CN205285032U

CN205285032U - A health care clothing for physiological monitoring

Info

Publication number: CN205285032U
Application number: CN201521099558.6U
Authority: CN
Inventors: 张贯京; 陈兴明; 张少鹏; 高伟明; 李慧玲; 石江波
Original assignee: Shenzhen Nafu Information Technology Co Ltd
Current assignee: Shenzhen Nafu Information Technology Co Ltd
Priority date: 2015-12-26
Filing date: 2015-12-26
Publication date: 2016-06-08
Anticipated expiration: 2025-12-26
Also published as: WO2017107507A1

Abstract

The utility model discloses a health care clothing for physiological monitoring, this health care clothing include the clothes body and set up waistband, breast pocket, cuff and the band on the clothes body. The waistband includes belt ontology, waist belt head and waist belt lock catch, the same default distance of the inboard every of belt ontology sets up a draw -in groove that has only spec. No, be provided with the electrode of different resistance values in each draw -in groove, electrode in each draw -in groove concatenates through the wire of inlaying in belt ontology, the waist belt lock catch inboard is provided with voltage sensor, including microcontroller and micro -battery in the waist belt head, voltage sensor is connected to on the microcontroller, micro -battery is the electrode power supply in each draw -in groove, set up heart electric sensor in the breast pocket, set up blood pressure transducer in the cuff, on heart electric sensor and blood pressure transducer all are connected to microcontroller through the flexible wire in the band. The utility model discloses user's sign data can be monitored effectively, doctor's real -time management user's health status is made things convenient for.

Description

Health care garment for sign monitoring

Technical field

This utility model relates to health monitoring field, particularly relates to a kind of Health care garment for sign monitoring.

Background technology

In daily life, a lot of people always worry that oneself is fat too fast, particularly waistline. Some, according to the aesthetic of oneself and requirements of one's work, pay special attention to the situation of change of waistline. Other people are then the considerations for exercise and fat-reducing situation, it is necessary to regular measurement waistline. Usually, people measure waistline needs tape, but can not total for tape band at one's side, make troubles to measurement. In addition, wearer is when measuring self waistline, it is necessary to uses tape manual measurement to go out the waistline data of self, and requires over the range estimation waistline data that artificial reading is measured from tape, there is error owing to manual read fetches data, thus result in measurement data not accurate enough. Additionally, in health management arts, except embodying the waistline data that user is fat, also have respiratory frequency, heart rate and blood pressure etc. to contribute to the vital sign parameter of monitoring patient health status.

It is known that the necessary that clothes is people lives, it can wear all the time, but existing clothes only has warming or decoration functions, and does not possess the detection function of wearer sign data. For this reason, it may be necessary to devise a kind of health monitoring Health care garment and health monitoring method, easily can not only simply solve the problems referred to above, and the health status of user can be effectively monitored.

Utility model content

Main purpose of the present utility model is in that to provide a kind of Health care garment for sign monitoring, it is intended to solves existing clothes and can not automatically detect the product defects of wearer sign data.

For achieving the above object, this utility model provides a kind of Health care garment for sign monitoring, this Health care garment includes garment body and the belt being arranged in garment body, breast bag, cuff and fringing, described belt includes belt body, belt buckle and girdle lock catch, inside described belt body, one draw-in groove with unique Spec. No. is set every identical predeterminable range, the electrode of a different resistance values it is provided with in each draw-in groove, electrode in each draw-in groove is by being embedded in the wire concatenation in belt body, it is provided with voltage-sensor inside described girdle lock catch, microcontroller and minicell is included in described belt buckle, described voltage-sensor is connected on described microcontroller, described minicell is the electrode power supply in each draw-in groove, it is provided with EGC sensor in described breast pocket, it is provided with pressure transducer in described cuff, described EGC sensor and pressure transducer are connected on described microcontroller each through the flexible wire in fringing.

Preferably, described belt buckle also includes a respiration pickup being connected on described microcontroller.

Preferably, described belt buckle also includes a communication unit being connected on described microcontroller.

Preferably, described belt buckle also includes a shift knob linked on described microcontroller, and this shift knob is arranged on the outside of described belt buckle.

Preferably, described belt buckle also includes a charging port linked on described minicell, and this charging port is arranged on the outside of described belt buckle.

Preferably, described belt, breast pocket and cuff constitute conjoined structure each through described fringing, and all adopt Demountable to be arranged in described garment body.

