CN211355457U - Electrocardio monitoring clothing - Google Patents

Abstract

The application discloses electrocardio monitoring clothing belongs to medical technical field. Electrocardio monitoring clothing includes clothes body and a plurality of electrode of leading, wherein: the lead electrodes are all arranged on the clothes body, and each lead electrode is matched with the corresponding human body lead position. By adopting the electrocardio monitoring garment, a professional doctor is not required to operate, so that a user does not need to go to a hospital to measure, the electrocardio measurement is not limited by occasions, and further, the electrocardio monitoring garment is wide in application occasions and high in flexibility.

Description

Electrocardio monitoring clothing

Technical Field

The application relates to the technical field of medical treatment, in particular to an electrocardio monitoring clothes.

Background

The electrocardiographic monitoring is the most basic examination means for diagnosing cardiovascular diseases, carries out real-time electrocardiographic monitoring on users to find the abnormal change of electrocardiography in time, and has important significance for preventing and treating the cardiovascular diseases.

In the related art, users usually use an electrocardiograph to perform electrocardiographic measurement, for example, when the users intend to perform electrocardiographic measurement, they need to go to a hospital, and a professional medical staff operates the electrocardiograph to perform measurement. The specific measurement process can be that a user can lie on a hospital bed, and medical personnel paste each lead electrode of the electrocardio monitor at the human body lead position of the user in a one-to-one correspondence manner.

In the course of implementing the present application, the inventors found that the related art has at least the following problems:

when the electrocardio monitor is used, professional medical personnel need to operate the electrocardio monitor, so that the electrocardio monitor has large use limitation and poor flexibility.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an electrocardio monitoring clothing, electrocardio monitoring clothing includes clothes body and a plurality of electrode that leads, wherein:

the lead electrodes are all arranged on the clothes body, and each lead electrode is matched with the corresponding human body lead position.

Optionally, a positioning hole is arranged at a position on the garment body corresponding to the human body lead position, and the positioning hole is matched with the corresponding lead electrode.

Optionally, the electrocardiograph monitoring garment further comprises a plurality of lead wires;

the plurality of lead wires are arranged on the clothes body, and each lead electrode is electrically connected with at least one lead wire;

all the lead wires are converged, are far away from the end parts of the corresponding lead electrodes and are contained in the plug.

Optionally, the plug comprises a waterproof cap and a conductor, and when the electrocardiogram monitoring garment is not in use, the conductor is located in the waterproof cap.

Optionally, the electrocardiogram monitoring suit further comprises a lead wire fixing body, the lead wire fixing body is mounted on the suit body, and the plurality of lead wires are mounted in the lead wire fixing body;

the lead electrode connected with the lead wire is arranged on the clothes body through the lead wire fixing body.

Optionally, the lead wire fixing body comprises a main rod body and branch rod bodies, and each branch rod body is connected with the main rod body;

at least one lead wire is arranged in each branch rod body, all the lead wires are converged in the main rod body, and the plug accommodated by the converged lead wires extends out of the main rod body.

Optionally, the clothes body is provided with a storage bag for placing the data acquisition unit.

Optionally, the garment body comprises an inner lining and an outer layer;

the outer layer is matched with the inner liner and is arranged on the inner liner;

a plurality of lead electrodes are mounted on the inner liner and between the inner liner and the outer layer.

Optionally, the outer layer comprises a first portion and a second portion;

the first part is arranged on a first side of the lining, the second part is arranged on a second side of the lining, the first part and the second part are detachably connected, and the first side and the second side of the lining are opposite.

Optionally, the electrocardiograph monitoring garment is elastic and flexible.

Optionally, the lead wire fixing body is detachably mounted on the garment body.

Optionally, the lead system of the electrocardiograph monitoring garment is one or more of 12 leads, 3 leads, 5-12 leads and 18 leads.

Optionally, the electrocardiograph monitoring garment is biocompatible.

