CN209932723U

CN209932723U - Human body parameter measuring clothes

Info

Publication number: CN209932723U
Application number: CN201821897115.5U
Authority: CN
Inventors: 张景淇
Original assignee: Mianjie Beijing Network Technology Co Ltd
Current assignee: Mianjie Beijing Network Technology Co Ltd
Priority date: 2018-11-16
Filing date: 2018-11-16
Publication date: 2020-01-14
Anticipated expiration: 2028-11-16

Abstract

The utility model discloses a human parameter measurement clothing, including the clothing body, first fibre electrode and second fibre electrode, wherein: the clothing body, the first fiber electrode and the second fiber electrode are integrally woven. The utility model provides a fibre electrode rhythm of heart clothing that an organic whole was made into, thereby let the sportsman collect stable real-time rhythm of the heart signal under the condition of unrestraint sense through fibrous, the fabric with electrode.

Description

Human body parameter measuring clothes

Technical Field

The utility model relates to a clothing is dressed to intelligence, and specific this measurement clothing that relates to a human parameter measurement clothing, especially should measure the fibre electrode rhythm of the heart clothing of making into an organic whole.

Background

With the improvement of the living standard of human beings, the attention of people to health is also increased, higher requirements are put forward on daily actions, sports and even sleeping states, and people are urgently required to know whether the personal sports method is beneficial to promoting the physical health. With the development of textile science and technology, textiles gradually develop towards functionalization and intellectualization. Especially, the intelligent electronic textile integrates the textile technology, the electronic technology, the computer technology and other multidisciplinary technologies, so that the textile has the function of sensing and reacting to the outside. To this end, various types of monitoring systems have been devised in the prior art in shoes, insoles, socks and clothing for monitoring various physiological parameters of the human body.

The most important components for detecting these physiological parameters are sensors and electrodes, and some products are already in the field of mobile heart rate monitoring, such as a heart rate belt and a bracelet or a watch for photoelectric heart rate monitoring. However, the carbon gel electrode used in the heart rate belt cannot be stretched and has poor ventilation effect, so that sporters feel bound. And the bracelet wrist-watch of heart rate is surveyed through the photoelectric volume method leads to unable output stable real-time heart rate in the motion process because the influence that easily receives external factor influence, for example sweat, hair, complexion, external light etc..

For solving above problem, the utility model provides an integrative human parameter measurement clothing (fibre electrode rhythm of the heart clothing) of weaving into, thereby let the sportsman collect stable real-time rhythm of the heart signal under the condition of unrestraint sense through fibrous, the fabric with the electrode.

SUMMERY OF THE UTILITY MODEL

In order to realize the purpose of the utility model, the following technical scheme is adopted to realize:

a body parameter measuring garment comprising a garment body, a first fibre electrode and a second fibre electrode, wherein: the clothing body, the first fiber electrode and the second fiber electrode are integrally woven.

The human parameter measurement clothing, wherein: the first fiber electrode and the second fiber electrode each include a conductive element and a non-conductive element, and the first fiber electrode and the second fiber electrode are each at least partially conductive on the inner surface side of the garment, and the entire first fiber electrode and the second fiber electrode are conductive, either non-conductive or partially conductive, on the outer surface side of the garment.

The human parameter measurement clothing, wherein: each conductive unit comprises a clothes inner side conductive unit and a clothes outer side conductive unit, the inner side conductive unit is exposed on the clothes inner side, and the outer side conductive unit is exposed on the clothes outer side; each non-conductive unit comprises a non-conductive unit at the inner side of the clothes and a non-conductive unit at the outer side of the clothes.

The human parameter measurement clothing, wherein: the position of the inner side of the clothes, which is opposite to the positions of the outer side conductive units of the first fiber electrode and the second fiber electrode, is covered with an inner side non-conductive unit, and the position of the outer side of the clothes, which is opposite to the positions of the inner side conductive units of the clothes, of the first fiber electrode and the second fiber electrode, is covered with an outer side non-conductive unit.

The human parameter measurement clothing, wherein: the inner side conductive unit and the outer side conductive unit of each fiber electrode are integrally woven; the inside non-conductive unit and the outside non-conductive unit of each fiber electrode are integrally woven.