Preferably, described Demountable is a kind of snap-fastener, button or VELCRO.

Preferably, described garment body, cuff, breast pocket and fringing all adopt the non-conductive yarn fabric with elasticity and flexibility to make.

Preferably, described girdle lock catch is arranged on the junction of described belt body and belt buckle.

Preferably, described belt body adopts the insulant of inelastic soft leather or flexible plastic to make, and the shell of described belt buckle and girdle lock catch all adopts the insulant of hard leather or rigid plastics to make.

Compared to prior art, Health care garment for sign monitoring described in the utility model can measure the sign datas such as the waistline data of wearer, respiratory frequency, blood pressure data and heart rate data automatically, and described sign data is sent to the cloud health control platform arranging remote health Surveillance center by communication unit, in order to long-range doctor's real-time tracking and the health status managing wearer.

Accompanying drawing explanation

Fig. 1 is the planar structure schematic diagram of the Health care garment preferred embodiment that this utility model is monitored for sign;

Fig. 2 is the Facad structure schematic diagram of the belt preferred embodiment of the Health care garment that this utility model is monitored for sign;

Fig. 3 is the inverse layer structure schematic diagram of the belt preferred embodiment of the Health care garment that this utility model is monitored for sign;

Fig. 4 is the internal structure schematic diagram of the Health care garment preferred embodiment that this utility model is monitored for sign.

The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

For further setting forth that this utility model is reach technological means and effect that above-mentioned purpose is taked, below in conjunction with accompanying drawing and preferred embodiment, detailed description of the invention of the present utility model, structure, feature and effect thereof are described in detail. Should be appreciated that specific embodiment described herein is only in order to explain this utility model, be not used to limit this utility model.

As it is shown in figure 1, Fig. 1 is the planar structure schematic diagram of the Health care garment preferred embodiment that this utility model is monitored for sign. In the present embodiment, described Health care garment 100 includes garment body 05, belt 01, cuff 02, breast pocket 03 and fringing 04, and described belt 01 is arranged on below the hem of garment body 05. Flexible wire the composition conjoined structure that described belt 01, cuff 02 and breast pocket 03 linked together it is inlaid with in described fringing 04. Described garment body 05, cuff 02, breast pocket 03 and fringing 04 all adopt the non-conductive yarn fabric with elasticity and flexibility to make, and Health care garment 100 can also be made to be close to the skin of wearer while ensureing wearer comfort type.

For ensureing that described flexible wire can be energized, described belt 01, cuff 02 and breast pocket 03 constitute conjoined structure by fringing 04, and each all adopt Demountable to be arranged in described garment body 05.Described Demountable include but not limited to, snap-fastener, button, VELCRO or other Pasting structure. Therefore, when described Health care garment 100 needs to wash, described belt 01, cuff 02, breast pocket 03 and fringing 04 all can disassemble from described garment body 05, cause that the electrical equipment in belt 01, cuff 02, breast pocket 03 and fringing 04 is washed with water bad and cannot use during to prevent from washing Health care garment 100. When wearer needs to dress described Health care garment 100, the belt 01 of described disjunctor, cuff 02, breast pocket 03 and fringing 04 are posted in described garment body 05 respectively, thus easy to use and that do not washed impact, there is very strong practical value.

As in figure 2 it is shown, Fig. 2 is the Facad structure schematic diagram of belt 01 preferred embodiment of the Health care garment that this utility model is monitored for sign. In the present embodiment, described belt 01 includes belt body 1, belt buckle 2 and girdle lock catch 3, and described girdle lock catch 3 is arranged on the junction of described belt body 1 and belt buckle 2. Described belt body 1 adopts the material identical with existing common belt to make, and the present embodiment can adopt the insulant such as inelastic soft leather or flexible plastic to make. Described belt buckle 2 all adopts the material identical with existing common belt buckle and girdle lock catch to make with the shell of girdle lock catch 3, and the present embodiment can adopt the insulant such as hard leather or rigid plastics to make.