The technical scheme provided by the embodiment of the application has the following beneficial effects:

in an embodiment of the present application, the electrocardiograph monitoring garment comprises a garment body and a plurality of lead electrodes, wherein: the lead electrodes are all arranged on the clothes body, and each lead electrode is matched with the corresponding human body lead position. When a user needs to measure the heart rhythm, the user can wear the electrocardio monitoring clothes, and because the positions of the lead electrodes on the clothes body are matched with the human body lead positions, the lead electrodes on the electrocardio monitoring clothes can be in contact with the human body lead positions of the user after the user wears the electrocardio monitoring clothes. Therefore, when the user uses the electrocardio monitoring clothes to measure the heart rhythm of the user, a professional doctor does not need to paste the lead electrodes on the body of the user in a one-to-one correspondence mode, so that the user does not need to go to a hospital to measure, the electrocardio measurement is not limited by occasions, and further the electrocardio monitoring clothes are wide in application occasions and high in flexibility.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an electrocardiograph monitoring garment according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of an electrocardiograph monitoring garment according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of an electrocardiograph monitoring garment according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a plug of an electrocardiograph monitoring garment according to an embodiment of the present application;

FIG. 5 is a schematic structural diagram of an electrocardiograph monitoring garment according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of an electrocardiograph monitoring garment according to an embodiment of the present application.

Description of the figures

1.Garment body 2, lead electrode

3.Lead wire 4, lead wire fixing body

5.Plug 11, locating hole

12.Storage bag 13 and inner liner

14.Outer layer 41, main shaft body

42.Branch rod body 51 and waterproof cap

52. Electrical conductor

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

The embodiment of the disclosure provides an electrocardiogram monitoring garment, which can also be called as an electrocardiogram garment, and can be used in cooperation with an electrocardiogram monitor for collecting electrocardiogram data, wherein the electrocardiogram monitor can be a desk-top instrument or a portable device, and lead electrodes on the electrocardiogram monitoring garment and the electrocardiogram monitoring garment can be connected through lead wires. The user can wear the electrocardio monitoring clothes at ordinary times, the electrocardio monitoring clothes are in contact with the body surface of a human body, the electrocardio monitor can collect electrocardio data of the user and send the measured electrocardio data to the medical platform, and medical personnel can obtain the electrocardiogram of each user from the medical platform. Or the electrocardiogram monitor can send the measured electrocardiogram data to the associated user terminal, and the user can check the own electrocardiogram through the electrocardiogram application program installed on the terminal.

As shown in fig. 1, the electrocardiographic monitoring garment may include agarment body 1 and a plurality oflead electrodes 2, wherein: a plurality oflead electrodes 2 are all arranged on theclothes body 1, and eachlead electrode 2 is matched with the corresponding human body lead position.

Thelead electrode 2 may also be called an electrocardiograph electrode, and is a metal conductor for obtaining bioelectricity on the surface layer of the human body.

In practice, thelead electrode 2 may be detachably mounted on thegarment body 1 to facilitate the user to replace thelead electrode 2. Thelead electrode 2 can also be a disposable electrode plate, and thelead electrode 2 can be arranged on theclothes body 1 every time the user uses the electrode plate.

Thegarment body 1 may also be called a lead wire fixing garment, and is mainly used for fixing and carryinglead electrodes 2 and fixing lead wires to be described below.

In practice, the electrocardiograph monitoring garment may be worn on a user, for example, the electrocardiograph monitoring garment may be a pullover T-shirt as shown in fig. 1 in appearance, and the electrocardiograph monitoring garment may also have an apron-shaped structure. The specific shape and structure of the electrocardiograph monitoring garment are not limited in this embodiment, and the electrocardiograph monitoring garment can be used for carrying a plurality of lead electrodes, the embodiment can be exemplified by a pullover T-shirt shown in fig. 1, and electrocardiograph monitoring garments in other shapes are similar to the electrocardiograph monitoring garment.

For convenience of introduction, the terms inside, outside, above and below are introduced herein, wherein the surface of the electrocardiograph monitoring garment, which is in direct contact with a user after the user wears the electrocardiograph monitoring garment, is referred to as an inner surface, and the surface opposite to the inner surface is referred to as an outer surface. The sleeve head position of the electrocardio monitoring clothes is taken as the upper part and the top part, the position opposite to the upper part is taken as the lower part, and the position opposite to the top part is taken as the bottom part.

In implementation, for the convenience of wearing, the size of the electrocardiograph monitoring clothes is adapted to the size of the human body, for example, the electrocardiograph monitoring clothes can be divided into two sizes according to different sizes of men and women, wherein men correspond to one size of uniform size, and women correspond to one size of uniform size. For another example, the size of the electrocardiograph monitoring garment is matched with the size of a human body, and specifically, the size of the electrocardiograph monitoring garment can be divided according to the height and weight of people, and the electrocardiograph monitoring garment can comprise various sizes so as to adapt to users with different body types. For example, the electrocardiograph monitoring garment can be divided into S, M, L, XL, XXL and XXXL according to the height and weight of a male, and can be divided into S, M, L, XL, XXL and XXXL according to the height and weight of a female.

