CN114432607A - Protective clothing equipped with intelligent wearable equipment and working method thereof - Google Patents

Abstract

The invention belongs to the technical field of protective clothing, and aims to solve the problems that the existing protective clothing is difficult to prevent external air from entering the protective clothing, the safety performance and the use comfort are poor, the body health of a user cannot be detected, analyzed and fed back, and the safety performance and the use effect need to be improved; according to the intelligent protective clothing, the intelligent wearable equipment is arranged, so that the monitoring, analysis and adjustment of inlet air are realized, the real-time monitoring and feedback of human health are realized, the intelligent degree is high, the use comfort and the use effect are obviously improved, the interior of the protective clothing body can be always in a positive pressure state, and the protective clothing plays a role in protecting the health of users.

Description

Protective clothing equipped with intelligent wearable equipment and working method thereof

Technical Field

The invention relates to the technical field of protective clothing, in particular to protective clothing provided with intelligent wearable equipment and a working method thereof.

Background

The protective clothing types comprise fire-fighting protective clothing, industrial protective clothing, medical protective clothing, military protective clothing and protective clothing used by special people, and the protective clothing is mainly applied to the industries and departments of fire fighting, military industry, ships, petroleum, chemical industry, paint spraying, cleaning and disinfection, laboratories and the like;

when the existing protective clothing is used, a user breathes through a common mask or a wearing mask, so that external air is difficult to prevent from entering the protective clothing, germs and dust pollutants in the external environment are easy to be inhaled by the user, and the protective clothing is uncomfortable to breathe, unsmooth to breathe and poor in safety performance when the user wears the mask; in addition, the existing protective clothing can not detect, analyze and feed back the body health of users generally, is not beneficial to protecting the body health of the users, and the safety performance and the use effect need to be improved;

in view of the above technical drawbacks, a solution is proposed.

Disclosure of Invention

The invention aims to provide protective clothing with intelligent wearing equipment and a working method thereof, through the arrangement of the intelligent wearing equipment, the monitoring and analysis of inlet air and the automatic adjustment of input air are realized, the real-time monitoring and feedback of human health are also realized, the self health condition of users is facilitated, the intelligent degree is high, the use comfort and the use effect are obviously improved, the interior of the protective clothing body can be always in a positive pressure state, external air is difficult to enter the protective clothing body when the users breathe, the body health of the users is protected, the problems that the existing protective clothing is difficult to prevent the external air from entering the protective clothing when in use, the safety performance and the use comfort are poor, the body health of the users cannot be detected, analyzed and fed back, and the body health of the users is not protected easily are solved, the safety performance and the use effect are to be improved.

In order to achieve the purpose, the invention provides the following technical scheme:

the protective suit comprises a protective suit body and a blower, wherein the protective suit body consists of a protective upper garment, a protective lower garment, a protective face mask, protective sleeves and a protective hat, the lower part of the protective upper garment is connected with the protective lower garment, the protective sleeves are positioned at two sides of the protective upper garment and connected with the protective upper garment, the upper part of the protective upper garment is connected with the protective hat, the front surface of the protective hat is connected with the protective face mask, the back surface of the protective upper garment is provided with an air supply purification assembly, the blower is provided with an induced duct and an air supply pipe, one end of the induced duct, far away from the blower, is connected with the air supply purification assembly, and one end of the air supply pipe, far away from the blower, is connected with the protective face mask and extends into the interior of the protective upper garment; the intelligent wearable equipment comprises a microprocessor, a data receiving module, an air inlet analysis module, a health diagnosis module and a touch display module;

a data receiving module for receiving the health data of human body and the air intake detection data in the air supply purification component, and sends the air inlet detection data to an air inlet analysis module, and sends the health data of the human body to a health diagnosis module, an air inlet analysis module, used for carrying out air inlet analysis and judgment operation based on air inlet detection data, generating an air inlet judgment signal and sending the air inlet judgment signal to a microprocessor and a health diagnosis module, is used for carrying out health analysis and judgment operation based on the health data of the human body, generating a human health signal and sending the human health signal to the microprocessor, the microprocessor sends a control instruction based on the air inlet judgment signal to control the air supply purification assembly to regulate the air inlet condition, and generating text information based on the health judgment signal, and sending the text information to a touch display module, wherein the touch display module is used for displaying the text information.

