dioxide, after the conversion is completed, the controller sends a conducting control command to the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve, the controller controls the gas releasing device to release cleaning gas, and then sends a conducting control command to the second electromagnetic valve, the third electromagnetic valve, the fourth electromagnetic valve and the fifth electromagnetic valve to introduce the gas converted by the combustion chamber into the settling chamber and discharge the gas out of the detection box body; after the gas is discharged, the controller controls the gas releasing device to stop releasing the cleaning gas; and the controller sends a closing control command to the second electromagnetic valve, the third electromagnetic valve, the fourth electromagnetic valve, the fifth electromagnetic valve, the sixth electromagnetic valve, the seventh electromagnetic valve and the eighth electromagnetic valve to close the pipelines.

9. The automated public health service health management application-based informatization operation system as claimed in claim 1, wherein when the controller receives a filter chamber cleaning and charging trigger signal, the system comprises the following steps:

s31, the controller operates T to the filter chamber vibration pump installed in the filter chamber₁After s, the T₁Is a positive number greater than or equal to 0, s is a time unit second, and the controller sends a conduction control command to a ninth electromagnetic valve of the controller to enable a seventh connecting conduit of the controller to be connected with a conduitThe waste liquid in the filter chamber is discharged out of the filter chamber, and after the waste liquid in the filter chamber is discharged out of the filter chamber, the controller sends out stop working information to the vibration pump of the filter chamber and sends out a closing control command to the ninth electromagnetic valve;

s32, after the vibration pump in the filtering chamber stops working and the seventh connecting conduit is closed, the controller sends a conduction control command to the eleventh electromagnetic valve to conduct the eleventh connecting conduit, and liquid is added into the filtering chamber through the liquid inlet of the filtering chamber; after the liquid is added, the controller sends a closing control command to the eleventh electromagnetic valve to close the conduit;

when the controller receives a cleaning liquid adding trigger signal of the settling chamber, the method comprises the following steps:

s33, the controller operates T to the settling chamber vibration pump installed in the settling chamber₂After s, the T₂The positive number is greater than or equal to 0, s is time unit second, the controller sends a conduction control command to a tenth electromagnetic valve of the controller to conduct a ninth connecting conduit of the controller, waste liquid in a settling chamber of the controller is discharged out of the settling chamber, and after the waste liquid in the settling chamber is discharged out of the settling chamber, the controller sends stop work information to a vibrating pump of the settling chamber of the controller and sends a closing control command to the tenth electromagnetic valve;

s34, after the vibration pump of the settling chamber stops working and the ninth connecting conduit is closed, the controller sends a conduction control command to the twelfth electromagnetic valve of the settling chamber to conduct the tenth connecting conduit, and liquid is added into the settling chamber through the liquid inlet of the settling chamber; after the liquid is added, the controller sends a closing control command to the twelfth electromagnetic valve to close the conduit.

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