The human parameter measurement clothing, wherein: on the inner side of the clothes, the inner side conductive unit of the first fiber electrode and the inner side conductive unit of the second fiber electrode are arranged in a reverse mode, the inner side non-conductive unit of the first fiber electrode and the inner side non-conductive unit of the second fiber electrode are arranged in a reverse mode, and a preset distance is reserved between the two inner side non-conductive units; on the outer side of the clothes, the outer side conductive unit of the first fiber electrode and the outer side conductive unit of the second fiber electrode are oppositely arranged, the outer side non-conductive unit of the first fiber electrode and the outer side non-conductive unit of the second fiber electrode are oppositely arranged, and a preset distance is reserved between the two outer side conductive units.

The human parameter measurement clothing, wherein: the conductive units are woven from conductive yarn and the non-conductive units are woven from non-conductive yarn.

The human parameter measurement clothing, wherein: each fiber electrode comprises a signal leading-out unit, is connected with the conductive unit of the fiber electrode and is used for being detachably connected with the heart rate detection module.

The human parameter measurement clothing, wherein: the leading-out unit penetrates through the inner non-conductive unit at the inner side of the clothes and then penetrates out of the outer conductive unit.

The human parameter measurement clothing, wherein: wherein the first fiber electrode and the second fiber electrode are respectively positioned at the left side and the right side of the upper part of the clothes body and are separated by a preset distance.

Drawings

FIG. 1 is a schematic view of the overall structure of a human body parameter measurement garment;

FIG. 2 is a schematic view of the inside structure of a human body parameter measurement garment;

FIG. 3 is a schematic view of the outer side of a garment for measuring parameters of a human body;

fig. 4 is a cross-sectional view of a fiber electrode.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1-4, the body parameter measurement garment is integrally woven by a seamless weaving machine and comprises a garment body 1, a first fiber electrode 2 and a second fiber electrode 3. The clothing body 1, the first fiber electrode 2 and the second fiber electrode 3 are integrally woven.

Wherein first fibre electrode 2 and second fibre electrode 3 are located clothing body 1 upper portion left and right both sides respectively, and preferred two fibre electrodes's shape, size are the same, set up the same height on the clothing body, and the interval predetermined distance between the two designs not equidimension clothing body according to different sexes, height, size etc. for two fibre electrodes are in left and right both sides under the human rib of the personnel of wearing this heart rate clothing basically.

Because the measuring electrode position of heart rate need arrange the position on rib both sides below the pectoral muscle thereby avoid the muscle signal of telecommunication to cause the influence to the heart rate signal, keep certain mutual isolation distance between the electrically conductive part of both sides fibre electrode in the clothing inboard in addition simultaneously, consequently the utility model discloses the embodiment that fig. 1-4 show in the embodiment first fibre electrode 2 and second fibre electrode 3 all include electrically conductive unit and non-conductive unit. Specifically, the method comprises the following steps: the conductive elements of the first fiber electrode 2 and the second fiber electrode 3 each include a back conductive element 4 and an outer conductive element 4 ', the back conductive element 4 being exposed on the back side of the garment (i.e., the side closer to the skin of the human body), and the outer conductive element 4' being exposed on the outer side of the garment (i.e., the side farther from the skin of the human body). The inner side conductive unit 4 and the outer side conductive unit 4' of each fiber electrode are integrally woven; the inner non-conductive unit 5 and the outer non-conductive unit 5' of each fiber electrode are integrally woven. The non-conductive elements of both the first fibre electrode 2 and the second fibre electrode 3 comprise an inner non-conductive element 5 and an outer non-conductive element 5'. The inside of the garment facing the outside conductive elements 4 'of the first and

second fiber electrodes

2, 3 is covered with an inside nonconductive element 5, and the outside of the garment facing the inside conductive elements 4 of the first and

second fiber electrodes

2, 3 is covered with an outside nonconductive element 5'. On the inner side of the clothes, the inner side conductive unit 4 of the first fiber electrode 2 and the inner side conductive unit 4 of the second fiber electrode 3 are oppositely arranged (namely, are arranged far away from each other), correspondingly, the inner side non-conductive units 5 of the first fiber electrode and the second fiber electrode are oppositely arranged (namely, are arranged close to each other), and a preset distance is reserved between the two inner side non-conductive units; correspondingly, on the outer side of the clothes, the outer conductive unit 4 'of the first fiber electrode 2 and the outer conductive unit 4' of the second fiber electrode 3 are oppositely arranged (i.e. arranged close to each other), and correspondingly, the outer non-conductive units 5 'of the first fiber electrode and the second fiber electrode are oppositely arranged (i.e. arranged far away from each other), and a preset distance is reserved between the two outer conductive units 5'.