Further, the air feed purifies the subassembly and includes air feed purifying box, first intercommunication mouth, second intercommunication mouth and third intercommunication mouth, set up clean room, detection room, heating chamber and regulating chamber in the air feed purifying box, and set up the air inlet with the clean room intercommunication on the air feed purifying box, the clean room communicates through first intercommunication mouth with the detection room, the heating chamber communicates through second intercommunication mouth and detection room, the heating chamber communicates through third intercommunication mouth and regulating chamber, and induced duct and regulating chamber communicate.

Furthermore, a plurality of groups of first vertical baffles are fixedly installed on the bottom wall of the purification chamber through bolts, a plurality of groups of second vertical baffles are fixedly installed on the top wall of the purification chamber through bolts, a gap is reserved between each first vertical baffle and the top wall of the purification chamber, and a gap is reserved between each second vertical baffle and the bottom wall of the purification chamber; the first vertical baffle and the second vertical baffle are arranged at intervals, and a dust filtering adsorption net, a sterilization screen plate and a sterilization lamp are arranged between the adjacent first vertical baffle and the second vertical baffle.

Further, install temperature sensor, humidity transducer and anion concentration sensor in the detection room, temperature sensor, humidity transducer and anion concentration sensor detect the temperature, humidity and the anion concentration of air inlet to detect data transmission to data receiving module.

Further, install electric heating wire in the heating chamber, install humidifier and anion generator in the adjustment chamber, and the air after the purification gets into through first intercommunication mouth and detects indoorly, it gets into in the heating chamber through the second intercommunication mouth to detect indoor air, the air in the heating chamber gets into in the adjustment chamber through the third intercommunication mouth.

Further, the air inlet analysis and judgment operation of the air inlet analysis module is as follows:

marking received inlet air detection data, wherein the inlet air detection data comprise an air temperature value, an air humidity value and an anion concentration value, the inlet air detection data are acquired by a temperature sensor, a humidity sensor and an anion concentration sensor in a detection chamber and are sequentially marked as hw, hs and hf, a preset air temperature threshold value, an air humidity threshold value and an anion concentration threshold value are acquired and are sequentially marked as hwmin, hsmin and hfmin, and the numerical values of hwmin, hsmin and hfmin are all larger than zero;

when hw is more than or equal to hwmin, a normal temperature signal is sent out, and when hw is less than hwmin, a abnormal temperature signal is sent out; when hs is more than or equal to hsmin, a humidity normal signal is sent out, and when hs is less than hsmin, a humidity abnormal signal is sent out; when hf is more than or equal to hfmin, a normal signal of the concentration of negative ions is sent out, and when hf is less than hfmin, an abnormal signal of the concentration of negative ions is sent out;

sending an analysis judgment signal to the microprocessor, when the microprocessor receives a normal temperature signal, a normal humidity signal and a normal anion concentration signal, not sending a control instruction, when the microprocessor receives an abnormal temperature signal, sending a control instruction to start the electric heating wire to heat the inlet air in the heating chamber, when the microprocessor receives an abnormal humidity signal, sending a control instruction to start the humidifier to humidify the inlet air in the adjusting chamber, and when the microprocessor receives an abnormal anion concentration signal, sending a control instruction to start the anion generator to increase the anion concentration in the inlet air in the adjusting chamber.

Further, the health analysis and determination operation of the health diagnosis module is specifically as follows:

marking the received health data of the human body, wherein the health data of the human body comprises a body temperature value, a pulse value and a heart rate value, and the health data of the human body is acquired by a body temperature sensor, a heart rate sensor and a pulse sensor in the protective clothing body and is sequentially marked as kt, km and kx; substituting the data into a health risk judgment formula to perform analysis and calculation to generate a health risk value JKF;

when the value of the JKF is within a preset range, sending a human body normal signal, and when the value of the JKF is larger than the maximum value of the preset range or smaller than the minimum value of the preset range, sending a human body abnormal signal;

sending a health judgment signal to a microprocessor, editing 'no human body abnormal' text information to a touch display module when the microprocessor receives a human body normal signal, editing 'human body enclasping, please carry out health check' text information to the touch display module when the microprocessor receives a human body abnormal signal, and displaying the text information by the touch display module.

Furthermore, intelligence wearing equipment still includes warning module, warning module and microprocessor communication connection, and when microprocessor received human abnormal signal, send control command to warning module, warning module sends out the warning sound in order to remind the user.

