KR20200067816A - Smart Clothes - Google Patents

Abstract

The present invention relates to smart clothes capable of effectively measuring a biological signal. According to one embodiment of the present invention, the smart clothes comprise a clothes member made of a fabric material and having a structure to be worn on a user′s body and a signal detection unit disposed on the clothes member to detect user′s biological signals. The signal detection unit comprises: an electrode member having a set area, exposed toward the inner surface of the clothes member, and made of a conductive fiber; and a terminal member disposed on the outer surface of the clothes member and electrically connected to the electrode member.

Description

Smart clothes

The present invention relates to smart clothing, and more particularly, to a smart clothing capable of effectively measuring a biosignal.

In the past, the outer garment of the wearer had a function of protecting the human body from external temperature changes, and a fashion function through design elements of the garment.

However, recently emerging clothing additionally embeds electric and electronic functions in addition to the functions of the traditional clothing, and is referred to as smart clothing.

The present invention is to provide a smart clothing that can effectively measure the bio-signal.

In addition, the present invention is to provide a smart clothing in which noise is minimized in the process of measuring a user's biological signal.

In addition, the present invention is to provide a smart clothing in which noise is minimized in the process of transmitting a measured bio-signal.

In addition, the present invention is to provide a smart clothing that is easy to produce and has excellent fit, since the use of materials other than textile materials is minimized.

According to an aspect of the present invention, provided with a textile material, a garment member having a structure wearable on a user's body; And a signal detection unit located on the clothing member and capable of detecting a user's biosignal, wherein the signal detection unit has a set area and is provided to be exposed in an inner surface direction of the clothing member and is conductive fiber. An electrode member provided as; And a terminal member located on an outer surface of the clothing member and electrically connected to the electrode member.

In addition, the electrode member may be formed by woven in a plane knitting method on the inner surface of the garment member.

In addition, the electrode member may be formed by being woven in the form of a pile tissue on the inner surface of the garment member.

In addition, the signal sensing unit may be provided with a conductive fiber, one end is connected to the electrode member, the other end may further include a connecting member connected to the terminal member.

In addition, the connecting member may be formed by being woven on the outer surface of the garment member.

In addition, the connecting member has a set length, the longitudinal direction of the connecting member may be provided to converge toward the central axis passing through the central region of the human body provided in the vertical direction.

In addition, the terminal member is located on the outer surface of the region where the electrode member is located, and may be fixed to the garment member by a fixing fiber provided as a conductive fiber.

Further, the smart clothing may further include a signal processing member positioned on an outer surface of the clothing member to process a bio signal received from the signal sensing unit.

In addition, the signal processing member may be provided in the vertical direction and may be located at a point on the central axis passing through the central region of the human body.

Further, the signal sensing unit may further include a contact assist member positioned adjacent to the electrode member to assist the electrode member in contact with the user's skin.

According to an embodiment of the present invention, smart clothing capable of effectively measuring a biosignal may be provided.

In addition, according to an embodiment of the present invention, smart clothing in which noise is minimized in the process of measuring a user's biological signal may be provided.

In addition, according to an embodiment of the present invention, smart clothing in which noise is minimized in the process of transmitting the measured bio-signal may be provided.

In addition, according to an embodiment of the present invention, the use of materials other than the fiber material is minimized, so that it is possible to provide smart clothing that is easy to produce and has excellent fit.

1 is a front view of a smart clothing according to an embodiment of the present invention.
FIG. 2 is a rear view of the smart clothing of FIG. 1.
FIG. 3 is a view showing an electrode member positioned in the smart clothing of FIG. 1.
FIG. 4 is a view showing a connection member positioned in the smart clothing of FIG. 1.
5 is a cross-sectional view of a portion in which the signal sensing unit is located in the smart clothing of FIG. 1.
6 is a view showing an electrode member according to another embodiment.
7 is a view showing a state of use of the smart clothing of Figure 1;
8 is a front view of a smart clothing according to another embodiment.
9 is a rear view of the smart clothing of FIG. 8.
10 is a cross-sectional view of a portion in which the signal sensing unit is located in the smart clothing of FIG. 8.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be interpreted as being limited to the following embodiments. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings has been exaggerated to emphasize a clearer explanation.