As it is shown on figure 3, Fig. 3 is the inverse layer structure schematic diagram of belt 01 preferred embodiment of the Health care garment that this utility model is monitored for sign. In the present embodiment, inside described belt body 1, a draw-in groove 10 with unique Spec. No. is set every identical predeterminable range (such as 1cm or 0.5cm). In the present embodiment, from one end of girdle lock catch 3, predeterminable range being provided with a draw-in groove 10, each draw-in groove 10 has unique Spec. No.. If belt body 1 length is 100cm and each 1cm arranges a draw-in groove 10, then the first draw-in groove 10 be numbered the 1, second draw-in groove 10 be numbered the 2, the 3rd draw-in groove 10 be numbered 3 and last draw-in groove 10 be numbered 100. Each draw-in groove 10 includes the electrode 101 of a different resistance values, and the electrode 101 in each draw-in groove 10 is by being embedded in the wire concatenation in belt body 1. When girdle lock catch 3 blocks different draw-in groove 10, owing to the resistance value of the electrode 101 in each draw-in groove 10 is different, thus the voltage signal of electrode 101 output in each draw-in groove 10 is different. In the present embodiment, the voltage signal that the electrode 101 in each draw-in groove 10 exports is a kind of small voltage (being such as not more than the voltage of 1mv), thus without the health any impact of generation on wearer.

In the present embodiment, being provided with voltage-sensor 30 inside described girdle lock catch 3, when girdle lock catch 3 blocks one of them draw-in groove 10, described voltage-sensor 30 is for sensing the voltage signal of electrode 101 output in this jammed draw-in groove 10.

As shown in Figure 4, Fig. 4 is the internal structure schematic diagram of the Health care garment preferred embodiment that this utility model is monitored for sign. In the lump referring to figs. 2 and 3 shown, the garment body 01 of described Health care garment 100 is provided with belt 01, cuff 02 and breast pocket 03. Described belt 01 includes belt body 1, belt buckle 2 and girdle lock catch 3. It is provided with pressure transducer 102 in described cuff 02, in described breast pocket 03, is provided with EGC sensor 103.Described belt buckle 2 includes microcontroller 20, shift knob 21, respiration pickup 22, communication unit 23, minicell 24 and charging port 25. Described shift knob 21, respiration pickup 22, communication unit 23 and minicell 24 are connected on described microcontroller 20. Described minicell 24 is additionally coupled on the electrode 101 in each draw-in groove 10, provides power supply for the electrode 101 in each draw-in groove 10. Voltage-sensor 30 in described girdle lock catch 3 is connected on described microcontroller 20. Described pressure transducer 102 and EGC sensor 103 are connected on described microcontroller 20 each through the flexible wire in described fringing 04.

Described microcontroller 20, respiration pickup 22, communication unit 23 and minicell 24 are arranged at the inside of belt buckle 2. With reference to shown in Fig. 1 and Fig. 2, described shift knob 21 is arranged on belt buckle 2 with charging port 25 and is arranged on the outside of belt buckle 2, for instance can be separately positioned on the both sides of belt buckle 2, it is also possible to be arranged on the same side.

When shift knob 21 is opened, described minicell 24 is energized to the electrode 101 in each draw-in groove 10. When girdle lock catch 3 blocks one of them draw-in groove 10, voltage-sensor 30 measures the voltage signal that in the draw-in groove 10 blocked by girdle lock catch 3, electrode 101 exports, and the voltage signal exported by described electrode 101 sends to microcontroller 20.

In the present embodiment, described microcontroller 20 is a kind of micro-control unit (MCU), data processing chip or the information process unit with data processing function. Described microcontroller 20 identifies the Spec. No. of the draw-in groove 10 of this electrode 101 correspondence according to the voltage signal that described electrode 101 exports, and obtains the waistline data of wearer according to the Spec. No. of this draw-in groove 10.

Described respiration pickup 22 is the miniature respiration sensing device in prior art, human body respiration ripple sensed, and concrete structure is not described in detail in this utility model. In the present embodiment, described respiration pickup 22 detects the respiratory frequency of wearer from the abdominal part of wearer, and sends the respiratory frequency of described wearer to described microcontroller 20.

In the present embodiment, owing to garment body 05 adopts the yarn fabric with elasticity and flexibility to make, therefore, when Health care garment 100 is worn by wearer, described garment body 05 can make the pressure transducer 102 in cuff 02 be close to the arm position of wearer. Described pressure transducer 102 is the miniature blood pressure sensing device in prior art to human blood-pressure measurement, and concrete structure is not described in detail in this utility model. In the present embodiment, described pressure transducer 102 measures the blood pressure data of wearer from the arm part of wearer, and is sent to described microcontroller 20 by the flexible wire in described fringing 04 by the blood pressure data of described wearer.