Furthermore, the invention also provides a working method of the protective clothing provided with the intelligent wearable equipment, and the working method specifically comprises the following steps:

step one, a user wears a protective clothing body, a protective upper clothing shields the upper body of the user, a protective lower clothing shields the lower body of the user, a protective cap shields the head of the user, protective sleeves shield the two arms of the user, and a protective face mask shields the face of the user;

starting the air feeder, exhausting air by the air feeder, enabling outside air to enter the purifying chamber through the air inlet, filtering and adsorbing input air by the dust filtering and adsorbing net to filter dust particles in the air, and sterilizing the input air by the sterilizing net plate and the sterilizing lamp;

step three, the filtered and sterilized air enters a detection chamber through a first communication port, a temperature sensor, a humidity sensor and an anion concentration sensor in the detection chamber detect the temperature, the humidity and the anion concentration of the inlet air, and the detection data are sent to a data receiving module;

step four, air in the detection chamber enters the heating chamber through the second communication port, air in the heating chamber enters the regulating chamber through the third communication port, in the air conveying process, the data receiving module sends air inlet detection data to the air inlet analysis module, the air inlet analysis module carries out analysis and judgment based on the air inlet detection data and sends an air inlet judgment signal to the microprocessor;

when the microprocessor receives the temperature abnormal signal, a control instruction is sent to start the electric heating wire to heat the inlet air in the heating chamber, when the microprocessor receives the humidity abnormal signal, a control instruction is sent to start the humidifier to humidify the inlet air in the adjusting chamber, and when the microprocessor receives the negative ion concentration abnormal signal, a control instruction is sent to start the negative ion generator to increase the negative ion concentration in the inlet air in the adjusting chamber;

and step five, the purified air enters the protective clothing body through the induced duct and the blast pipe so as to enable the protective clothing body to be in a positive pressure state, and the external air is difficult to enter the protective clothing body through the protective mask when a user breathes.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the protective clothing, air is drawn by the blower, outside air enters the purifying chamber through the air inlet, then sequentially passes through the detection chamber, the heating chamber and the adjusting chamber, and finally enters the protective clothing body through the air guide pipe and the air supply pipe, so that the protective clothing body is in a positive pressure state, the outside air is difficult to enter the protective clothing body when a user breathes, the protective effect is achieved on the health of the user, and the safety performance is good;

2. according to the invention, the purification chamber is arranged, the dust filtering adsorption net is used for filtering and adsorbing the input air to filter dust particles in the air, the sterilization net plate and the sterilization lamp are used for sterilizing the input air, the purification of inlet air is realized, the conveying path of the air can be prolonged, the purification effect of the air is further improved, and the cleanness of the input air is ensured;

3. according to the invention, the air inlet analysis module is used for analyzing and judging based on air inlet detection data and sending an air inlet judgment signal to the microprocessor, and the microprocessor sends an adjustment instruction based on the judgment signal, so that the air inlet is monitored and analyzed, and the input air can be automatically adjusted according to an analysis result so as to heat and humidify the air inlet and increase the concentration of negative ions, so that the use comfort is obviously improved, and the use effect is excellent;

4. according to the invention, the health diagnosis module analyzes and judges based on the human health data and sends the health judgment signal to the microprocessor, and the microprocessor sends the corresponding text information based on the health judgment signal, so that the real-time monitoring and feedback of the human health are realized, the user can know the self health condition, the intelligent degree is high, the excellent protection effect is realized for the user, and the use effect and the safety performance are obviously improved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a system block diagram of the intelligent wearable device of the present invention;

FIG. 3 is a system diagram of a data receiving module according to the present invention;

FIG. 4 is a schematic view (side view) of the connection between the air supply purification unit and the protective jacket of the present invention;

FIG. 5 is a schematic view of the air supply purification assembly of the present invention;

FIG. 6 is a perspective view of the dust-filtering adsorption net and the sterilization net plate of the present invention;

fig. 7 is an enlarged view of a portion a in fig. 5.