Figure 1 Front view of the smart clothing according to an embodiment of the present invention, Figure 2 is a rear view of the smart clothing of FIG.

1 and 2, the smart clothing 1 includes a clothing member 10, a signal sensing unit 20 and a signal processing member 30.

The clothing member 10 is provided in a structure that can be worn on the user's body. The garment member 10 may be provided with a cloth woven from natural fibers or artificial fibers. For example, the garment member 10 may be provided in a structure that is worn on the user's upper body, and the user's lower body. Further, when the garment member 10 is provided in a structure of a top, it may be provided in a structure with a sleeve portion, a structure without a sleeve portion, and a structure with only a portion of the sleeve. In addition, when provided in a lower structure, the structure extended to the calf portion, worn up to the thigh portion, the calf portion may be provided in an omitted structure. Further, the garment member 10 may be provided in a structure that is worn on a part of the body. In Fig. 1, the garment member 10 is provided as a top structure, and a case where a sleeve is provided is illustrated as an example. The garment member 10 may be provided as a knitted fabric, and may be provided to have improved elasticity, breathability, and absorbency compared to woven fabric.

The garment member 10 may be provided with an elastic portion 110 having a higher stiffness than other regions. The elastic part 110 may be formed at least one along the circumference of the garment member. For example, the elastic part 110 may be formed in a portion located on the side of the user's body and/or a portion located in the central region of the back of the user's body. In addition, when the garment member 10 is provided in an upper structure, the elastic portion 110 may be formed at the end of the sleeve. The elastic part 110 may be provided in a rib stitch structure.

Hereinafter, when the smart clothing 1 is worn on the user's body, the surface facing the user's skin is referred to as the inner surface of the smart clothing 1 or the clothing member 10, and the surface exposed to the outside is the smart clothing 1 ) Or the outer surface of the garment member 10.

The signal detection unit 20 is located in the garment member, and detects a user's biological signal.

The signal sensing unit 20 may be provided on at least one of the sleeve portion or the body portion. 1 and 2 show a case in which the signal sensing unit 20 is located at the front and rear of the left sleeve portion, the front and rear right sleeve portions, and the body rear portion, respectively. However, this is an example, and some of the signal detection units 20 illustrated in FIGS. 1 and 2 may be omitted, or the signal detection unit 20 may be located in the front portion of the body.

The signal detection unit 20 includes an electrode member 210, a connection member 220 and a terminal member 230.

FIG. 3 is a view showing an electrode member positioned in the smart clothing of FIG. 1.

Referring to FIG. 3, the electrode member 210 has a set area and is exposed to the inner surface of the garment member 10. When the smart clothing 1 is worn on the user's body, the electrode member 210 receives a biosignal from the user's body. The biosignal may be a bioelectric signal received from the user's superficial muscle.

The electrode member 210 is made of a conductive fiber. For example, the electrode member 210 may be provided in a structure in which a conductive material is coated on natural fibers or artificial fibers. For example, the electrode member 210 may be provided in a structure coated with silver or silver on natural or artificial fibers. The electrode member 210 may be provided in a structure having a cloth structure having a set area, by forming a conductive fiber on the inner surface of the garment member 10 using the garment member 10 as a base tissue. For example, the electrode member 210 is woven in a plane knitting method on the inner surface of the garment member 10, and may be provided to have a cloth structure having a set area.

The electrode members 210 may be provided at a plurality of spaced apart from each other on the inner surface of the garment member 10.

The electrode member 210 positioned in the sleeve portion may be positioned adjacent to the elbow joint. A plurality of electrode members 210 positioned on the back portion may be arranged along the vertical direction. In addition, the electrode member 210 positioned on the back portion may be provided in the vertical direction and may be arranged in a plurality on the left and right based on the central axis (hereinafter, the central axis) passing through the central region of the human body. At this time, the electrode members 210 arranged in the vertical direction may have the same or different distances spaced in the horizontal direction relative to the central axis. In addition, the electrode members 210 positioned on the left and right with respect to the central axis may be positioned symmetrically to each other.

