CN211510612U - Intelligent sports wear - Google Patents

Abstract

An intelligent sports garment comprises a garment body, a pair of connecting pieces, an elastic band, a connecting terminal, a sensing electrode and a wiring. The clothes body is provided with an inner surface and a plurality of holes. The pair of connecting pieces is arranged on the inner surface of the clothes body, and the hole is positioned between the pair of connecting pieces. The elastic band is provided with a first end and a second end, and the first end and the second end are respectively detachably connected to the pair of connecting pieces. The elastic belt is also provided with a first surface and a second surface, wherein the first surface faces the hole, and the second surface faces away from the first surface. The connecting terminals are arranged on the first surface of the elastic belt and respectively penetrate through the holes. The sensing electrode is disposed on the second surface of the elastic band. The wiring self-sensing electrode is electrically connected to the connecting terminal. Through the configuration, when a user only has wearing requirements but does not have physiological signal measuring requirements, the elastic belt and the upper assembly thereof can be detached from the clothes body, so that the wearing comfort is improved.

Description

Intelligent sports wear

Technical Field

The utility model relates to an intelligent sports wear.

Background

With the development of science and technology, the application of clothes has begun to expand to other fields, so that the requirements of people on clothes are not limited to the function of keeping warm any more. Therefore, various functional clothes are continuously produced. For example, many electronic devices are also beginning to be designed to use cloth as a main body to be combined on the cloth to become clothes. By combining the cloth and the electronic device into the clothes, when a user wears the clothes, the electronic device can collect physiological signals of the user, so that the motion state of the user can be known. Because the clothes formed by combining the cloth and the electronic device cause huge reverberation in the consumer market, more similar products are brought out in succession, and the development of the products is well seen.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an intelligent sports wear, a serial communication port contains clothing body, a pair of connecting piece, elastic webbing, a plurality of connecting terminal, a plurality of sensing electrode and a plurality of line of walking. The clothes body is provided with an inner surface and a plurality of holes. The pair of connecting pieces is arranged on the inner surface of the clothes body, and the hole is positioned between the pair of connecting pieces. The elastic band is provided with a first end and a second end which are opposite, the first end and the second end are respectively detachably connected to the pair of connecting pieces, the elastic band is also provided with a first surface and a second surface, the first surface faces the hole, and the second surface is opposite to the first surface. The connecting terminals are arranged on the first surface of the elastic belt and respectively penetrate through the holes. The sensing electrode is disposed on the second surface of the elastic band. The wiring self-sensing electrode is electrically connected to the connecting terminal.

In some embodiments, the garment body has a chest region, and the hole is located in the chest region of the garment body.

In some embodiments, the garment body includes at least one dot structure located in the chest region, and the dot structure has a size same as the respective size of the holes.

In some embodiments, the distance between the pair of connectors is greater than the length of the elastic band.

In some embodiments, the garment body has a front chest block and a back block opposite to each other, the pair of connectors are located in the back block, and the distance between the pair of connectors is less than the length of the elastic band.

In some embodiments, the elastic band includes at least one first anti-slip structure and at least one second anti-slip structure respectively disposed on the first surface and the second surface, and the first anti-slip structure and the second anti-slip structure are overlapped with each other.

In some embodiments, the pair of connectors are a pair of tab structures protruding from an inner surface of the garment body.

In some embodiments, the pair of connecting members are each a strip having a first connecting end and a second connecting end opposite to each other, and the first connecting end and the second connecting end are connected to the inner surface of the clothing body.

In some embodiments, the smart sports garment further comprises a physiological signal sensor. The physiological signal sensor is arranged on the clothes body and covers the hole, so that the clothes body is clamped between the elastic belt and the physiological signal sensor, the physiological signal sensor comprises a plurality of pins, and the pins are respectively connected with the connecting terminals penetrating through the hole and are electrically connected to the sensing electrodes through the connecting terminals.

In some embodiments, the gap between the elastic belt and the physiological signal sensor is sufficient for the clothes body to deform due to the clamping force from the elastic belt and the physiological signal sensor.

In some embodiments, the pair of connectors each include a cloth cover and a buckle, the cloth cover is fixed on the inner surface of the clothing body and covers a portion of the buckle, so that the buckle is turnable relative to the cloth cover, wherein the buckle has a support, and the support extends into and passes through the first end or the second end of the elastic band.

Drawings

Fig. 1A is a front view schematically illustrating a wearing part of an intelligent sports wear according to a first embodiment of the present invention.

Fig. 1B is a front view schematically illustrating a sensing member of an intelligent sports wear according to a first embodiment of the present invention.

FIG. 1C is a schematic front view of the wearing part of FIG. 1A and the sensing part of FIG. 1B combined together.

FIG. 1D is an enlarged view of the connector of FIG. 1A applied as a clasp group.

Fig. 2A is a front view schematically illustrating a wearing part of an intelligent sports wear according to a second embodiment of the present invention.

Fig. 2B is a front view schematically illustrating a sensing member of an intelligent sports wear according to a second embodiment of the present invention.

FIG. 2C shows a schematic front view of the wearing member of FIG. 2A in combination with the sensing member of FIG. 2B.

Fig. 3A is a front view schematically illustrating a wearing part of an intelligent sports wear according to a third embodiment of the present invention.

Fig. 3B is a front view schematically illustrating an intelligent sports wear according to a third embodiment of the present invention.