In the present embodiment, owing to garment body 05 adopts the yarn fabric with elasticity and flexibility to make, therefore when Health care garment 100 is worn by wearer, described garment body 05 can make the EGC sensor 103 in breast pocket 03 be close to the chest of wearer. Described EGC sensor 103 is the miniature heart rate sensing device in prior art to human heart rate's measurement, and concrete structure is not described in detail in this utility model. In the present embodiment, described EGC sensor 103 measures the heart rate data of wearer from the chest of wearer, and is sent to described microcontroller 20 by the flexible wire in described fringing 04 by the heart rate data of described wearer.

Described communication unit 23 is a kind of wireless communication interface (such as the near field communication interface such as bluetooth, WIFI or remote communication interface) with wireless communication function. The waistline data of wearer, respiratory frequency, blood pressure data and heart rate data are sent to the cloud health control platform being arranged on remote-health managing center by described communication unit 23, in order to long-range doctor's real-time tracking and the health status managing wearer.

Described minicell 24 is for providing electric energy to all electric elements in described Health care garment 100, and this minicell 24 is the chargeable lithium cell of a kind of Low emissivity, low-power consumption, and the health of wearer will not be brought impact by it. Described minicell 24 is also associated with a charging port 25, this charging port 25 can be the battery charging inlet of a kind of USB interface or other standard, and this charging port 25 is directly inserted on external power source (such as computer USB interface or low pressure manostat etc.) and described minicell 24 is charged. When the electricity of described minicell 24 is finished, wearer can pass through described charging port 25 and minicell 24 is charged, thus extending the life cycle of described Health care garment 100.

Health care garment for sign monitoring described in the utility model can measure the sign datas such as the waistline data of wearer, respiratory frequency, blood pressure data and heart rate data automatically, and described sign data can be sent to the cloud health control platform arranging remote health Surveillance center, in order to long-range doctor can real-time tracking and the health status managing wearer.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to make or equivalent function conversion; or directly or indirectly it is used in other relevant technical fields, all in like manner include in scope of patent protection of the present utility model.

Claims

1. the Health care garment for sign monitoring, it is characterized in that, described Health care garment includes garment body and the belt being arranged in garment body, breast bag, cuff and fringing, described belt includes belt body, belt buckle and girdle lock catch, inside described belt body, one draw-in groove with unique Spec. No. is set every identical predeterminable range, the electrode of a different resistance values it is provided with in each draw-in groove, electrode in each draw-in groove is by being embedded in the wire concatenation in belt body, it is provided with voltage-sensor inside described girdle lock catch, microcontroller and minicell is included in described belt buckle, described voltage-sensor is connected on described microcontroller, described minicell is the electrode power supply in each draw-in groove, it is provided with EGC sensor in described breast pocket, it is provided with pressure transducer in described cuff, described EGC sensor and pressure transducer are connected on described microcontroller each through the flexible wire in described fringing.

2. the Health care garment for sign monitoring as claimed in claim 1, it is characterised in that described belt buckle also includes a respiration pickup being connected on described microcontroller.

3. the Health care garment for sign monitoring as claimed in claim 2, it is characterised in that described belt buckle also includes a communication unit being connected on described microcontroller.

4. the Health care garment for sign monitoring as claimed in claim 3, it is characterised in that described belt buckle also includes a shift knob linked on described microcontroller, and this shift knob is arranged on the outside of described belt buckle.

5. the Health care garment for sign monitoring as claimed in claim 4, it is characterised in that described belt buckle also includes a charging port linked on described minicell, and this charging port is arranged on the outside of described belt buckle.

6. the Health care garment for sign monitoring as described in any one of claim 1 to 5, it is characterised in that described belt, breast pocket and cuff constitute conjoined structure each through described fringing, and all adopt Demountable to be arranged in described garment body.

7. the Health care garment for sign monitoring as claimed in claim 6, it is characterised in that described Demountable is a kind of snap-fastener, button or VELCRO.

8. the Health care garment for sign monitoring as claimed in claim 6, it is characterised in that described garment body, cuff, breast pocket and fringing all adopt the non-conductive yarn fabric with elasticity and flexibility to make.

9. the Health care garment for sign monitoring as claimed in claim 6, it is characterised in that described girdle lock catch is arranged on the junction of described belt body and belt buckle.

10. the Health care garment for sign monitoring as claimed in claim 6, it is characterized in that, described belt body adopts the insulant of inelastic soft leather or flexible plastic to make, and the shell of described belt buckle and girdle lock catch all adopts the insulant of hard leather or rigid plastics to make.