WO2017107507A1

WO2017107507A1 - Health-maintaining garment used for monitoring physical signs

Info

Publication number: WO2017107507A1
Application number: PCT/CN2016/095232
Authority: WO
Inventors: 张贯京
Original assignee: 深圳市纳福信息技术有限公司
Priority date: 2015-12-26
Filing date: 2016-08-15
Publication date: 2017-06-29
Also published as: CN205285032U

Abstract

Provided is a health-maintaining garment (100) used for monitoring physical signs; the health-maintaining garment (100) comprises a garment body (05), and a belt (01), breast pocket (03), cuff (02), and edge (04) arranged on the garment body (05). the belt (01) comprises a belt body (1), a belt head (2), and belt buckle (3); grooves (10) having unique size numbers are disposed at identical preset distances on the inner side of the belt body (1); each groove (10) is internally provided with an electrode (101) of a different electrical resistance; the electrodes (101) in the grooves (10) are connected in series by means of a lead embedded in the belt body (1); the inner side of the belt buckle (3) is provided with a voltage sensor (30); in the belt head (2) are comprised a microcontroller (20) and a micro-battery (24); the voltage sensor (30) is connected to the microcontroller (20); the micro-battery (24) supplies power to the electrode (101) in each groove (10); the breast pocket (03) is internally provided with a heartbeat sensor (103); the cuff (02) is internally provided with a blood pressure sensor (102); the heartbeat sensor (103) and blood pressure sensor (102) are connected to the microcontroller (20) by means of a flexible lead wire in the edge (04). Thus the physical-indication data of a user are effectively monitored, facilitating the real-time management of the health situation of the user by a doctor.

Description

Manual Title: Health Care Clothes for Signage Monitoring

[0001] The present invention relates to the field of health monitoring, and in particular to a health care garment for physical condition monitoring.

Background technique

[0002] In daily life, many people are always worried that they are too fat, especially the waistline. Some people pay special attention to the changes in waist circumference according to their own aesthetic and work needs. Others are concerned with exercise and weight loss and need to measure their waistline regularly. Generally, people need a tape measure to measure their waist circumference, but they cannot always bring the tape measure around, which is inconvenient for measurement. In addition, the wearer needs to use a soft ruler to manually measure his waistline data while measuring his own waist circumference, and manually read the measured waistline data from the tape by visual inspection. The measurement data is caused by the error in manually reading the data. Not accurate enough. Furthermore, in the field of health management, in addition to the waistline data of the user's obesity, respiratory frequency, heart rate and blood pressure are important vital parameters for monitoring the health of the patient.

[0003] As we all know, clothes are a necessity for people's lives, and they can be worn on the body every moment, but the existing clothes only have the function of keeping warm or decorative, and do not have the detection function of the wearer's vital signs data. To this end, it is necessary to design a health monitoring and health care clothing and health monitoring method, which can not only solve the above problems easily, but also effectively monitor the health of the user.

technical problem

[0004] The main object of the present invention is to provide a health care garment for physical condition monitoring, which aims to solve the product defect that the existing clothes cannot automatically detect the wearer's vital signs data.

Problem solution

Technical solution

[0005] In order to achieve the above object, the present invention provides a health care garment for physical condition monitoring, the health care garment comprising a garment body and a waistband, a breast pocket, a cuff and a rim disposed on the garment body, the waistband comprising a waistband body, a waistband head and a belt buckle, wherein the inner side of the waistband body is provided with a card slot having a unique size number every same preset distance, and each card slot is provided with an electrode of different resistance value, in each card slot The electrodes are connected in series by wires embedded in the waistband body, and the inner side of the belt buckle is provided with a voltage sensor, the waistband includes a microcontroller and a micro battery, the voltage sensor is connected to the microcontroller, and the micro battery supplies power to electrodes in each card slot, the chest An electrocardiographic sensor is disposed in the bag, and a blood pressure sensor is disposed in the cuff, and the electrocardiographic sensor and the blood pressure sensor are both connected to the microcontroller through a flexible wire in the rim.