Reference numerals: 1. a protective suit body; 2. the intelligent wearable equipment; 3. an air supply purification assembly; 4. a blower; 5. an induced draft pipe; 6. an air supply pipe; 11. a protective coat; 12. protecting the lower clothes; 13. a protective mask; 14. protective sleeves; 15. a protective cap; 301. an air supply purification box; 302. a clean room; 303. an air inlet; 304. a detection chamber; 305. a heating chamber; 306. a conditioning chamber; 307. a first communication port; 308. a second communication port; 309. a third communication port; 310. a first vertical baffle; 311. a second vertical baffle; 312. a dust filtration adsorption net; 313. sterilizing the screen plate; 314. a sterilizing lamp; 315. an electric heating wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1-7, the protective clothing equipped with intelligent wearable equipment provided by the invention comprises a protective clothing body 1 and a blower 4, wherein the protective clothing body 1 is composed of a protective upper garment 11, a protective lower garment 12, a protective face mask 13, protective sleeves 14 and a protective cap 15, the lower part of the protective upper garment 11 is connected with the protective lower garment 12, the protective upper garment 11 shields the upper body of a user, the protective lower garment 12 shields the lower body of the user, the protective sleeves 14 are positioned at two sides of the protective upper garment 11 and connected with the protective upper garment, the protective sleeves 14 shield the two arms of the user, the upper part of the protective upper garment 11 is connected with the protective cap 15, the protective cap 15 shields the head of the user, the front of the protective cap 15 is connected with the protective face mask 13, and the protective face mask 13 shields the face of the user;

the back of the protective coat 11 is provided with an air supply purification component 3, an induced draft pipe 5 and an air supply pipe 6 are arranged on the blower 4, and one end of the air supply pipe 6, which is far away from the blower 4, is connected with a protective mask 13 and extends into the protective mask; the air supply purification component 3 comprises an air supply purification box 301, the air supply purification box 301 is connected with the protective coat 11, the air supply purification box 301 is tied to the waist through a binding band, the air supply purification box 301 is a light small box, a purification chamber 302, a detection chamber 304, a heating chamber 305 and a regulation chamber 306 are arranged in the air supply purification box 301, an air inlet 303 communicated with the purification chamber 302 is formed in the air supply purification box 301, outside air enters the purification chamber 302 through the air inlet 303, one end, far away from the air feeder 4, of the air guide pipe 5 is communicated with the regulation chamber 306, and the air feeder 4 is started so that the outside air enters the protective coat body 1 after being purified;

a plurality of groups of first vertical baffle plates 310 are fixedly installed on the bottom wall of the purification chamber 302 through bolts, a plurality of groups of second vertical baffle plates 311 are fixedly installed on the top wall of the purification chamber 302 through bolts, a gap is reserved between the first vertical baffle plates 310 and the top wall of the purification chamber 302, and a gap is reserved between the second vertical baffle plates 311 and the bottom wall of the purification chamber 302; the first vertical baffle plate 310 and the second vertical baffle plate 311 are arranged at intervals, a dust filtering adsorption net 312, a sterilization net plate 313 and a sterilization lamp 314 are arranged between the adjacent first vertical baffle plate 310 and the second vertical baffle plate 311, the dust filtering adsorption net 312 is used for filtering and adsorbing input air so as to filter dust particles in the input air, the sterilization net plate 313 and the sterilization lamp 314 are used for sterilizing the input air, the purification of inlet air is realized, the conveying path of the air can be prolonged, and the purification effect of the air is further improved;

the purge chamber 302 and the detection chamber 304 communicate with each other through the first communication port 307, the purged air enters the detection chamber 304 through the first communication port 307, the heating chamber 305 communicates with the detection chamber 304 through the second communication port 308, the air in the detection chamber 304 enters the heating chamber 305 through the second communication port 308, the heating chamber 305 communicates with the adjustment chamber 306 through the third communication port 309, and the air in the heating chamber 305 enters the adjustment chamber 306 through the third communication port 309; an electric heating wire 315 is installed in the heating chamber 305, a humidifier and an anion generator are installed in the adjusting chamber 306, when the input air needs to be heated, the electric heating wire 315 is started, the electric heating wire 315 converts electric energy into heat energy to heat the air, when the input air needs to be humidified and the humidifier is started, and when the concentration of anions in the air needs to be increased, the anion generator is started;

the protective suit comprises a protective suit body 1, and is characterized in that a body temperature sensor, a heart rate sensor and a pulse sensor are mounted on the protective suit body 1, intelligent wearable equipment 2 is arranged on one group of protective sleeves 14, the intelligent wearable equipment 2 is fixed on the wrists of users through wristbands, the intelligent wearable equipment 2 comprises a microprocessor, a data receiving module, an air inlet analysis module, a health diagnosis module and a touch display module, and the body temperature sensor, the heart rate sensor and the pulse sensor detect the body temperature, the heart rate and the pulse of the users and transmit the detected data to the data receiving module in real time; a temperature sensor, a humidity sensor and an anion concentration sensor are arranged in the detection chamber 304, and the temperature sensor, the humidity sensor and the anion concentration sensor detect the temperature, the humidity and the anion concentration of the inlet air and send detection data to the data receiving module;

