CN112656068A - Intelligent health monitoring protective clothing - Google Patents

Abstract

The invention provides intelligent health monitoring protective clothing, which comprises a jacket and a vest, wherein a ventilation mechanism is arranged in the jacket, an air inlet mechanism communicated with the ventilation mechanism is arranged outside the jacket, the vest comprises a vest body, a vital sign detection mechanism used for detecting the heart rate, the breath and the body temperature of a human body is arranged in the vest body, and a positioning and sending mechanism used for sending position information and detected vital sign information to a mobile phone is arranged on the back of the vest body. The jacket provided by the invention is reasonable in structure arrangement, and realizes regulation of gas and temperature inside the protective suit, so that the environment inside the protective suit is more comfortable, and the wearing comfort of the matched vest is improved. The vest can monitor the change conditions of physiological indexes such as heart rate, respiration, body temperature and the like through reasonable structural arrangement, is convenient to wear, does not influence movement, and can be used for medical care.

Description

Intelligent health monitoring protective clothing

Technical Field

The invention relates to the technical field of protective clothing, in particular to intelligent health monitoring protective clothing.

Background

The intelligent garment is a research hotspot in recent years, combines the advanced technologies of the related fields of electronic information technology, sensor technology, textile science, material science and the like, integrates the sensor technology into daily-worn garments, thereby realizing the monitoring of various physiological parameters of a human body and simultaneously providing a reliable way for acquiring medical big data. The intelligent garment with the sensor and the wearable technology integrated is mainly reflected in the aspects of human body health care, health management, disease prevention, sports training, science and technology garment fashion and the like in terms of functions, and the integration of the sensor and the garment is one of the best schemes for achieving the functions.

As the most important indexes of human physiological parameters, the monitoring of electrocardio, body temperature and respiratory signals is a hot point for the research of most scholars at home and abroad on the research of the current intelligent clothes. The development of intelligent clothes is restricted by the unicity of physiological parameter research, the development of textile sensor technology and the design of clothes model structures.

The electrocardiosignal belongs to a biological electric signal, the electric signal detected on the body surface is only 0.05mv-5mv, and the electrocardiosignal detected at different parts of the heart has different changing waveforms, so the proper position is an important factor for monitoring the electrocardiosignal. At present, a plurality of body temperature measurement technologies appear in the market, one is to use an infrared temperature measurement principle, such as a non-contact infrared thermometer, but the continuous monitoring cannot be carried out; the other type is that different kinds of first temperature sensors tightly attached to the skin of a human body are utilized to manufacture temperature measuring nodes, and the body temperature monitoring nodes are generally designed to be wearable. Place the patient clothing armpit position with the sensor, because armpit department temperature is very close human actual temperature, and compare the temperature of anus and oral cavity and be more convenient for measure, can not influence normal life.

In intelligence is dressed, need wear next to the shin clothing, just so conveniently monitor the health that dresses, if only wear overcoat or jacket, when guaranteeing the travelling comfort, be difficult for reaching above-mentioned effect. Thus, a form in which the vest is worn in combination with a coat or a combination of coats may be considered.

The traditional clothes are often uncomfortable after being worn, are inconvenient to ventilate, and are particularly uncomfortable when being worn for a long time in a relatively vexed space. After the vest is worn, the discomfort is more obvious, and corresponding improvement is needed to overcome or reduce the discomfort.

Disclosure of Invention

The invention aims to solve the technical problems in the prior art. Therefore, the invention provides intelligent health monitoring protective clothing, which aims to facilitate the detection of vital signs of a wearer and make the interior of the protective clothing more comfortable.

Based on the purpose, the invention provides intelligent health monitoring protective clothing, which comprises a coat and a vest, wherein a ventilation mechanism is arranged in the coat, an air inlet mechanism communicated with the ventilation mechanism is arranged outside the coat, the vest comprises a vest body, a vital sign detection mechanism used for detecting the heart rate, the breath and the body temperature of a human body is arranged in the vest body, and a positioning and sending mechanism used for sending position information and detected vital sign information to a mobile phone is arranged on the back of the vest body.

The air exchange mechanism comprises a main air inlet channel and a plurality of groups of auxiliary air exchange channels, wherein the main air inlet channel and the plurality of groups of auxiliary air exchange channels are communicated with each other and are arranged on the inner side of the jacket, an air connector is arranged on the main air inlet channel and penetrates through the outer portion of the jacket, and the joint of the jacket and the air connector is connected in a sealing mode.