The position arrangement of each lead electrode on the electrocardio monitoring clothes can be adjusted according to different men and women so as to improve the accuracy of the measurement result. Hereinafter, the electrocardiogram monitoring clothes with any size can be exemplified, and the electrocardiogram monitoring clothes with other sizes are similar to the electrocardiogram monitoring clothes, so that the details are not repeated.

As shown in fig. 1, a plurality oflead electrodes 2 are arranged on an outer surface of agarment body 1, wherein the positions and the number of thelead electrodes 2 may be determined according to a lead system to which the electrocardiograph monitoring garment belongs, wherein the lead system of the electrocardiograph monitoring garment may be one or more of 12 leads, 3 leads, 5 leads to 12 leads, and 18 leads. The lead system of the electrocardiograph monitoring garment can be 12 leads, or a combination of any two or any more of the above. For convenience of description, the present embodiment can be arranged according to the international universal lead system (i.e. the conventional 12-lead system) which is widely used at present. The position of eachlead electrode 2 is matched with the human body lead position of the user corresponding to the electrocardiogram monitoring clothes with the size, for example, as shown in fig. 1, thelead electrode 2 placed at the position A of theclothes body 1 corresponds to the V1 lead of the chest lead, thelead electrode 2 placed at the position B of theclothes body 1 corresponds to the V2 lead of the chest lead, and the correspondence of other positions and the human body lead positions is not listed. Furthermore, onelead electrode 2 is respectively arranged on the outer surface of theclothes body 1 corresponding to each human body lead position.

Thelead electrode 2 may be attached to thegarment body 1 in various ways, for example, thelead electrode 2 may be attached to thegarment body 1 by a pin. Or, thelead electrode 2 is provided with a mounting hole, and thelead electrode 2 is sewed on theclothes body 1 through the mounting hole. Alternatively, thelead electrode 2 is mounted on thegarment body 1 by snap fasteners. Alternatively, a lead wire electrically connected to thelead electrode 2 is fixed to thegarment body 1, and thelead electrode 2 is mounted to thegarment body 1 through the lead wire, in a manner to be described in detail later.

Therefore, when a user wears the electrocardio monitoring clothes, the positions of thelead electrodes 2 are corresponding to the corresponding human body lead positions, so that after the user wears the electrocardio monitoring clothes, thelead electrodes 2 can be attached to the corresponding human body lead positions. Therefore, in the process of measuring the electrocardio data of the user by using the electrocardio monitoring clothes, the cooperation of medical personnel is not needed, the user can measure the electrocardio condition of the user at home and in places such as working units, the electrocardio measurement is not limited by the places, and therefore, the electrocardio monitoring clothes have wide application occasions. And the electrocardio monitoring clothes are simple to operate, so that the electrocardio monitoring clothes have high practicability and flexibility.

In addition, a doctor can also acquire the electrocardio data of the user in time, know the heart rhythm condition of the user in time and set the optimal treatment opportunity for the user.

In a possible application, although the size of the electrocardiograph monitoring clothes can be divided into a plurality of sizes according to the height and the weight of people, because the size of each user can be different, in order to adapt to as many users as possible, the electrocardiograph monitoring clothes are elastic, in order to enable the user to feel more comfortable after wearing the electrocardiograph monitoring clothes, and correspondingly, the electrocardiograph monitoring clothes have certain flexibility. For example, the electrocardiograph monitoring garment may be made of a material that is resilient and flexible.

In implementation, in order to enable the electrocardiograph monitoring garment to be attached to a user, so that thelead electrode 2 can be attached to a lead position of a human body, the electrocardiograph monitoring garment can be made of a high-elasticity fabric, for example, the fabric component of the electrocardiograph monitoring garment can contain one or more of dupont lycra, chinlon, terylene and the like.