the data receiving module is in communication connection with the air inlet analysis module and the health diagnosis module, and the microprocessor is in communication connection with the air inlet analysis module, the health diagnosis module and the touch display module; the data receiving module receives health data of a human body and air inlet detection data in the air supply purification assembly 3, sends the air inlet detection data to the air inlet analysis module and sends the health data of the human body to the health diagnosis module, the air inlet analysis module performs air inlet analysis and judgment operation based on the air inlet detection data to generate an air inlet judgment signal and send the air inlet judgment signal to the microprocessor, the health diagnosis module is used for performing health analysis and judgment operation based on the health data of the human body to generate a human body health signal and send the human body health signal to the microprocessor, the microprocessor sends a control instruction based on the air inlet judgment signal to control the air supply purification assembly 3 to adjust the air inlet condition, generates text information based on the health judgment signal and sends the text information to the touch display module, and the touch display module is used for displaying the text information and manually controlling users, the portable air conditioner can be used for manually adjusting air supply speed, heating temperature, humidifier power and anion generator power, is convenient to use, the data receiving module further sends received detection data to the touch display module, and the touch display module displays human health data and air inlet detection data so as to facilitate the understanding and manual adjustment of operators.

Example two:

the difference between this embodiment and embodiment 1 is that the intake air analysis and determination operation of the intake air analysis module is specifically as follows: marking received air inlet detection data (including an air temperature value, an air humidity value and a negative ion concentration value), wherein the air inlet detection data are acquired by a temperature sensor, a humidity sensor and a negative ion concentration sensor in a detection chamber 304 and are sequentially marked as hw, hs and hf; comparing the air humidity value with an air humidity threshold value, when hw is more than or equal to hwmin, sending a normal temperature signal, and when hw is less than hwmin, representing that the input air temperature is low, easily causing operators to generate irritation, and sending a temperature abnormal signal; comparing the air temperature value with an air temperature threshold value, when hs is more than or equal to hsmin, sending a humidity normal signal, when hs is less than hsmin, indicating that the input air humidity is low, the air humidity is low, which easily causes the mouth and nose of a user to be dry, and sending a humidity abnormal signal; comparing the negative ion concentration value with a negative ion concentration threshold value, wherein the negative ions in the air are beneficial to human health, when hf is more than or equal to hfmin, a negative ion concentration normal signal is sent out, and when hf is less than hfmin, a negative ion concentration abnormal signal is sent out; wherein hwmin is an air temperature threshold, hsmin is an air humidity threshold, hfmin is an anion concentration threshold, and the numerical values of hwmin, hsmin and hfmin are all larger than zero;

the analysis and judgment signal of the air inlet analysis module is transmitted to the microprocessor in real time, the analysis and judgment signal is sent to the microprocessor, when the microprocessor receives a normal temperature signal, a normal humidity signal and a normal anion concentration signal, a control instruction is not sent out, when the microprocessor receives an abnormal temperature signal, the control instruction is sent out to start the electric heating wire 315, the electric heating wire 315 converts electric energy into heat energy to heat the air inlet in the heating chamber 305, when the microprocessor receives an abnormal humidity signal, the control instruction is sent out to start the humidifier to humidify the air inlet in the adjusting chamber 306, when the microprocessor receives an abnormal anion concentration signal, the control instruction is sent out to start the anion generator to increase the anion concentration in the air inlet in the adjusting chamber 306, the monitoring and analysis of the air inlet are realized, and the air inlet can be automatically heated according to the analysis result, Humidification and increase anion concentration have shown to improve and have used the travelling comfort, and the result of use is splendid.

Example three:

the present embodiment is different from embodiments 1 and 2 in that the health analysis determination operation of the health diagnosis module is specifically as follows: marking the received health data of the human body, wherein the health data of the human body comprises a body temperature value, a pulse value and a heart rate value, and the health data of the human body is acquired by a body temperature sensor, a heart rate sensor and a pulse sensor in the protective clothing body 1 and is sequentially marked as kt, km and kx; health risk based decision formula