[0006] Preferably, the waistband head further includes a breathing sensor coupled to the microcontroller.

[0007] Preferably, the waistband head further includes a communication unit connected to the microcontroller.

Preferably, the waistband head further includes a slamming button linked to the microcontroller, the slamming button being disposed outside the waistband.

[0009] Preferably, the waistband head further includes a charging port linked to the micro battery, and the charging port is disposed outside the waistband.

[0010] Preferably, the waist belt, the chest pocket and the cuff are all formed into a joint structure by the hem, and are all disposed on the garment body in a detachable structure.

[0011] Preferably, the detachable structure is a snap button, a button or a Velcro.

[0012] Preferably, the garment body, the cuff, the breast pocket, and the edging are all made of a non-conductive textile having elasticity and flexibility.

[0013] Preferably, the belt buckle is disposed at a joint of the belt body and the waistband.

[0014] Preferably, the waistband body is made of an inelastic soft leather or a soft plastic insulating material, and the outer casing of the waistband and the belt buckle is made of a hard leather or a hard plastic insulating material. production. Advantageous effects of the invention

Beneficial effect

[0015] Compared with the prior art, the health care garment for physical condition monitoring according to the present invention can automatically measure the wearer's waist circumference data, respiratory rate, blood pressure data, and heart rate data, and the physical data. It is sent to the cloud health management platform of the remote health monitoring center through the communication unit, so that the remote doctor can track and manage the health of the wearer.

Brief description of the drawing

DRAWINGS

1 is a schematic plan view showing a preferred embodiment of a health care garment for physical condition monitoring according to the present invention; [0017] FIG. 2 is a front view of a preferred embodiment of a waistband of a health garment for physical condition monitoring of the present invention. Figure

3 is a schematic view showing a reverse structure of a preferred embodiment of a waistband of a health garment for use in vital sign monitoring according to the present invention; [0018] FIG.

4 is a schematic view showing the internal structure of a preferred embodiment of a health care garment for use in vital sign monitoring according to the present invention.

[0020] OBJECTS, FEATURES, AND EMBODIMENT OF THE INVENTION The present invention will be further described with reference to the accompanying drawings.

BEST MODE FOR CARRYING OUT THE INVENTION

[0021] In order to further illustrate the technical means and functions of the present invention in order to achieve the above objects, the specific embodiments, structures, features and functions of the present invention will be described in detail below with reference to the accompanying drawings and preferred embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0022] As shown in FIG. 1, FIG. 1 is a schematic plan view showing a preferred embodiment of a health care garment for use in vital sign monitoring according to the present invention. In the present embodiment, the health care garment 100 includes a garment body 05, a waistband 01, a cuff 02, a breast pocket 03, and a edging 04 disposed under the placket of the garment body 05. The edging 04 is embedded with a flexible wire, and the waistband 01, the cuff 02 and the chest pocket 03 are joined together to form a joint structure. The garment body 05, the cuff 02, the breast pocket 03, and the edging 04 are all made of a non-conductive woven fabric having elasticity and flexibility, and the health care garment 100 can be closely attached to the wearer while ensuring the comfort of the wearer. Skin.

[0023] In order to ensure that the flexible wire can be energized, the waist belt 01, the cuff 02 and the breast pocket 03 form a joint structure by the edging 04, and each is disposed on the garment body 05 in a detachable structure. The detachable structure includes, but is not limited to, a snap, a button, a velcro, or other attachable structure. Therefore, when the health care garment 100 requires washing, the waistband 01, the cuff 02, the breast pocket 03, and the edging 04 can be detached from the garment body 05 to prevent washing of the health care garment 100, resulting in the waistband 01, cuffs 02. The electrical components in the chest pocket 03 and the rim 04 were washed out and could not be used. When the wearer needs to wear the health care garment 100, the connected waistband 01, the cuff 02, the breast pocket 03, and the edging 04 are respectively attached to the garment body 05, so that it is convenient to use and is not washed. The impact has a strong practical value. [0024]