In implementation, in order to improve the accuracy of the electrocardiograph measurement result, the electrocardiograph monitoring clothes is directly attached to the human body, that is, the electrocardiograph monitoring clothes directly contacts with the skin of a user, or the user can wear a thin shirt. Since the electrocardiogram monitoring clothes are directly contacted with the user, the material of the electrocardiogram monitoring clothes has biocompatibility so as to avoid the phenomenon of overstimulation after the user wears the electrocardiogram monitoring clothes, such as allergy after the user wears the electrocardiogram monitoring clothes. Therefore, after the user wears the electrocardio monitoring clothes, no overstimulation reaction is generated, and no harm is caused to the human body.

The material of the electrocardio monitoring coat has biocompatibility, namely, the electrocardio monitoring coat has the cytotoxicity, and the reaction of the electrocardio monitoring coat on a test product is graded as 1 grade through test and shows slight cytotoxicity. On skin sensitization, the test article showed no skin sensitization response as tested by the test. The irritation index for the test article was 0 on skin irritation by the test. Therefore, the electrocardio monitoring clothes basically do not affect the health of the user.

In implementation, thelead electrode 2 is used for contacting with a user to form an electrical path between the instrument and the surface layer of the human body, and therefore, in order to acquire the electrocardiographic data of the user, thelead electrode 2 needs to be connected with a data acquisition unit for acquiring the data. The data collector may be the above-mentioned electrocardiograph monitor capable of collecting and outputting electrocardiographic data, or may be a sensor only used for collecting data, and then may send the collected data to an instrument (such as an electrocardiograph monitor) used for outputting electrocardiographic data. In the present embodiment, there is no limitation on what instrument thelead electrode 2 is specifically connected to, and it is sufficient to collect electrocardiographic data.

In a possible application, the electrocardiograph may be a desktop instrument, and may not be mounted on thegarment body 1, for example, the electrocardiograph may be placed on a desktop. When a user needs to measure, the user wears the electrocardio monitoring clothes around the electrocardio monitor, leads led out from the electrocardio monitor are connected to thecorresponding lead electrodes 2 for measurement, and the instrument is slightly larger in size and may need to be used at home or in fixed occasions such as work units.

In order to facilitate the measurement of the user, for example, the electrocardiograph may be a portable data acquisition device, and the user can carry the electrocardiograph with him or her, for example, the electrocardiograph may be put in a pocket of clothes, and when the user intends to measure the heart rhythm, the lead wires led out from the data acquisition device may be connected to therespective lead electrodes 2 to perform the measurement.

By the above, when the user uses the electrocardio monitoring clothes to measure the heart rate, no professional medical personnel are needed to operate, so that the place where the user measures the heart rate is not limited to a hospital, and the user can measure the heart rate at any place such as home and work units. Even the user can carry with oneself and be used for measuring the instrument of heart rate, this electrocardio monitoring clothing can carry out electrocardio monitoring to the user periodically, perhaps finds that the user appears the abnormal condition, carries out electrocardio monitoring to the user. Therefore, the electrocardio monitoring clothes are simple to operate, wide in use occasions, high in practicability and flexibility.

In one possible application, the electrocardiograph may further output an electrocardiogram for viewing by a user, for example, the electrocardiograph has a display screen for displaying the electrocardiogram. The instrument can also upload the electrocardiogram data to a medical platform, so that medical personnel can acquire the electrocardiogram of each user from the medical platform, and the user can acquire the electrocardiogram from the medical platform through an electrocardiogram application program installed on a mobile phone. Or the instrument can be connected with the mobile phone of the user through Bluetooth, and the collected data can be sent to the mobile phone of the user.

In a possible application, the data collector for collecting the electrocardiographic data may be a portable electronic device, and a user may carry the portable electronic device, and in order to carry the portable electronic device, correspondingly, as shown in fig. 2, astorage bag 12 for placing the data collector may be disposed on thegarment body 1.

In implementation, astorage pocket 12 may be disposed on an outer surface of thegarment body 1, and a storage space is formed between thestorage pocket 12 and thegarment body 1 for storing a data collector. When the user needs to measure each time, the data acquisition unit can be taken out from the containingbag 12, and the data acquisition unit is held by hands to measure. Or, in order to further facilitate the measurement of the user, correspondingly, thestorage bag 12 may further be provided with a wire port for passing a lead wire connected between thelead electrode 2 and the data collector, so that the user does not need to take out the data collector during the measurement, and the data collector is located in thestorage bag 12 for measurement.