Substituting the data to perform analysis and calculation to generate a health risk value JKF, wherein c1, c2 and c3 are weight coefficients with fixed numerical values, the values of c1, c2 and c3 are all larger than zero, c1 is larger than c2 and smaller than c3, and c1+ c2+ c3 is 3.628; the formula is obtained by collecting a large amount of data and performing software simulation, and the weight coefficient in the formula is selected to be close to the true value according to the actual situationSetting a line, wherein the size of the coefficient is a specific numerical value obtained by quantizing each parameter, so that the subsequent comparison is convenient, and only the proportional relation between the parameter and the quantized numerical value is not influenced;

when a health risk value JKF is generated, comparing the health risk value with a preset range (JFK1, JFK2), when the numerical value of the JKF is in the preset range, sending a normal signal of a human body, and when the numerical value of the JKF is larger than the maximum value (JFK2) of the preset range or smaller than the minimum value (JFK1) of the preset range, sending an abnormal signal of the human body; the health judgment method comprises the steps of sending a health judgment signal to a microprocessor, editing 'human body non-abnormal' text information to a touch display module when the microprocessor receives a human body normal signal, editing 'human body enclasping and please perform health check' text information to the touch display module when the microprocessor receives a human body abnormal signal, displaying the text information by the touch display module, realizing real-time monitoring and feedback of human body health, helping users to know self health conditions, achieving high intelligent degree, playing an excellent protection role for the users, and remarkably improving use effect and safety performance.

Example four:

the difference between this embodiment and embodiment 1, embodiment 2, embodiment 3 lies in that intelligent wearing equipment 2 still includes warning module, warning module and microprocessor communication connection, and when microprocessor received human abnormal signal, send control command to warning module, warning module sends out warning sound or produces vibration in order reminding the user to notice after receiving control command, avoids the user not noticing the text message who sends when busy.

The working principle of the invention is as follows: when the protective suit is used, the air blower 4 performs air extraction, external air enters the purifying chamber 302 through the air inlet 303 to filter, adsorb and sterilize the air, effective purification of the air is realized, the air in the purifying chamber 302 enters the detection chamber 304 through the first communicating port 307, the air in the detection chamber 304 enters the heating chamber 305 through the second communicating port 308, the air in the heating chamber 305 enters the adjusting chamber 306 through the third communicating port 309, finally, the purified air enters the protective suit body 1 through the air induction pipe 5 and the air supply pipe 6, so that the interior of the protective suit body 1 is in a positive pressure state, when a user breathes, the external air is difficult to enter the protective suit body 1 through the protective mask 13, the protective effect is achieved on the health of the user, and the safety performance is good;

in the air conveying process, the detection chamber 304 detects the temperature, humidity and anion concentration of inlet air, the data receiving module sends detection data to the inlet air analysis module in real time, the inlet air analysis module analyzes and judges based on the inlet air detection data and sends an inlet air judgment signal to the microprocessor, when the microprocessor receives a temperature abnormal signal, the microprocessor sends a control instruction to start the electric heating wire 315 to heat the inlet air, when the microprocessor receives a humidity abnormal signal, the microprocessor sends a control instruction to start the humidifier to humidify the inlet air, when the microprocessor receives an anion concentration abnormal signal, the microprocessor sends a control instruction to start the anion generator to increase the anion concentration in the inlet air, monitoring and analysis of the inlet air are realized, the inlet air can be automatically heated, humidified and the anion concentration is increased according to an analysis result, and the use comfort is obviously improved, the use effect is excellent;

and, body temperature sensor, heart rate sensor and pulse sensor are to user's body temperature, heart rate and pulse detect, data receiving module will detect data real-time transmission to health diagnosis module, health diagnosis module carries out analysis and judgment based on human health data, and send health judgement signal to microprocessor, microprocessor generates corresponding text information and sends to touch-control display module based on health judgement signal, touch-control display module shows text information and detected data, realize real-time supervision and feedback to human health, help user to know self health status, intelligent degree is high, play splendid guard action to user, the result of use and security performance have been showing and have been improved.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The protective suit with the intelligent wearable equipment comprises a protective suit body (1) and a blower (4), and is characterized in that the protective suit body (1) consists of a protective coat (11), protective lower coats (12), a protective face mask (13), protective coat sleeves (14) and a protective cap (15), the lower part of the protective coat (11) is connected with the protective lower coats (12), the protective coat sleeves (14) are positioned at two sides of the protective coat (11) and connected with the protective coat, the upper part of the protective coat (11) is connected with the protective cap (15), the front of the protective cap (15) is connected with the protective face mask (13), an air supply purification component (3) is arranged at the back of the protective coat (11), an air guide pipe (5) and an air supply pipe (6) are installed on the blower (4), and one end of the air guide pipe (5), which is far away from the blower (4), is connected with the air supply purification component (3), one end of the blast pipe (6) far away from the blower (4) is connected with the protective mask (13) and extends into the protective mask;