2, FIG. 2 is a front structural view of a preferred embodiment of the waist belt 01 of the health garment for physical condition monitoring of the present invention. In the present embodiment, the waist belt 01 includes a belt body 1, a belt head 2, and a belt buckle 3, and the belt buckle 3 is provided at a joint of the belt body 1 and the belt head 2. The waistband body 1 is made of the same material as the conventional plain waistband, and the embodiment can be made of an inelastic soft leather or a soft plastic or the like. The outer casing of the waistband 2 and the waistband buckle 3 are made of the same material as the conventional plain waistband and belt buckle, and the embodiment can be made of an insulating material such as hard leather or hard plastic.

[0026]

[0027] As shown in FIG. 3, FIG. 3 is a schematic view showing the reverse structure of a preferred embodiment of the waist belt 01 of the health care garment for use in the physical examination of the present invention. In the present embodiment, the inside of the belt body 1 is provided with a card slot 10 having a unique size number every same preset distance (e.g., lcm or 0.5 cm). In the present embodiment, from the end of the belt lock 3, a card slot 10 is provided at every predetermined distance, and each card slot 10 has a unique size number. If the length of the waistband body 1 is 100 cm and one card slot 10 is provided for each lcm, the number of the first card slot 10 is 1, the number of the second card slot 10 is 2, the number of the third card slot 10 is 3, and finally One card slot 10 is numbered 100. Each of the card slots 10 includes an electrode 101 of a different resistance value, and the electrodes 101 in each of the card slots 10 are connected in series by wires embedded in the waistband body 1. When the belt buckle 3 catches the different card slots 10, since the resistance values of the electrodes 101 in each of the card slots 10 are different, the voltage signals output from the electrodes 101 in each of the card slots 10 are different. In the present embodiment, the voltage signal outputted by the electrode 101 in each of the card slots 10 is a small voltage (e.g., a voltage not greater than lmv), and thus does not have any influence on the health of the wearer.

[0028] In the embodiment, the inner side of the belt buckle 3 is provided with a voltage sensor 30. When the belt buckle 3 is engaged with one of the card slots 10, the voltage sensor 30 is used for sensing. The voltage signal output from the electrode 101 in the stuck card slot 10.

[0029]

[0030] As shown in FIG. 4, FIG. 4 is a schematic diagram of the internal structure of a preferred embodiment of the health care garment for use in vital sign monitoring according to the present invention. Referring to FIG. 2 and FIG. 3 together, the garment body 01 of the health care garment 100 is provided with a belt 01, a cuff 02, and a chest pocket 03. The waist belt 01 includes a belt body 1, a belt head 2, and a belt buckle 3. Place A blood pressure sensor 102 is disposed in the cuff 02, and an electrocardiographic sensor 103 is disposed in the chest pocket 03. The waistband 2 includes a microcontroller 20, a switch button 21, a breath sensor 22, a communication unit 23, a micro battery 24, and a charging port 25. The switch button 21, the breathing sensor 22, the communication unit 23, and the micro battery 24 are all connected to the microcontroller 20. The microbattery 24 is also connected to the electrode 10 1 in each of the card slots 10 to provide power to the electrodes 101 in each of the card slots 10. A voltage sensor 30 within the belt buckle 3 is coupled to the microcontroller 20. Both the blood pressure sensor 102 and the electrocardiographic sensor 103 are coupled to the microcontroller 20 by flexible wires within the rim 04.

[0031] The microcontroller 20, the respiration sensor 22, the communication unit 23, and the micro battery 24 are all disposed inside the waistband 2. Referring to FIGS. 1 and 2, the switch button 21 and the charging port 25 are disposed on the outer side of the waistband head 2, and may be respectively disposed on both sides of the waistband head 2, or may be disposed on the same side.