In one possible application, in order to avoid the data collector placed in the receivingbag 12 from affecting the normal work and operation of the user, since most people use the right hand more often, accordingly, as shown in fig. 2, the receivingbag 12 may be located at a position close to the lower end of theclothing body 1 and corresponding to the left position of the human body. For example, as shown in fig. 2, thestorage bag 12 may be located at the lower left corner of the electrocardiograph monitoring garment, so that the normal living habits of the user are not affected even when the user wears the electrocardiograph monitoring garment.

In a possible application, the lead wires for electrically connecting thelead electrodes 2 with the instrument may be mounted on thegarment body 1 or may not be mounted on thegarment body 1. For example, the lead wire is not mounted on thegarment body 1, and eachlead electrode 1 is provided with a wire insertion hole, so that when a user needs to measure the heart rhythm, the lead wire led from the instrument can be inserted into the wire insertion hole of thelead electrode 1, and thelead electrode 2 is electrically connected with the electrocardiograph.

Thelead electrode 2 can be a disposable electrode piece and can be mounted on thelead wire 3 through a snap fastener, so that a user can replace thelead electrode 2 conveniently.

For another example, the lead wires may be mounted on thegarment body 1, and the electrocardiograph monitoring garment further includes a plurality oflead wires 3, as shown in fig. 3, thelead electrodes 2 are electrically connected to thelead wires 3, for example, eachlead electrode 2 is electrically connected to at least onelead wire 3, and an end of eachlead wire 3 away from thelead electrode 2 is used for electrically connecting to the above-mentioned apparatus.

In one possible application, since the number of thelead electrodes 2 is plural, and the number of thelead wires 3 is plural, in order to arrange the lead wires and also to facilitate the operation of the user, correspondingly, as shown in fig. 3, all thelead wires 3 are converged, and the end portions of all thelead wires 3 far away from thelead electrodes 2 are accommodated in theplug 5.

Theplug 5 is used to electrically connect with the above-mentioned instrument, for example, theplug 5 is adapted to a jack on the instrument, theplug 5 is connected with the jack of the instrument, and further, the electrical connection between eachlead electrode 2 and the instrument is realized.

Like this, eachlead 3 and be more regular onclothes body 1, when the user dresses,lead 3 and also can not tear and damage because of the user. In addition, the user only needs to insert the electric conductor of theplug 5 into the jack of the instrument to realize the electric connection between eachlead electrode 2 and the instrument, and the user does not need to connect eachlead electrode 2 and the instrument one by one through a lead wire, thereby facilitating the operation of the user and bringing convenience to the heart rhythm measuring work of the user.

Alternatively, when the electric conductor of theplug 5 is not inserted into the jack, in order to prevent theplug 5 from being filled with water to affect the measurement, correspondingly, as shown in fig. 4 and with reference to fig. 3, theplug 5 may include awaterproof cap 51 and anelectric conductor 52, and when the electrocardiograph monitoring garment is in an unused state, theelectric conductor 52 is located in thewaterproof cap 51 and plays a role in protecting theelectric conductor 52.

Thewaterproof cap 51 may be made of a plastic material, and has insulating and corrosion-proof effects.

Thus, when a user needs to measure, theconductor 52 of theplug 5 can be inserted into the jack of the instrument, and when the plug is not in use, after theconductor 52 of theplug 5 is pulled out of the jack, as shown in fig. 3, thewaterproof cap 51 can be covered in theconductor 52 of theplug 5 to protect theconductor 52 of theplug 5 and prevent water and dust from entering.

In a possible application, in the case where thelead wire 3 is provided on thegarment body 1, thelead wire 3 may be sewn to thegarment body 1, or may be detachably mounted to thegarment body 1, or the like. Thelead wire 3 is installed on thegarment body 1, and accordingly, thelead electrodes 2 connected with thelead wire 3 can be installed on thegarment body 1 through thelead wire 3.

In a possible application, the lead wire is exposed outside, on one hand, the lead wire is easy to damage and cause circuit break, on the other hand, certain danger is caused to a user, and the like, accordingly, as shown in fig. 5, the electrocardiogram monitoring clothes further comprises a leadwire fixing body 4, and the leadwire fixing body 4 is installed on theclothes body 1; thelead wire 3 is arranged in the leadwire fixing body 4; thelead electrode 2 connected with thelead wire 3 is installed on theclothes body 1 through the leadwire fixing body 4.