At least two electrode members 210 may be provided adjacent to each other to form a unit. For example, four electrode members 210 are arranged in a quadrangular shape, and may be provided to form one unit. In addition, two electrode members 210 are positioned so as to be spaced apart from each other by a set distance, thereby forming one unit. In one unit, the electrode members 210 positioned adjacent to each other may be positioned such that the distance d between the centers is 1.8 cm to 2.2 cm apart. For example, the distance d between the centers of the electrode members 210 positioned adjacent to each other may be 2 cm.

A contact assist member 215 may be provided adjacent to the electrode member 210 on the inner surface of the garment member 10. The contact assist member 215 may be provided with a conductive material. The contact assist member 215 may be attached in the form of a hot melt. The contact assist member 215 may assist the electrode member 210 in contact with the user's skin, thereby reducing the impedance generated between the user's skin and the electrode member 210.

For example, the contact assist member 215 may be provided in a form positioned on the electrode member 210. In addition, the contact assist member 215 may be provided in a form positioned around the outer periphery of the electrode member 210. In addition, the contact auxiliary member 215 may be provided in a form positioned around the outer periphery of the electrode member 210 and the electrode member 210.

FIG. 4 is a view showing a connecting member positioned in the smart clothing of FIG. 1, and FIG. 5 is a cross-sectional view of a portion in which the signal sensing unit is located in the smart clothing of FIG. 1.

4 and 5, the electrode member 210 may be connected to one end of the connection member 220. The connecting member 220 is provided to have a set length and extend in a set direction. The longitudinal direction of the connecting member 220 may be provided to converge toward the central axis. Specifically, the connecting member 220 connected to the electrode member 210 located in the sleeve portion has a set length and may be extended to face the shoulder portion. For example, the longitudinal direction of the connecting member 220 may be provided to face the longitudinal direction of the sleeve. Accordingly, the other end of the electrode member 210 may be positioned adjacent to the shoulder portion. In addition, the connecting member 220 connected to the electrode member 210 located in the body portion has a set length and may extend to face the central axis. In addition, the other end of the connecting member 220 connected to the electrode member 210 located in the body portion may be positioned to be linearly aligned along the vertical direction.

The connecting members 220 connected to the adjacent electrode members 210 may form a set pattern pattern on the outer surface of the clothing member 10. Accordingly, a set pattern may be formed on the outer surface of the smart clothing 1. For example, the adjacently connected connecting members 220 may be provided at a center of a distance from each other, and may be provided in a shape symmetrical to each other based on a straight line provided in a direction perpendicular to the spaced direction. For example, the connecting members 220 which are adjacently connected to the electrode members 210 constituting one unit may be provided in the longitudinal direction side by side to form a symmetrical shape. Two connecting members 220 connected to the electrode member 210 positioned on the sleeve may be positioned adjacent to each other, and may be positioned parallel to each other along the length direction of the sleeve. In addition, when the four electrode members 210 are positioned adjacent to form one unit, the connecting members 220 connected to the two electrode members 210 located in a direction away from the central axis are facing each other. The connecting members 220 respectively connected to the electrode members 210 in opposite directions and connected to the two electrode members 210 positioned in the direction close to the central axis are respectively connected to the electrode members 210 in opposite directions. You can.

The connecting member 220 may be provided with conductive fibers. For example, the connecting member 220 may be provided as a conductive fiber provided in a structure in which a conductive material is coated on natural or artificial fibers. For example, the connection member 220 may be provided as a conductive fiber having a structure coated with silver or silver on natural fibers or artificial fibers. At least a portion of the connecting member 220 may be provided in a form woven on the outer surface of the garment member 10, using the garment member 10 as a base tissue.

The terminal member 230 may be connected to the other end of the connection member 220. The terminal member 230 is made of a conductive material. For example, the terminal member 230 is provided with a metallic material, and may be fixed to the garment member 10 by the fixing fiber 235. The fixed fiber 235 may be provided as a conductive fiber. The fixed fiber 235 may be provided in a structure coated with silver or silver on natural or artificial fibers. The terminal member 230 may be provided in a snap button structure.