And a plurality of air exchange holes are uniformly distributed on the auxiliary air exchange passage.

The waist position of jacket is located to the main intake duct, the waist position of jacket is equipped with the storing bag, the subassembly that admits air is placed in the storing bag, the gas outlet and the gas connector of subassembly that admits air are connected.

The air inlet assembly comprises a ventilator and a first power supply, an air inlet of the ventilator is communicated with the outside, an air outlet of the ventilator is connected with the air connector, and the power supply is electrically connected with the ventilator.

And protective screens are arranged on the air inlet and the air outlet of the ventilator.

Vital sign detection mechanism is including locating the fiber grating sensor of undershirt body chest medial surface, locating the first temperature sensor of undershirt body armpit medial surface and locating the respiratory sensor at undershirt body belly medial surface middle part.

The bottom of undershirt body is equipped with second power supply, location sending mechanism is including locating GPS locater, controller, signal transmitter and the memory of undershirt body back, GPS locater, signal transmitter, memory and vital sign detection mechanism all are connected with the controller electricity.

The shoulder of the vest body is also provided with an alarm which is electrically connected with the controller.

The shoulder of the vest body is also provided with a pedometer which is electrically connected with a power supply.

The arm part of the coat is provided with a monitoring panel, and the monitoring panel is electrically connected with the controller. An identity recognition module is arranged in the monitoring panel.

The protective suit further comprises a protective cap, wherein an eye mask portion and a shaping strip are arranged on the front side of the protective cap, and the shaping strip is located below the eye mask portion.

The coat and the protective cap are of an integrally formed structure.

The invention has the beneficial effects that:

1. the vest provided by the invention can monitor the change conditions of physiological indexes such as heart rate, respiration and body temperature through reasonable structural arrangement, is convenient to wear, and does not influence movement. Can be used for medical care.

2. The jacket provided by the invention is reasonable in structure arrangement, and realizes regulation of gas and temperature inside the protective suit, so that the environment inside the protective suit is more comfortable, and the wearing comfort of the matched vest is improved.

3. The heart rate detection device adopts fiber bragg grating sensing, and has the characteristics of small measurement volume, high sensitivity, high resolution, simplicity, convenience, real-time monitoring, capability of acquiring high-frequency signals and the like. The fiber grating sensor is adopted as the sensing component of the electrocardio monitoring vest, has the advantages of simple structure, convenient manufacture, high response speed, stable work, electromagnetic interference resistance, corrosion resistance, high temperature resistance and the like, and has higher practical value.

4. The fiber grating sensor, the first temperature sensor and the respiration sensor send detected real-time data to the controller, the controller compares the received real-time data with normal data stored in the storage device, when the body temperature or the heart rate of a user is higher or lower than the normal data, the controller controls the alarm to give an alarm, and simultaneously, the position information sent by the GPS positioning instrument and the real-time data detected by the heart rate detector and the first temperature sensor are sent to a mobile phone of a parent of the user through the signal transmitter, so that the vital sign change state of the user can be detected in real time, and meanwhile, the position information and the real-time data are timely provided for the parent of the user, the parent of the user can timely rescue the user, and the situation that the condition of the user is aggravated due to untimely discovery is avoided.

5. The monitoring panel is arranged, so that feedback information can be displayed in real time conveniently, and a wearer can check the body condition in real time conveniently.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only one or more embodiments of the present disclosure, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of the structure of the coat and the helmet of the present invention;

FIG. 2 is a schematic view of the construction of the vest of the invention;

FIG. 3 is a rear view of the vest of the invention;

fig. 4 is a front view of the helmet of the present invention.

Labeled as:

1. a vest body; 2. a fiber grating sensor; 3. a first temperature sensor; 4. a respiration sensor; 5. a storage battery; 6. a GPS locator; 7. a controller; 8. a signal transmitter; 9. an alarm; 10. a counter; 11. a coat; 12. a protective cap; 13. a primary air intake; 14. auxiliary air exchange passages; 15. air holes are formed; 16. a ventilator; 17. a first power supply; 18. a protective net; 19. a zipper; 20. an eye mask portion; 21. shaping strips; 22. a second temperature sensor.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the present disclosure is further described in detail below with reference to specific embodiments.