Wherein the leadwire fixing body 4 is used to hide and fix thelead wire 3, for example, between thelead electrode 2 and thestorage pocket 12 on thegarment body 1.

As described above, all thelead wires 3 are gathered, and in order to adapt to the layout of the lead wires, correspondingly, as shown in fig. 5, the leadwire fixing body 4 may have a tree-shaped structure, including amain rod body 41 and a plurality ofbranch rod bodies 42, eachbranch rod body 42 is connected to themain rod body 41, at least one lead wire is placed in eachbranch rod body 42, the portion where all the lead wires are gathered is received in themain rod body 41, and theplug 5 formed by gathering all the lead wires is extended out of themain rod body 41. For example, as shown in fig. 5, the first end of themain rod 41 may be located at a position corresponding to the position of the receivingbag 12, and eachbranch rod 42 is connected to the second end of themain rod 41 and extends to the position of the correspondinglead electrode 2.

In an implementation, the shape of themain rod 41 may be a vertical line, one end of the verticalmain rod 41 is close to thestorage bag 12, and the other end is divided into a plurality ofrods 42, and the plurality ofrods 42 respectively extend to thelead electrodes 2. As shown in fig. 5, themain rod body 41 may also be L-shaped, the L-shapedmain rod body 41 may be divided into two parts, i.e., a horizontal part and a vertical part, the horizontal part of themain rod body 41 corresponds to the position of thestorage bag 12, and the vertical part of themain rod body 41 extends out of the plurality ofbranch rod bodies 42.

Wherein, wire even 4 is located lead line fixedbody 4, plays arrangement and regular effect to the lead line, and the user can avoid dragging the lead line when wearing this electrocardio monitoring clothing, plays the guard action to the lead line.

In one possible application, the leadwire fixing body 4 may be sewn on the outer surface of thegarment body 1 so that the lead wire and thelead electrode 2 can be secured to thegarment body 1.

In a possible application, in order to facilitate the cleaning work of the electrocardiogram monitoring clothes, correspondingly, the leadwire fixing body 4 can be detachably arranged on theclothes body 1. For example, the leadwire fixing body 4 may be attached to thegarment body 1 by a zipper, and for example, the leadwire fixing body 4 may be bonded to thegarment body 1 by felt. Therefore, when a user needs to clean the electrocardiogram monitoring clothes, the leadwire fixing body 4 on the electrocardiogram monitoring clothes can be detached, then the electrocardiogram monitoring clothes are cleaned, and after the cleaning is finished, the leadwire fixing body 4 is installed on theclothes body 1.

As described above, thelead electrode 2 is connected to the end of the lead wire fixed in the leadwire fixing body 4, and thus the leadwire fixing body 4 is installed on thegarment body 1, and thus thelead electrode 2 can be fixedly installed on thegarment body 1 through the leadwire fixing body 4.

Therefore, after the user wears the electrocardio monitoring coat, the electrode end of thelead electrode 2 can be attached to the body of the user, and the position where thelead electrode 2 is attached corresponds to the lead position of the human body. When the user uses the electrocardio monitoring clothes to measure the electrocardio condition, professional medical personnel are not needed to operate, and great convenience is provided for the user.

In a possible application, in order to improve the accuracy of acquiring the electrocardiograph data by the electrocardiograph monitoring garment, correspondingly, as shown in fig. 5, apositioning hole 11 is arranged on thegarment body 1 at a position corresponding to the human body lead position.

Thepositioning hole 11 is used for limiting the position of thelead electrode 2, thelead electrode 2 needs to be positioned in thepositioning hole 11 and can be corresponding to the lead position of the human body, and the measurement result is accurate. The alignment holes 11 are adapted to thelead electrodes 2, i.e. they are adapted in shape and in size. Specifically, the size of thepositioning hole 11 is larger than or equal to the size of thelead electrode 2, so that eachlead electrode 2 can be completely placed in thecorresponding positioning hole 11.

The shape of thepositioning hole 11 may be adapted to the shape of thelead electrode 2, for example, the shape of thelead electrode 2 may be circular, the shape of thepositioning hole 11 may be circular, or the shape of thepositioning hole 11 may be rectangular.