Preferably, the first fiber electrode 2 and the second fiber electrode 3 are in the shape of a strip, and may also be in the shape of a square, a circle, or other geometric shapes.

Preferably, each fiber electrode may include two kinds of fiber yarns, that is, a conductive yarn and a non-conductive yarn, each fiber electrode is woven by the two kinds of yarns, the conductive yarn may be a face yarn composed of nylon and high-elastic spandex, and the non-conductive yarn may be a silver-plated elastic metal DTY yarn.

Each fiber electrode is made of a single-sided jacquard technology, so that one part of the conductive unit of the fiber electrode is in contact with the skin, and the other part of the conductive unit of the fiber electrode is isolated from the skin, namely, the inner side conductive unit 4 and the outer side conductive unit 4' are formed. Through a single-side jacquard process, on one side contacting with the skin, the floating lines of the chinlon and high-elastic spandex surface yarns are fluffy at the position of the non-conducting unit on the inner side, so that the tightened conducting yarn part is covered, and the skin is isolated from the conducting yarns at the position; on the side contacting with the skin, at the position of the conductive unit on the inner side, the floating threads of the conductive yarns are fluffy so as to cover the part of the high-elastic surface yarns, so that the conductive yarns at the position of the conductive unit on the inner side are fully contacted with the skin.

Each fiber electrode comprises a signal leading-out unit 6, is connected with the conductive unit of the electrode and is detachably connected with a heart rate detection module (not shown in the figure), and is used for transmitting electrocardiosignals detected by the inner side conductive units 4 of the

fiber electrodes

2 and 3 into the heart rate module for processing, calculation and transmission, so that the purposes that the heart rate detection module can be detached and clothes can be washed by water are achieved. Lead out unit 6 and can be traditional snap-on or snap-fastener or button, can be box or pin thread, make by the metal, use the pin thread as the example, this pin thread passes behind the inboard non-conductive unit 5 of inboard in the clothing inboard and wears out from outside electrically conductive unit 4 ', thereby be connected with outside electrically conductive unit 4' electricity, wear out the back, this pin thread can with the corresponding box 7 lock of rhythm of the heart module, consequently can transmit the electrocardiosignal that the inboard electrically conductive unit gathered for the detection circuitry of rhythm of the heart detection module through box 7 on pin thread 6 and the rhythm of the heart detection module and handle. Heart rate detection module carries out the transmission of rhythm of the heart data through wireless transmission modes such as bluetooth, and wireless devices such as user's accessible cell-phone receive the bluetooth signal to can know the rhythm of the heart condition of oneself. The case where the drawing unit 6 is a box is similar to the above.

Since the leading-out unit 6 (male buckle or female buckle) is made of conductive metal, the accuracy of the electrocardiosignal is affected by contacting the skin on the inner side of the clothes, so that the bottom of the female buckle or male buckle needs to be sealed to be isolated from the skin, but the bottom of the female buckle or male buckle can be covered by silica gel, cloth and other materials in the sealing process in consideration of the comfort problem.

The preferred embodiment of the present invention has been described above, and it can be further changed to reduce the weaving difficulty of the fiber electrode, that is, in addition to the structures of the first fiber electrode 2 and the second fiber electrode 3 shown in the preferred embodiment, the first fiber electrode 2 and the second fiber electrode 3 have at least a part of electrical conductivity on the inner side of the clothes, and the whole fiber electrode is electrically conductive on the outer side of the clothes, and is not electrically conductive or partially electrically conductive.

The advantage of using the above preferred embodiment is that the first fiber electrode 1 and the second fiber electrode 2 ensure the distance between the skin contact collection sites when collecting the biological signals, and simultaneously transmit the electrical signals of the first fiber electrode 1 and the second fiber electrode 2 to the lead-out unit through the front conductive part, and simultaneously reduce the distance between the lead-out units, thereby reducing the volume of the transmission hardware and enabling the user to have better experience.