It should be noted that technical terms or scientific terms used in the embodiments of the present specification should have a general meaning as understood by those having ordinary skill in the art to which the present disclosure belongs, unless otherwise defined. The use of "first," "second," and similar terms in the embodiments of the specification is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

As shown in fig. 1 to 3, an intelligent health monitoring protective clothing comprises a jacket 11 and an vest, wherein a ventilation mechanism is arranged in the jacket 11, an air inlet mechanism communicated with the ventilation mechanism is arranged outside the jacket 11, the vest comprises a vest body 1, a vital sign detection mechanism used for detecting the heart rate, the breath and the body temperature of a human body is arranged in the vest body 1, and a positioning sending mechanism used for sending position information and detected vital sign information to a mobile phone is arranged on the back of the vest body 1. Wherein, realize the regulation to the inside gas of protective clothing and temperature through set up air inlet mechanism and mechanism of taking a breath on the protective clothing to make the inside environment of protective clothing more comfortable, improve the travelling comfort that collocation undershirt was dressed. The vest adopting the structure can ensure the smoothness of the air duct due to the reasonable arrangement of the fabric layers, and increase the wearing comfort in a hot environment; the arrangement of the vital sign detection mechanism is convenient for monitoring the wearing vital sign conditions such as heart rate, respiration, body temperature and the like; the setting of location sending mechanism is convenient for in time send the vital sign situation of wearing for predetermined cell-phone user, makes it can in time know wearing person's health.

The protective clothing of the invention sucks the external air through the air inlet mechanism, and then introduces the external air into the ventilation mechanism to deliver the external air to each part of the whole body, thereby realizing ventilation and improving the internal environment of the protective clothing. The air exchange mechanism comprises a main air inlet channel 13 and a plurality of groups of auxiliary air exchange channels 14, wherein the main air inlet channel 13 is communicated with the auxiliary air exchange channels 14, the auxiliary air exchange channels are arranged on the inner side of the jacket 11, an air connector is arranged on the main air inlet channel 13, the air connector penetrates through the outer portion of the jacket 11, and the joint of the jacket 11 and the air connector is connected in a sealing mode. The main air inlet channel can be a plastic hose, is connected end to form an annular channel, and penetrates through the protective clothing through the arranged air joint to be communicated with the outside.

In order to increase the comfort and the balance of the internal ventilation, a plurality of ventilation holes are uniformly distributed on the auxiliary ventilation channel 14. The auxiliary air exchange passages are uniformly distributed at each part inside the coat. When the protective clothing works, external gas is input into the protective clothing, the protective clothing blows towards the body direction through the air holes, and meanwhile, the original gas can be removed, and the air circulation is improved.

As shown in fig. 1, the main air inlet 13 is disposed at the waist of the coat 11, a storage bag is disposed at the waist of the coat 11, the air inlet assembly is disposed in the storage bag, and an air outlet of the air inlet assembly is connected to the air connector. The gas connection can also be connected to the main inlet duct and the outlet of the ventilator. The power supply can adopt a storage battery. When the waist belt is arranged, the storage waistband can be detachably adhered to the waist position of the jacket through the magic tape, the storage waistbelt is provided with the multiple groups of storage bags, and the ventilator and the power supply are also placed inside the storage waistbelt and are convenient to carry.

The air inlet assembly comprises a ventilator 16 and a first power supply 17, an air inlet of the ventilator 16 is communicated with the outside, an air outlet of the ventilator 16 is connected with an air connector, and the first power supply 17 is electrically connected with the ventilator 16. The ventilator adopts the actual need among the prior art to select, and the gas joint that sets up can directly be connected this gas joint and outside station of taking a breath when the ventilator that self carries breaks down thereby realizes taking a breath. The ventilation mode needs to perform ventilation once at intervals.

Further, protective screens 18 are arranged on both the air inlet and the air outlet of the ventilator 16. Through the setting of protection network, avoid impurity to enter into in air inlet and the gas outlet, and then effectively prevent that impurity from blockking up air inlet or gas outlet.

The vital sign detection mechanism comprises a fiber grating sensor 2 arranged on the inner side surface of the chest of the vest body 1, a first temperature sensor 3 arranged on the inner side surface of the armpit of the vest body 1 and a respiration sensor 4 arranged in the middle of the inner side surface of the abdomen of the vest body 1. The heart rate is detected by adopting fiber bragg grating sensing, and the device has the characteristics of small measurement volume, high sensitivity, high resolution, simplicity, convenience, real-time monitoring, capability of acquiring high-frequency signals and the like. The fiber grating sensor is adopted as the sensing component of the electrocardio monitoring vest, has the advantages of simple structure, convenient manufacture, high response speed, stable work, electromagnetic interference resistance, corrosion resistance, high temperature resistance and the like, and has higher practical value. The first temperature sensor and the respiration sensor are both realized by conventional structures, and will not be described in excess here.