[0032] When the slamming button 21 is turned on, the micro battery 24 energizes the electrode 101 in each of the card slots 10. When the belt buckle 3 catches one of the slots 10吋, the voltage sensor 30 measures the voltage signal outputted by the electrode 101 of the card slot 10 stuck by the belt buckle 3, and outputs the electrode 101. The voltage signal is sent to the microcontroller 20.

[0033] In this embodiment, the microcontroller 20 is a micro control unit (MCU), a data processing chip, or an information processing unit having a data processing function. The microcontroller 20 identifies the size number of the card slot 10 corresponding to the electrode 101 according to the voltage signal output from the electrode 101, and obtains the wearer's waistline data according to the size number of the card slot 10.

[0034] The respiration sensor 22 is a micro-breath sensing device that senses human respiratory waves in the prior art, and the specific structure is not described in detail in the present invention. In the present embodiment, the respiration sensor 22 detects the wearer's respiratory rate from the wearer's abdomen and transmits the wearer's respiratory rate to the microcontroller 20.

[0035] In the present embodiment, since the garment body 05 is made of a textile having elasticity and flexibility, the wearer can wear the health care garment 100 on the body, and the garment body 05 can make the blood pressure in the cuff 02 The sensor 102 fits snugly against the wearer's arm. The blood pressure sensor 102 is a micro blood pressure sensing device for measuring blood pressure of a human body in the prior art, and the specific structure is not described in detail in the present invention. In this embodiment, the blood pressure sensor 102 measures the blood pressure data of the wearer from the arm portion of the wearer, and Transmitting the wearer's blood pressure data to the microcontroller 20 through a flexible wire within the rim 04

[0036] In the present embodiment, since the garment body 05 is made of a textile having elasticity and flexibility, the wearer can wear the health care garment 100 on the body, and the garment body 05 can be made in the chest pocket 03. The ECG sensor 103 fits snugly against the wearer's chest. The electrocardiographic sensor 103 is a miniature heart rate sensing device for measuring a human heart rate in the prior art, and the specific structure is not described in detail in the present invention. In the present embodiment, the ECG sensor 103 measures the wearer's heart rate data from the wearer's chest, and transmits the wearer's heart rate data to the micro-control through the flexible wire in the rim 04. 20.

[0037] The communication unit 23 is a wireless communication interface with wireless communication function (for example, a short-range communication interface such as Bluetooth or WIFI or a remote communication interface). The communication unit 23 transmits the wearer's waistline data, respiratory rate, blood pressure data, and heart rate data to the cloud health management platform installed in the remote health management center, so that the remote doctor can track and manage the wearer's health.

[0038] The micro battery 24 is used to supply electric energy to all electrical components in the health care garment 100, and the micro battery 24 is a low-radiation, low-power rechargeable lithium battery, which is not for the wearer. Health has an impact. The micro battery 24 is also connected to a charging port 25, which can be a USB interface or other standard battery charging interface, and the charging port 25 can be directly inserted into an external power source (such as a computer USB interface or a low voltage regulator). The micro battery 24 is charged, for example. When the power of the microbattery 24 is used up, the wearer can charge the microbattery 24 through the charging port 25, thereby extending the life cycle of the health care garment 100.

[0039] The health care garment for physical condition monitoring according to the present invention can automatically measure the wearer's waist circumference data, respiratory rate, blood pressure data, and heart rate data, and can send the vital sign data to set remote health monitoring. The center's cloud health management platform allows remote doctors to track and manage the wearer's health.