In practice,lead electrode 2 may or may not be fixed inpositioning hole 11. For example, wherelead electrodes 2 are not secured inalignment apertures 11, eachlead electrode 2 may be located adjacent to acorresponding alignment aperture 11, e.g., eachlead electrode 2 may be laid down around acorresponding alignment aperture 11. After a user wears the electrocardiogram monitoring clothes, eachlead electrode 2 can be manually pasted in thecorresponding positioning hole 11, and because eachpositioning hole 11 corresponds to the corresponding human body lead position, the pasting position of thelead electrode 2 also corresponds to the human body lead position. Therefore, when the user measures the heart rhythm, the user can paste thelead electrodes 2 in the corresponding positioning holes 11 without finding the positions of the user, so that the operation error can be avoided, the operation is simple, and thelead electrodes 2 are not required to be pasted on the body of the user one by professional medical personnel. Furthermore, when the user measures the heart rhythm each time, the user does not need to go to a hospital, the measurement can be carried out in any place, the application occasions of the electrocardio monitoring clothes are wider, and the use flexibility is high.

For another example, in the case where thelead electrode 2 is fixed in thepositioning hole 11, the electrode end of thelead electrode 2 may be used to contact the human body. After a user wears the electrocardiogram monitoring clothes, thelead electrodes 2 are fixed in the positioning holes 11, so that thelead electrodes 2 can be directly attached to corresponding human body lead positions, and eachpositioning hole 11 corresponds to the corresponding human body lead position, so that thelead electrodes 2 in the positioning holes 11 also correspond to the human body lead positions, and further, the user does not need to attach thelead electrodes 2 to the user by professional medical staff. Therefore, when the electrocardio monitoring clothes are used for measuring the heart rhythm of a user, the electrocardio monitoring clothes are easy to operate, do not need professional medical personnel to operate, and bring great convenience to the use of the user.

In a possible application, thelead electrode 2, thelead wire 3, the leadwire fixing body 4 and thestorage bag 12 are all located on a first surface of thegarment body 1, wherein the first surface is a surface which is not in direct contact with a human body after the user wears the electrocardiograph monitoring garment. Like this, theelectrode 2 that leads on theclothes body 1,lead line 3, lead line fixedbody 4 and accomodatebag 12 and all be located the surface ofclothes body 1, can improve the comfort level that the user wore this electrocardio monitoring clothing.

In a possible application, since thelead electrode 2, thelead wire 3 and the leadwire fixing body 4 are all located on the outer surface of thegarment body 1, after the user wears the electrocardiograph monitoring garment, the above components are all exposed to the outside, which is relatively beautiful and easy to touch, and in order to avoid the above situation, the corresponding structures can be:

as shown in fig. 6, thegarment body 1 may include aninner lining 13 and anouter layer 14, theouter layer 14 being fitted to theinner lining 13 and mounted on theinner lining 13; the plurality oflead electrodes 2 and the leadwire fixing bodies 4 are all installed on theinner lining 13, and the plurality oflead electrodes 2 and the leadwire fixing bodies 4 are all located between theinner lining 13 and theouter layer 14.

Theouter layer 14 is mainly used for shielding thelead electrode 2, thelead wire 3, the leadwire fixing body 4 and the like arranged on theliner 13, so that the appearance of the electrocardiogram monitoring garment is improved.

In implementation, when thelead electrode 2 is fixed in thepositioning hole 11, the user can wear the electrocardiograph monitoring garment without manually attaching thelead electrode 2 to the body. In this case, theouter layer 14 may be a piece of cloth, which may be attached to theinner liner 13. For example,outer layer 14 is sewn toinner liner 13. To facilitate cleaning, the edges ofouter layer 14 are attached toinner liner 13 by zippers, for example.

For the case that thelead electrode 2 is not fixed in thepositioning hole 11, the user needs to manually attach thelead electrode 2 in thecorresponding positioning hole 11, in this case, each measurement is performed by the user, and for the convenience of the user, correspondingly, theouter layer 14 may be as described above, and the edge thereof is installed on the lining 13 through a zipper, and for each measurement, theouter layer 14 is detached, and after the user attaches thelead electrode 2, theouter layer 14 is installed on thelining 13.

For another example, to further facilitate user manipulation, as shown in FIG. 4,outer layer 14 may include a first portion and a second portion; the first portion is mounted on a first side ofliner 13 and the second portion is mounted on a second side ofliner 13, the first and second portions being removably attached, the first and second sides ofliner 13 being opposite.

The first portion and the second portion of theouter layer 14 may be symmetrical about the connection, for example, the first portion and the second portion may be symmetrical about a central axis of the electrocardiograph monitoring garment.