In order to increase the wearing comfort, the inner side of the vest body 1 is provided with a first cloth piece covering the fiber grating sensor 2, a second cloth piece covering the first temperature sensor 3 and a third cloth piece covering the respiration sensor 4. The cloth pieces are all of textile structures. In a preferred embodiment, the first cloth piece, the second cloth piece and the third cloth piece are made of super-hydrophobic gridding cloth. Adopt the setting of super hydrophobic net cloth, when the inside soaking of undershirt, only need twist dry this undershirt, because super hydrophobic effect of super hydrophobic net cloth, the inlayer cloth piece of undershirt is in dry state basically, and because better oil drain, antifouling effect of super hydrophobic net cloth, can keep inside clean, the comfortable effect of undershirt for a long time, avoids corresponding sensor long-term contact water environment and damages. The manufacturing method of the super-hydrophobic mesh cloth comprises the following steps: the fluorine water-proof oil-proof antifouling agent HK-901S is added with water to prepare a solution with the mass fraction of 5%, then the gridding cloth is immersed in the solution for about 12 hours, taken out and wrung, and then the gridding cloth is put into an oven to be dried at the high temperature of 110 ℃ to 150 ℃.

Furthermore, a transversely stretched elastic band is arranged at the lower part of the inner side surface of the vest. The elastic band can be one or more elastic bands, and can also cover the lower part of the back of the whole vest, so that the pressure of the vest on the human body is enhanced, all sensors are tightly attached to the human body, and the accuracy of the measured data is ensured.

The bottom of undershirt body 1 is equipped with second power supply, and location sending mechanism is including locating GPS locater 6, controller 7, signal transmitter 8 and the memory of undershirt body 1 back, GPS locater 6, signal transmitter 8, memory and vital sign detection mechanism all are connected with controller 7 electricity. Preferably, the power supply source adopts a storage battery so as to supply power to all other electrical components. The memory is arranged and used for storing normal body temperature, respiration and heart rate data and simultaneously storing real-time data detected by the fiber grating sensor, the first temperature sensor and the respiration sensor. The specific working principle is as follows: the fiber grating sensor, first temperature sensor and respiratory sensor send the real-time data that detect to the controller, the controller is with the normal data relative ratio of receiving real-time data and storage in the accumulator, when user's body temperature or rhythm of the heart are higher than or be less than normal data, send the positional information that the GPS locater sent and the real-time data that rhythm of the heart detector and first temperature sensor detected to the cell-phone of user's parent through signal transmitter on, thereby can detect user's vital sign change state in real time, in time provide user's parent with positional information and real-time data simultaneously, convenient to use person's parent in time rescues the user, avoid leading to the condition of the user aggravating to take place because of discovering untimely.

Further, when the vital sign condition of the wearer is abnormal, in order to warn the wearer, the shoulder of the vest body 1 is further provided with an alarm 9, and the alarm 9 is electrically connected with the controller 7. The fiber bragg grating sensor, the first temperature sensor and the respiration sensor send detected real-time data to the controller, the controller compares the received real-time data with normal data stored in the storage device, and the controller controls the alarm to give an alarm when the body temperature or the heart rate of a user is higher or lower than the normal data. Of course, this second power source could be eliminated so that the various structures of the vest are electrically connected to the first power supply.

The shoulder part of the vest body 1 is also provided with a pedometer 10 which is electrically connected with a second power supply 17. The pedometer detects the walking steps of the wearer, and the user can conveniently observe the motion condition of the user.

Furthermore, the arm part of the jacket 11 is provided with a monitoring panel, and the monitoring panel is electrically connected with the controller 7. The setting of monitoring panel is convenient for show each vital sign information of wearing person.

An identity recognition module is arranged in the monitoring panel. The identity identification module can be set as a face identification and/or password identification unit, when the protective clothing is used, the identity information of a user is identified through the identity identification module and is compared with the information which is registered and stored in the database for confirmation, and the input face information and/or the corresponding identity password information are consistent with the information in the database, and then the information such as the name of the user is transmitted to the monitoring panel for display.