the protective suit comprises a protective suit body (1), and is characterized in that a body temperature sensor, a heart rate sensor and a pulse sensor are installed on the protective suit body (1), intelligent wearing equipment (2) is arranged on one group of protective sleeves (14), the intelligent wearing equipment (2) is fixed on the wrists of users through wristbands, and the intelligent wearing equipment (2) comprises a microprocessor, a data receiving module, an air inlet analyzing module, a health diagnosis module and a touch display module;

a data receiving module for receiving the health data of human body and the air intake detection data in the air supply purification component (3), and sends the air intake detection data to an air intake analysis module, and sends the health data of the human body to a health diagnosis module, an air intake analysis module, used for carrying out air inlet analysis and judgment operation based on air inlet detection data, generating an air inlet judgment signal and sending the air inlet judgment signal to a microprocessor and a health diagnosis module, is used for carrying out health analysis and judgment operation based on the health data of the human body, generating a human health signal and sending the human health signal to the microprocessor, the microprocessor sends a control instruction based on the air inlet judgment signal to control the air supply purification component (3) to regulate the air inlet condition, and generating text information based on the health judgment signal, and sending the text information to a touch display module, wherein the touch display module is used for displaying the text information.

2. The protective clothing provided with the intelligent wearable device according to claim 1, wherein the air supply purification assembly (3) comprises an air supply purification box (301), a first communication port (307), a second communication port (308) and a third communication port (309), a purification chamber (302), a detection chamber (304), a heating chamber (305) and a regulation chamber (306) are formed in the air supply purification box (301), an air inlet (303) communicated with the purification chamber (302) is formed in the air supply purification box (301), the purification chamber (302) is communicated with the detection chamber (304) through the first communication port (307), the heating chamber (305) is communicated with the detection chamber (304) through the second communication port (308), the heating chamber (305) is communicated with the regulation chamber (306) through the third communication port (309), and the air induction pipe (5) is communicated with the regulation chamber (306).

3. The protective clothing provided with the intelligent wearable device, according to claim 2, wherein a plurality of groups of first vertical baffles (310) are fixedly mounted on the bottom wall of the purification chamber (302) through bolts, a plurality of groups of second vertical baffles (311) are fixedly mounted on the top wall of the purification chamber (302) through bolts, a gap is reserved between the first vertical baffles (310) and the top wall of the purification chamber (302), and a gap is reserved between the second vertical baffles (311) and the bottom wall of the purification chamber (302); the first vertical baffle plate (310) and the second vertical baffle plate (311) are arranged at intervals, and a dust filtering adsorption net (312), a sterilization net plate (313) and a sterilization lamp (314) are arranged between the adjacent first vertical baffle plate (310) and the second vertical baffle plate (311).

4. The protective clothing with the intelligent wearable device as claimed in claim 3, wherein a temperature sensor, a humidity sensor and an anion concentration sensor are installed in the detection chamber (304), and the temperature sensor, the humidity sensor and the anion concentration sensor detect the temperature, the humidity and the anion concentration of the inlet air and send the detection data to the data receiving module.

5. The protective clothing equipped with the intelligent wearable device, according to claim 4, characterized in that an electric heating wire (315) is installed in the heating chamber (305), a humidifier and a negative ion generator are installed in the adjusting chamber (306), purified air enters the detection chamber (304) through a first communication port (307), air in the detection chamber (304) enters the heating chamber (305) through a second communication port (308), and air in the heating chamber (305) enters the adjusting chamber (306) through a third communication port (309).

6. The protective clothing with the intelligent wearable device as claimed in claim 5, wherein the air inlet analysis and determination operation of the air inlet analysis module is as follows:

marking received inlet air detection data, wherein the inlet air detection data comprise an air temperature value, an air humidity value and an anion concentration value, the inlet air detection data are acquired by a temperature sensor, a humidity sensor and an anion concentration sensor in a detection chamber (304), are sequentially marked as hw, hs and hf, obtain a preset air temperature threshold value, an air humidity threshold value and an anion concentration threshold value, and are sequentially marked as hwmin, hsmin and hfmin, and the numerical values of hwmin, hsmin and hfmin are all larger than zero;