In practice, the first and second portions of theouter layer 14 may be attached by a zipper or may be attached by buttons. In this embodiment, the connection manner between the first portion and the second portion is not limited, and the connection may be implemented.

Therefore, when the user uses the electrocardiogram monitoring clothes, the user can put the electrocardiogram monitoring clothes on the body, then all thelead electrodes 2 are attached to the positions of the positioning holes 11, then theplug 5 of thelead wire 3 is inserted into the jack of an instrument for measuring the electrocardiogram, and finally the first part and the second part of theouter layer 14 are connected.

In an embodiment of the present application, the electrocardiograph monitoring garment comprises a garment body and a plurality of lead electrodes, wherein: the plurality of lead electrodes are all installed on the clothes body, each lead electrode is matched with the corresponding human body lead position, and the lead electrodes are electrically connected with an instrument for measuring the heart rate. When the user needs to measure the heart rhythm, can wear this electrocardio monitoring clothing, because the position of the electrode of leading on the clothes body and human lead position looks adaptation, so lead electrode alright in the electrocardio monitoring clothing contact with the human lead position of user, the user open be used for measuring the heart rate the instrument alright with carry out the electrocardio measurement. Therefore, when the electrocardio monitoring clothes are used for measuring the heart rate of a user, the operation is simple, and professional doctors are not required to paste the lead electrodes on the body of the user in a one-to-one correspondence mode, so that the user does not need to go to a hospital to measure, the heart rate measurement is not limited by occasions, and further the electrocardio monitoring clothes are wide in application occasions and high in flexibility.

The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. An electrocardio monitoring clothing, characterized in that, electrocardio monitoring clothing includes clothes body (1) and a plurality of electrode (2) of leading, wherein:

the lead electrodes (2) are all arranged on the clothes body (1), and each lead electrode (2) is matched with the corresponding human body lead position.

2. The electrocardiogram monitoring clothes according to claim 1, wherein the positions of the clothes body (1) corresponding to the leads of the human body are provided with positioning holes (11), and the positioning holes (11) are matched with the corresponding leads (2).

3. The electrocardiograph monitoring garment according to claim 1, further comprising a plurality of lead wires (3);

the lead wires (3) are arranged on the clothes body (1), and each lead electrode (2) is electrically connected with at least one lead wire (3);

all the lead wires (3) are converged, and the end parts of the lead wires, which are far away from the corresponding lead electrodes (2), are accommodated in the plug (5).

4. The electrocardiogram monitoring garment according to claim 3, wherein the plug (5) comprises a waterproof cap (51) and an electric conductor (52), and when the electrocardiogram monitoring garment is not in use, the electric conductor (52) is located in the waterproof cap (51).

5. The electrocardiogram monitoring clothes as claimed in claim 3, further comprising a lead wire fixing body (4), wherein the lead wire fixing body (4) is mounted on the clothes body (1), and the plurality of lead wires (3) are mounted in the lead wire fixing body (4);

the lead electrode (2) connected with the lead wire (3) is arranged on the clothes body (1) through the lead wire fixing body (4).

6. The electrocardiogram monitoring clothes as claimed in claim 5, wherein the lead wire fixing body (4) comprises a main rod body (41) and branch rod bodies (42), each branch rod body (42) is connected with the main rod body (41);

at least one lead wire (3) is arranged in each branch rod body (42), all the lead wires (3) are converged in the main rod body (41), and the plug (5) accommodated by the converged lead wires (3) extends out of the main rod body (41).

7. The electrocardiograph monitoring garment according to claim 1, wherein the garment body (1) comprises an inner liner (13) and an outer layer (14);

the outer layer (14) is matched with the inner liner (13) and is arranged on the inner liner (13);

a plurality of lead electrodes (2) are mounted on the inner lining (13) and located between the inner lining (13) and the outer layer (14).

8. The ecg monitoring garment of claim 1, wherein the ecg monitoring garment is resilient and flexible.

9. The electrocardiograph monitoring garment according to any one of claims 1-8, wherein the lead system of the electrocardiograph monitoring garment is one or more of 12 leads, 3 leads, 5 leads to 12 leads, and 18 leads.

10. The electrocardiograph monitoring garment of any one of claims 1-8, wherein the electrocardiograph monitoring garment is biocompatible.

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