As a further improvement, as shown in figure 4, the protective suit also comprises a protective cap 12, wherein the front side of the protective cap is provided with an eye shield part 20 and a shaping strip 21, and the shaping strip 21 is positioned below the eye shield part 20. The eyeshade is made of transparent plastic, the shape of the eyeshade is arc-shaped, so that the wide visual field range can be guaranteed as far as possible, the shaping strips are used for changing the shape of the face of the protective clothing, and gas exhaled by the mouth and the nose can be prevented from rising and condensing on the eyeshade to form water mist to block the visual field as far as possible. The coat and the protective cap can be of an integrated structure.

To further assist in measuring body temperature, a second temperature sensor 22 may be provided on the protective cap. The second temperature sensor is in electrical communication with the controller. The body temperature of the wearing person is further assisted and monitored by assisting the measurement of the temperature sensor at the armpit part.

In addition, the jacket can be provided with the zipper 19, so that the jacket is convenient to wear, the entrance guard can be arranged at the zipper, the sealing performance at the zipper can be further enhanced, and the cleanness of the inside of the protective clothing is guaranteed.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the present disclosure, also technical features in the above embodiments or in different embodiments may be combined, steps may be implemented in any order, and there are many other variations of the different aspects of the embodiments of the present description as described above, which are not provided in detail for the sake of brevity.

The embodiments of the present description are intended to embrace all such alternatives, modifications and variances that fall within the broad scope of the appended claims. Therefore, any omissions, modifications, equivalents, improvements, and the like that may be made within the spirit and principles of the embodiments described herein are intended to be included within the scope of the disclosure.

Claims (10)

1. The utility model provides an intelligence health monitoring protective clothing, includes jacket and undershirt, its characterized in that, be equipped with the mechanism of taking a breath in the jacket, the outside of jacket is equipped with the mechanism of admitting air that communicates with the mechanism of taking a breath, the undershirt includes the undershirt body, this internal vital sign detection mechanism that is used for detecting human rhythm of the heart, breathing, body temperature that is equipped with of undershirt, undershirt body back are equipped with the location sending mechanism of vital sign information transmission to the cell-phone with positional information and detection.

2. The intelligent health monitoring protective clothing of claim 1, wherein the ventilation mechanism comprises a main air inlet channel and a plurality of groups of auxiliary air exchange channels, the main air inlet channel is communicated with the auxiliary air exchange channels, the auxiliary air exchange channels are arranged on the inner side of the upper garment, an air connector is arranged on the main air inlet channel and penetrates through the outer portion of the upper garment, and the upper garment is connected with the air connector in a sealing manner.

3. The intelligent health monitoring protective clothing of claim 2, wherein a plurality of ventilation holes are evenly distributed on the auxiliary ventilation channel.

4. The intelligent health monitoring protective clothing of claim 2, wherein the main air inlet channel is arranged at the waist position of the upper outer garment, a storage bag is arranged at the waist position of the upper outer garment, the air inlet assembly is placed in the storage bag, and an air outlet of the air inlet assembly is connected with the air connector.

5. The intelligent health monitoring protective clothing according to claim 4, wherein the air intake assembly comprises a ventilator and a first power supply, an air inlet of the ventilator is communicated with the outside, an air outlet of the ventilator is connected with an air connector, and the power supply is electrically connected with the ventilator.

6. The intelligent health-monitoring protective clothing according to claim 5, wherein protective nets are arranged on both the air inlet and the air outlet of the ventilator.

7. The intelligent health monitoring protective clothing of claim 1, wherein the vital sign detection mechanism comprises a fiber grating sensor disposed on the medial surface of the chest of the vest body, a first temperature sensor disposed on the medial surface of the armpit of the vest body, and a respiration sensor disposed in the middle of the medial surface of the abdomen of the vest body.

8. The intelligent health monitoring protective clothing of claim 1, wherein a second power supply is provided at the bottom of the vest body, the positioning and sending mechanism comprises a GPS positioning instrument, a controller, a signal emitter and a memory provided at the back of the vest body, and the GPS positioning instrument, the signal emitter, the memory and the vital sign detection mechanism are all electrically connected with the controller.

9. The intelligent health monitoring protective garment of claim 8, wherein an alarm is further arranged on the shoulder of the vest body, and the alarm is electrically connected with the controller.

10. The intelligent health monitoring protective garment of claim 8, wherein a pedometer is further arranged on the shoulder of the vest body and electrically connected with a power supply.

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