The above is only a preferred embodiment of the present invention, and thus does not limit the scope of the patent of the present invention, and the equivalent structure or equivalent function transformation made by the specification and the drawings of the present invention, or directly or indirectly In other related technical fields, the same is included in the scope of patent protection of the present invention. Embodiments of the invention

[0041] In order to further illustrate the technical means and functions of the present invention in order to achieve the above object, the specific embodiments, structures, features and functions of the present invention will be described in detail below with reference to the accompanying drawings and preferred embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0042] As shown in FIG. 1, FIG. 1 is a schematic plan view showing a preferred embodiment of a health care garment for body sign monitoring according to the present invention. In the present embodiment, the health care garment 100 includes a garment body 05, a waistband 01, a cuff 02, a breast pocket 03, and a edging 04 disposed under the placket of the garment body 05. The edging 04 is embedded with a flexible wire, and the waistband 01, the cuff 02 and the chest pocket 03 are joined together to form a joint structure. The garment body 05, the cuff 02, the breast pocket 03, and the edging 04 are all made of a non-conductive woven fabric having elasticity and flexibility, and the health care garment 100 can be closely attached to the wearer while ensuring the comfort of the wearer. Skin.

[0043] In order to ensure that the flexible wire can be energized, the waist belt 01, the cuff 02 and the breast pocket 03 form a joint structure by the edging 04, and each is disposed on the garment body 05 in a detachable configuration. The detachable structure includes, but is not limited to, a snap, button, velcro, or other attachable structure. Therefore, when the health care garment 100 requires washing, the waistband 01, the cuff 02, the breast pocket 03, and the edging 04 can be detached from the garment body 05 to prevent washing of the health care garment 100, resulting in the waistband 01, cuffs 02. The electrical components in the chest pocket 03 and the rim 04 were washed out and could not be used. When the wearer needs to wear the health care garment 100, the connected waistband 01, the cuff 02, the breast pocket 03, and the edging 04 are respectively attached to the garment body 05, so that it is convenient to use and is not washed. The impact has a strong practical value.

[0044]

[0045] As shown in FIG. 2, FIG. 2 is a schematic front view of a preferred embodiment of a waistband 01 of a health garment for use in sign monitoring of the present invention. In the present embodiment, the waist belt 01 includes a belt body 1, a belt head 2, and a belt buckle 3, and the belt buckle 3 is disposed at a joint of the belt body 1 and the belt head 2. The waistband body 1 is made of the same material as the conventional plain waistband, and the embodiment can be made of an inelastic soft leather or a soft plastic or the like. The outer casing of the waistband 2 and the belt buckle 3 are made of the same material as the conventional waistband and belt buckle. In this embodiment, hard leather or hard plastic can be used. Made of edge material.

[0046]

As shown in FIG. 3, FIG. 3 is a schematic view showing the reverse structure of a preferred embodiment of the waist belt 01 of the health care garment for sign monitoring of the present invention. In the present embodiment, the inside of the belt body 1 is provided with a card slot 10 having a unique size number every same preset distance (e.g., lcm or 0.5 cm). In the present embodiment, from the end of the belt lock 3, a card slot 10 is provided at every predetermined distance, and each card slot 10 has a unique size number. If the length of the waistband body 1 is 100 cm and one card slot 10 is provided for each lcm, the number of the first card slot 10 is 1, the number of the second card slot 10 is 2, the number of the third card slot 10 is 3, and finally One card slot 10 is numbered 100. Each of the card slots 10 includes an electrode 101 of a different resistance value, and the electrodes 101 in each of the card slots 10 are connected in series by wires embedded in the waistband body 1. When the belt buckle 3 catches the different card slots 10, since the resistance values of the electrodes 101 in each of the card slots 10 are different, the voltage signals output from the electrodes 101 in each of the card slots 10 are different. In the present embodiment, the voltage signal outputted by the electrode 101 in each of the card slots 10 is a small voltage (e.g., a voltage not greater than lmv), and thus does not have any influence on the health of the wearer.

[0048] In the embodiment, the inner side of the belt buckle 3 is provided with a voltage sensor 30. When the belt buckle 3 is engaged with one of the card slots 10, the voltage sensor 30 is used for sensing. The voltage signal output from the electrode 101 in the stuck card slot 10.