when hw is more than or equal to hwmin, a normal temperature signal is sent out, and when hw is less than hwmin, a abnormal temperature signal is sent out; when hs is more than or equal to hsmin, a humidity normal signal is sent out, and when hs is less than hsmin, a humidity abnormal signal is sent out; when hf is more than or equal to hfmin, a normal signal of the concentration of negative ions is sent out, and when hf is less than hfmin, an abnormal signal of the concentration of negative ions is sent out;

sending an analysis judgment signal to the microprocessor, when the microprocessor receives a normal temperature signal, a normal humidity signal and a normal anion concentration signal, not sending a control instruction, when the microprocessor receives an abnormal temperature signal, sending a control instruction to start the electric heating wire (315) to heat the inlet air in the heating chamber (305), when the microprocessor receives an abnormal humidity signal, sending a control instruction to start the humidifier to humidify the inlet air in the adjusting chamber (306), and when the microprocessor receives an abnormal anion concentration signal, sending a control instruction to start the anion generator to increase the anion concentration in the inlet air in the adjusting chamber (306).

7. The protective clothing equipped with the intelligent wearable device according to claim 6, wherein the health analysis and judgment operation of the health diagnosis module is as follows:

the method comprises the steps of marking received health data of a human body, wherein the health data of the human body comprise a body temperature value, a pulse value and a heart rate value, the health data of the human body are acquired by a body temperature sensor, a heart rate sensor and a pulse sensor in a protective clothing body 1 and are marked as kt, km and kx in sequence; substituting the data into a health risk judgment formula to perform analysis and calculation to generate a health risk value JKF;

when the value of the JKF is in a preset range, sending a human body normal signal, and when the value of the JKF is larger than the maximum value of the preset range or smaller than the minimum value of the preset range, sending a human body abnormal signal;

sending a health judgment signal to a microprocessor, editing 'no human body abnormal' text information to a touch display module when the microprocessor receives a human body normal signal, editing 'human body enclasping, please carry out health check' text information to the touch display module when the microprocessor receives a human body abnormal signal, and displaying the text information by the touch display module.

8. The protective clothing with the intelligent wearable device as claimed in claim 7, wherein the intelligent wearable device (2) further comprises a warning module, the warning module is in communication connection with the microprocessor, and when the microprocessor receives the human body abnormal signal, the microprocessor sends a control command to the warning module, and the warning module gives out a warning sound to remind a user.

9. The working method of the protective clothing provided with the intelligent wearable device as claimed in the claims 1 to 8, is characterized by comprising the following steps:

step one, a user wears the protective clothing body (1), the upper body of the user is shielded by the protective upper clothing (11), the lower body of the user is shielded by the protective lower clothing (12), the head of the user is shielded by the protective cap (15), the two arms of the user are shielded by the protective sleeves (14), and the face of the user is shielded by the protective face mask (13);

step two, starting the air feeder (4), exhausting air by the air feeder (4), enabling outside air to enter the purifying chamber (302) through the air inlet (303), filtering and adsorbing the input air by the dust filtering and adsorbing net (312) to filter dust particles in the input air, and sterilizing the input air by the sterilizing net plate (313) and the sterilizing lamp (314);

step three, the air after filtration and sterilization enters a detection chamber (304) through a first communication port (307), a temperature sensor, a humidity sensor and an anion concentration sensor in the detection chamber (304) detect the temperature, the humidity and the anion concentration of the inlet air, and send detection data to a data receiving module;

step four, air in the detection chamber (304) enters the heating chamber (305) through the second communication port (308), air in the heating chamber (305) enters the adjusting chamber (306) through the third communication port (309), in the air conveying process, the data receiving module sends inlet air detection data to the inlet air analysis module, the inlet air analysis module carries out analysis and judgment based on the inlet air detection data, and sends an inlet air judgment signal to the microprocessor;

when the microprocessor receives the temperature abnormal signal, a control instruction is sent out to start the electric heating wire (315) to heat the inlet air in the heating chamber (305), when the microprocessor receives the humidity abnormal signal, a control instruction is sent out to start the humidifier to humidify the inlet air in the adjusting chamber (306), and when the microprocessor receives the negative ion concentration abnormal signal, a control instruction is sent out to start the negative ion generator to increase the negative ion concentration in the inlet air in the adjusting chamber (306);

and step five, the purified air enters the protective clothing body (1) through the induced air pipe (5) and the blast pipe (6) so as to enable the interior of the protective clothing body (1) to be in a positive pressure state, and the external air is difficult to enter the protective clothing body (1) through the protective mask (13) when a user breathes.

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