The signal processing member 30 may be located on the outer surface of the garment member 10. The signal processing member 30 processes the biological signal received from the signal detection unit 20. The signal processing member 30 may be located at a point on the central axis. For example, when the electrode member 210 and the terminal member 230 are positioned on the rear portion of the body, the signal processing member 30 may be located at a point on the central axis of the rear portion of the body. Further, when the electrode member 210 and the terminal member 230 are positioned on the front portion of the body, the signal processing member 30 may be located at a point on the central axis of the front portion of the body.

The signal processing member 30 may be provided to be able to process the received bio-signal in a set form. As an example, the signal processing member 30 may be provided to amplify the received bioelectrical signal. In addition, the signal processing member 30 may be provided for wired communication or wireless communication, and may be provided to be transmitted to the outside of the smart clothing 1 after processing the received signal in a set form.

6 is a view showing an electrode member according to another embodiment.

Referring to FIG. 6, the electrode member 210a may be woven in the form of a pile tissue using the garment member 10 as a base tissue. Accordingly, the electrode member 210a has a structure that bulges toward the inner surface, so that the user's contact with the skin can be improved.

7 is a view showing a state of use of the smart clothing of Figure 1;

Referring to FIG. 7, the smart clothing 1 may be used in a manner that the user wears in the form of clothes. When the smart clothing 1 is used, the terminal member 230 may be connected to the signal processing member 30 through a conducting wire 50. FIG. 6 illustrates a case where a part of the terminal member 230 is connected to the signal processing member 30 by a conductor 50 for convenience of illustration. However, this is exemplary, and all of the terminal members 230 provided in the smart clothing 1 may be used in connection with the signal processing member 30. In addition, if necessary, only some terminal members 230 are connected to the signal processing member 30, but the position of the terminal member 230 connected to the signal processing member 30 may be changed. When the terminal member 230 is provided with a snap button structure, one end of the conducting wire 50 may be provided with a snap button structure having a structure corresponding to the terminal member 230. Accordingly, the conductor wire 50 can be easily connected to and disconnected from the terminal member 230.

When the smart clothing 1 is worn, the electrode member 210 located on the inner surface comes into contact with the user's skin, and can detect bioelectric signals generated from the user's muscles.

The bioelectric signal sensed by the electrode member 210 may be transmitted to the signal processing member 30 through the connection member 220 and the terminal member 230. In addition, the signal processing member 30 may process the received bioelectric signal and provide it to the outside.

In the smart clothing 1 according to an embodiment of the present invention, the electrode member 210 and the connection member 220 are provided in the form of fibers, and thus, the wearability is excellent.

In addition, the smart clothing 1 according to an embodiment of the present invention is configured in a form in which the electrode member 210 and the connecting member 220 are woven into the clothing member 10, using the clothing member 10 as a base material. do. Accordingly, the structure for sensing the signal and transmitting the signal is stably positioned on the garment member 10, so that the sensed signal can be effectively transmitted.

Further, according to an embodiment of the present invention, the terminal member 230 may be provided at a position converging in the central axis direction. Accordingly, a process of connecting the terminal member 230 and the signal processing member 30 using the conducting wire 50 can be effectively performed. In addition, when a plurality of conductive wires 50 connecting the terminal member 230 and the sensing unit are used, the length of the used conductive wire 50 is shortened and the interference between the conductive wires 50 is reduced, so that the electrode member 210 detects The deformed signal may be transmitted to the signal processing member 30 in a state in which deformation is minimized.

8 is a front view of a smart clothing according to another embodiment, and FIG. 9 is a rear view of the smart clothing of FIG. 8.

8 and 9, the smart clothing 1a includes a clothing member 11, a signal sensing unit (21 in FIG. 9 ), and a signal processing member 31.

The clothing member 11 is provided in a structure that can be worn on the user's body. For example, the garment member 11 may be provided in a structure that is worn on the user's upper body and the user's lower body. 7 shows an example in which the garment member 11 is provided as an upper structure.

The signal detection unit 21 includes an electrode member 211 and a terminal member 231.

10 is a cross-sectional view of a portion in which the signal sensing unit is located in the smart clothing of FIG. 8.