[0049]

[0050] As shown in FIG. 4, FIG. 4 is a schematic diagram showing the internal structure of a preferred embodiment of the health care garment for use in vital sign monitoring according to the present invention. Referring to FIG. 2 and FIG. 3 together, the garment body 01 of the health care garment 100 is provided with a belt 01, a cuff 02, and a chest pocket 03. The waist belt 01 includes a belt body 1, a belt head 2, and a belt buckle 3. A blood pressure sensor 102 is disposed in the cuff 02, and an electrocardiographic sensor 103 is disposed in the chest pocket 03. The waistband 2 includes a microcontroller 20, a switch button 21, a breath sensor 22, a communication unit 23, a micro battery 24, and a charging port 25. The switch button 21, the breathing sensor 22, the communication unit 23, and the micro battery 24 are all connected to the microcontroller 20. The microbattery 24 is also connected to the electrode 10 1 in each of the card slots 10 to provide power to the electrodes 101 in each of the card slots 10. A voltage sensor 30 within the belt buckle 3 is coupled to the microcontroller 20. Both the blood pressure sensor 102 and the electrocardiographic sensor 103 are coupled to the microcontroller 20 by flexible wires within the rim 04. [0051] The microcontroller 20, the respiration sensor 22, the communication unit 23, and the micro battery 24 are all disposed inside the waistband 2. Referring to FIGS. 1 and 2, the switch button 21 and the charging port 25 are disposed on the outer side of the waistband head 2, and may be respectively disposed on both sides of the waistband head 2, or may be disposed on the same side.

[0052] When the switch button 21 is turned on, the micro battery 24 energizes the electrode 101 in each of the card slots 10. When the belt buckle 3 catches one of the slots 10吋, the voltage sensor 30 measures the voltage signal outputted by the electrode 101 of the card slot 10 stuck by the belt buckle 3, and outputs the electrode 101. The voltage signal is sent to the microcontroller 20.

[0053] In this embodiment, the microcontroller 20 is a micro control unit (MCU), a data processing chip, or an information processing unit having a data processing function. The microcontroller 20 identifies the size number of the card slot 10 corresponding to the electrode 101 according to the voltage signal output from the electrode 101, and obtains the wearer's waistline data according to the size number of the card slot 10.

[0054] The respiration sensor 22 is a micro-breath sensing device that senses human respiratory waves in the prior art, and the specific structure is not described in detail in the present invention. In the present embodiment, the respiration sensor 22 detects the wearer's respiratory rate from the wearer's abdomen and transmits the wearer's respiratory rate to the microcontroller 20.

[0055] In the present embodiment, since the garment body 05 is made of a textile having elasticity and flexibility, the wearer can wear the health care garment 100 on the body, and the garment body 05 can make the blood pressure in the cuff 02. The sensor 102 fits snugly against the wearer's arm. The blood pressure sensor 102 is a miniature blood pressure sensing device for measuring blood pressure of a human body in the prior art, and the specific structure is not described in detail in the present invention. In this embodiment, the blood pressure sensor 102 measures the blood pressure data of the wearer from the arm portion of the wearer, and transmits the blood pressure data of the wearer to the micro control through the flexible wire in the rim 04. 20

[0056] In the present embodiment, since the garment body 05 is made of a textile having elasticity and flexibility, the wearer can wear the health care garment 100 on the body, and the garment body 05 can be made in the chest pocket 03. The ECG sensor 103 fits snugly against the wearer's chest. The ECG sensor 103 is a miniature heart rate sensing device for measuring a human heart rate in the prior art, and the specific structure is not described in detail in the present invention. In this embodiment, the electrocardiographic sensor 103 measures the wearer's heart rate data from the wearer's chest, and the The wearer's heart rate data is sent to the microcontroller 20 through a flexible wire within the rim 04.