The utility model discloses except having the advantage that reduces the constraint and feel and be more ventilative for traditional rhythm of the heart area, additional advantage lies in: when the sportsman dresses traditional rhythm of heart area and wears light colour or thin sportswear slightly, because the rhythm of heart area is dressed next to the shin in clothes the inside, the image of seeing sportsman's rhythm of heart area behind one's back can be confused mutually with the image of ms's underwear and brings the puzzlement for male sex user, and the utility model discloses this defect of overcoming that can be fine, traditional rhythm of heart area and module are because inboard at the clothes in addition, so the user can only receive heart rate information through cell-phone or computer screen channel the utility model discloses can say that rhythm of heart electrode and sportswear are made up, the rhythm of heart module can be installed in the clothes outside, and the user can be low head and know the condition of own real-time rhythm.

Claims

1. The utility model provides a human parameter measurement clothing, includes clothing body, first fibre electrode and second fibre electrode, its characterized in that: the clothing body, the first fiber electrode and the second fiber electrode are integrally woven.

2. The body parameter measurement garment of claim 1, wherein: the first fiber electrode and the second fiber electrode each include a conductive element and a non-conductive element, and the first fiber electrode and the second fiber electrode are each at least partially conductive on the inner surface side of the garment, and the entire first fiber electrode and the second fiber electrode are conductive, either non-conductive or partially conductive, on the outer surface side of the garment.

3. The body parameter measurement garment of claim 2, wherein: each conductive unit comprises a clothes inner side conductive unit and a clothes outer side conductive unit, the clothes inner side conductive unit is exposed on the clothes inner side, and the clothes outer side conductive unit is exposed on the clothes outer side; each non-conductive unit comprises a non-conductive unit at the inner side of the clothes and a non-conductive unit at the outer side of the clothes.

4. The body parameter measurement garment of claim 3, wherein: the position of the inner side of the clothes, which is opposite to the positions of the outer side conductive units of the first fiber electrode and the second fiber electrode, is covered with an inner side non-conductive unit, and the position of the outer side of the clothes, which is opposite to the positions of the inner side conductive units of the clothes, of the first fiber electrode and the second fiber electrode, is covered with an outer side non-conductive unit.

5. The body parameter measurement garment of claim 3, wherein: the inner side conductive unit and the outer side conductive unit of each fiber electrode are integrally woven; the inside non-conductive unit and the outside non-conductive unit of each fiber electrode are integrally woven.

6. The body parameter measurement garment of claim 3, wherein: on the inner side of the clothes, the inner side conductive unit of the first fiber electrode and the inner side conductive unit of the second fiber electrode are arranged in a reverse mode, the inner side non-conductive unit of the first fiber electrode and the inner side non-conductive unit of the second fiber electrode are arranged in a reverse mode, and a preset distance is reserved between the two inner side non-conductive units; on the outer side of the clothes, the outer side conductive unit of the first fiber electrode and the outer side conductive unit of the second fiber electrode are oppositely arranged, the outer side non-conductive unit of the first fiber electrode and the outer side non-conductive unit of the second fiber electrode are oppositely arranged, and a preset distance is reserved between the two outer side conductive units.

7. The body parameter measurement garment of claim 3, wherein: the conductive units are woven from conductive yarn and the non-conductive units are woven from non-conductive yarn.

8. The body parameter measurement garment of claim 3, wherein: each fiber electrode comprises a signal leading-out unit, is connected with the conductive unit of the fiber electrode and is used for being detachably connected with the heart rate detection module.

9. The body parameter measurement garment of claim 4, wherein: each fiber electrode comprises a signal leading-out unit, is connected with the conductive unit of the fiber electrode and is used for being detachably connected with the heart rate detection module.

10. The body parameter measurement garment of claim 8, wherein: the signal leading-out unit penetrates through the inner side non-conductive unit at the inner side of the clothes and then penetrates out of the outer side conductive unit.

11. The body parameter measurement garment of claim 9, wherein: the signal leading-out unit penetrates through the inner side non-conductive unit at the inner side of the clothes and then penetrates out of the outer side conductive unit.

12. The body parameter measuring garment according to any one of claims 1-11, wherein: wherein the first fiber electrode and the second fiber electrode are respectively positioned at the left side and the right side of the upper part of the clothes body and are separated by a preset distance.