Referring to FIG. 10, the electrode member 211 has a set area and is provided to be exposed in an inner surface direction of the garment member 11. The electrode member 211 may be positioned corresponding to the position of the user's muscle. For example, the electrode member 211 positioned in the sleeve portion may be provided to be located in at least one of the portions corresponding to the biceps brachii muscle, the humerus radial muscle, and the lateral carpal flexor. In addition, the electrode member 211 located on the front portion of the body may be located on a portion corresponding to the chest muscle. In addition, the electrode member 211 positioned on the rear surface of the body may be provided to be positioned on at least one of the parts corresponding to the trapezius, triceps, broad back muscle, sub-maximal muscle, and large muscle. At this time, the body rear portion of the garment member 11 may be provided to be divided for each region in which the electrode member 211 is located. For example, the garment member 11 may be provided such that at least one of the boundaries of the parts corresponding to the trapezius, triceps, broad muscle, submaximus, and major muscles is partitioned by the incision line 120.

The terminal member 231 may be located on the outer surface of the region where the electrode member 211 is located. The terminal member 231 may be fixed to the garment member 11 by the fixing fiber 236. The fixed fiber 236 may be provided as a conductive fiber. The fixed fiber 236 is provided in the form of passing through the electrode member 211 and the terminal member 231, so that the terminal member 231 may be electrically connected to the electrode member 211 by the fixed fiber 236.

In addition to the fact that the connecting member is omitted in the signal sensing unit 21, the configuration of the garment member 11, the signal sensing unit 21 and the signal processing member 31, which can have the elastic part 111, the user's biological signal The method used for the measurement of the same or similar to the smart clothing 1 of FIG. 1 is repeated description is omitted.

The above detailed description is to illustrate the present invention. In addition, the above-described content is to describe and describe preferred embodiments of the present invention, and the present invention can be used in various other combinations, modifications and environments. That is, it is possible to change or modify the scope of the concept of the invention disclosed herein, the scope equivalent to the disclosed contents, and/or the scope of the art or knowledge in the art. The embodiments described describe the best state for implementing the technical idea of the present invention, and various changes required in specific application fields and uses of the present invention are possible. Accordingly, the detailed description of the invention is not intended to limit the invention to the disclosed embodiments. In addition, the appended claims should be construed to include other embodiments.

10: absence of clothing 20: signal detection unit
30: signal processing member 210: electrode member
220: connecting member 230: terminal member

Claims (3)

A clothing member provided with a fiber material and having a structure wearable on a user's body; And
It is located on the garment member, and includes a signal detection unit capable of detecting a user's biological signal,
The signal detection unit,
It has a set area, and is provided to be exposed in the direction of the inner surface of the garment member, and is woven in the form of a pile tissue on the inner surface of the garment member using the garment member as a base tissue, and improves the user's contact with the skin As possible, an electrode member made of a conductive fiber formed in a structure inflated in a direction toward the skin of the user from an inner surface of the garment member facing the user's skin;
A terminal member positioned on an outer surface of the garment member and electrically connected to the electrode member; And
It is provided with a conductive fiber, one end is electrically connected to the electrode member, the other end is electrically connected to the terminal member, from one end to the other end, the clothing member as a base tissue, the It includes a connecting member formed by being woven on the outer surface of the garment member,
The connecting member has a set length, the longitudinal direction of the connecting member is provided in the vertical direction and is provided to converge toward the central axis passing through the central region of the human body,
A plurality of the connecting member connected to the electrode member positioned adjacent to form a set pattern pattern on the outer surface of the clothing member,
The signal detection unit,
It is located adjacent to the electrode member, further comprising a contact assist member to assist the electrode member in contact with the user's skin,
The contact assist member is provided with a conductive material, and is formed in a structure protruding in a direction toward the skin of the user from the inner surface of the garment member on at least one position on the electrode member and the outer circumference of the electrode member. clothing.
According to claim 1,
Further comprising an elastic portion,
The elastic portion is formed at least one along the circumference of the garment member, provided with a ribbed structure, smart clothing.
According to claim 1,
The terminal member is located on the outer surface of the region where the electrode member is located, and is fixed to the garment member by a fixing fiber provided as a conductive fiber,
The fixed fiber is provided in a form that passes through the electrode member and the terminal member, to electrically connect the terminal member and the electrode member, smart clothing.

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