[0057] The communication unit 23 is a wireless communication interface with wireless communication function (for example, a short-range communication interface such as Bluetooth or WIFI or a remote communication interface). The communication unit 23 transmits the wearer's waistline data, respiratory rate, blood pressure data, and heart rate data to the cloud health management platform installed in the remote health management center, so that the remote doctor can track and manage the wearer's health.

[0058] The micro battery 24 is used to supply electric energy to all electrical components in the health care garment 100, and the micro battery 24 is a low-radiation, low-power rechargeable lithium battery, which is not for the wearer. Health has an impact. The micro battery 24 is also connected to a charging port 25, which can be a USB interface or other standard battery charging interface, and the charging port 25 can be directly inserted into an external power source (such as a computer USB interface or a low voltage regulator). The micro battery 24 is charged, for example. When the power of the microbattery 24 is used up, the wearer can charge the microbattery 24 through the charging port 25, thereby extending the life cycle of the health care garment 100.

[0059] The health care garment for physical condition monitoring according to the present invention can automatically measure the wearer's waist circumference data, respiratory rate, blood pressure data, and heart rate data, and can send the vital sign data to set remote health monitoring. The center's cloud health management platform allows remote doctors to track and manage the wearer's health.

The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the patents of the present invention. Any equivalent structure or equivalent function transformation made by the specification and the drawings of the present invention may be directly or indirectly utilized. In other related technical fields, the same is included in the scope of patent protection of the present invention.

Industrial applicability

Compared with the prior art, the health care garment for physical condition monitoring according to the present invention can automatically measure the wearer's waist circumference data, respiratory rate, blood pressure data, and heart rate data, and the physical data. It is sent to the cloud health management platform of the remote health monitoring center through the communication unit, so that the remote doctor can track and manage the health of the wearer.

[0062]

Claims

Claim

A health care garment for physical condition monitoring, characterized in that the health care garment comprises a garment body and a waist belt, a breast pocket, a cuff and a rim provided on the garment body, the waist belt comprising a belt body, a waistband and a belt lock a card slot having a unique size number is disposed on the inner side of the belt body at the same preset distance, and each card slot is provided with an electrode with a different resistance value, and the electrode in each card slot is embedded in the belt body The wire is connected in series, the inside of the belt buckle is provided with a voltage sensor, the waistband includes a microcontroller and a micro battery, and the voltage sensor is connected to the microcontroller, the micro battery Providing an electrocardiographic sensor in the chest pocket, wherein the chest pocket is provided with a blood pressure sensor, and the ECG sensor and the blood pressure sensor are connected to each other through a flexible wire in the flange On the microcontroller.

The health garment for use in sign monitoring of claim 1 wherein said waistband head further comprises a respiration sensor coupled to said microcontroller.

A health garment for use in sign monitoring according to claim 2, wherein said waistband head further comprises a communication unit coupled to said microcontroller.

A health care garment for sign monitoring according to claim 3, wherein said waistband head further comprises a slamming button linked to said microcontroller, said slamming button being disposed at said waistband Outside.

A health garment for use in sign monitoring according to claim 4, wherein said waistband further includes a charging port coupled to said microbattery, said charging port being disposed outside said waistband.

The health garment for sign monitoring according to any one of claims 1 to 5, wherein the waistband, the chest pocket, and the cuff are formed into a joint structure by the rim, and both have a detachable structure. It is disposed on the clothes body.

A health care garment for use in sign monitoring according to claim 6, wherein the detachable structure is a snap button, a button or a Velcro.

The health care garment for sign monitoring according to claim 6, wherein the garment body, the cuff, the breast pocket, and the hem are made of non-conductive textile having elasticity and flexibility. Made of things.

[Claim 9] The health care garment for sign monitoring according to claim 6, wherein the waistband buckle is disposed at a joint of the waistband body and the waistband.

[Claim 10] The health care garment for sign monitoring according to claim 6, wherein the waistband body is made of an inelastic soft leather or a soft plastic insulating material, and the waistband head The outer casing of the belt buckle is made of hard leather or hard plastic insulation.