Fig. 4 is a rear view schematically showing an intelligent sports wear according to a fourth embodiment of the present invention.

Detailed Description

The following description of the embodiments with reference to the accompanying drawings is not intended to limit the scope of the invention, but rather the description of the structure operation is not intended to limit the order of execution, and any structure which results from the combination of elements, which result in a device with equivalent efficacy, is intended to cover the scope of the invention. In addition, the drawings are for illustrative purposes only and are not drawn to scale. For ease of understanding, the same components will be described with the same reference numerals in the following description.

The utility model discloses an intelligent sports wear can be divided into wearing parts and sensing parts. When the user has the requirement of measuring physiological signals, the wearing part and the sensing part can be combined together, so that the intelligent sports clothes can acquire the potential of the user. When the user only has wearing requirements but does not have the requirement of measuring the physiological signal, the sensing component can be detached from the wearing component, so that the wearing comfort is improved.

Referring to fig. 1A and 1B, fig. 1A and 1B are front views respectively illustrating a wearing part 110 and a sensing part 120 of an intelligent sports garment 100A according to a first embodiment of the present invention.

As shown in fig. 1A, the wearing part 110 of the intelligent sports garment 100A includes a garment body 112 and a pair of connecting members 116A, 116B. The garment body 112 may be a coat and has an inner surface and a plurality of apertures 114, the inner surface of the garment body 112 contacting the user when the garment body 112 is worn by the user. The garment body 112 has a front breast area R1, where the "front breast area" refers to the position of the front breast that would be covered by the front breast area R1 of the garment body 112 when the garment body 112 is worn by a user. In addition, the material of the garment body 112 may include Polyester (PET), NYLON (NYLON) or a combination thereof, and the material of the garment body 112 may further include an elastic yarn (spandex), so that the garment body 112 has elasticity and can provide a proper garment pressure for a user. The hole 114 is located at the front breast area R1 of the garment body 112, and the hole 114 can penetrate through the garment body 112. In addition, in order to make the drawings easily understood, the ratio of the holes 114 to the clothes body 112 is adjusted, and in practice, the ratio of the holes 114 to the clothes body 112 may be larger or smaller.

The connecting members 116A and 116B may be disposed on the inner surface of the clothes body 112, i.e. the connecting members 116A and 116B are located at the inner side of the clothes body 112. Here, the "the connecting member will be located at the inner side of the clothes body" means that: when looking at the clothes body 112, the connecting members 116A and 116B cannot be seen.

In this embodiment, the connecting members 116A and 116B are a pair of sheet-like structures, and the edges thereof can be fixed to the inner surface of the clothes body by sewing (not shown), so that the pair of sheet-like structures protrude from the inner surface of the clothes body 112. Specifically, the edges of the connecting members 116A and 116B overlap the garment body 112, and a seam may be disposed at the overlap, thereby connecting the connecting members 116A and 116B to the garment body 112. Since the connecting members 116A and 116B are connected to the clothes body 112 by their edges, the connecting members 116A and 116B are turnable with respect to the clothes body 112 (e.g., the connecting members 116A and 116B are turned over with the edges of the connecting members 116A and 116B as fulcrums). In addition, the connecting members 116A and 116B are disposed at positions corresponding to the edges of the front chest area R1 of the garment body 112, and the hole 114 is located between the connecting members 116A and 116B.

As shown in fig. 1B, the sensing component 120 of the intelligent sports garment 100A includes an elastic band 122, a plurality of connection terminals 124, a plurality of sensing electrodes 126, and a plurality of traces 128. The elastic band 122 has opposite first and second ends E1 and E2. Specifically, the elastic band 122 is elongated, and the first end E1 and the second end E2 are the beginning point and the end point of the extending direction, respectively.

The elastic band 122 also has a first surface S1 and a second surface, and the second surface faces away from the first surface S1. In this regard, the front view of fig. 1B is a front view of the first surface S1 of the elastic band 122. The elastic band 122 may be elastic by including an elastic yarn. In addition, the elastic band 122 may include a first anti-slip structure 130 and a second anti-slip structure 132, wherein the first anti-slip structure 130 and the second anti-slip structure 132 are disposed on the first surface S1 and the second surface, respectively. The first anti-slip structure 130 and the second anti-slip structure 132 can form a protruding structure on the first surface S1 and the second surface of the elastic band 122 respectively after the anti-slip yarns are interwoven. The first anti-slip structure 130 and the second anti-slip structure 132 can overlap each other. Here, the phrase "the first anti-slip structure and the second anti-slip structure may overlap with each other" means that: the perpendicular projections of the first anti-slip structure 130 and the second anti-slip structure 132 to the first surface S1 or the second surface overlap each other.

The connection terminal 124 is disposed on the first surface S1 of the elastic band 122, wherein the connection terminal 124 may include a conductive material such as metal, thereby providing an electrical transmission function. In addition, the size of the connection terminal 124 may correspond to the size of the hole (the hole 114 of fig. 1A) of the laundry body 112. For example, the outer diameter of the connection terminal 124 may be equal to or slightly equal to the inner diameter of the hole, and such a size configuration will be sufficient to allow the connection terminal 124 to pass through the hole.

The sensing electrode 126 is disposed on the second surface of the elastic band 122, and the trace 128 is electrically connected to the connection terminal 124 from the sensing electrode 126. In this embodiment, the number of the sensing electrodes 126 is three, and the number of the holes (the holes 114 in fig. 1A), the connecting terminals 124 and the traces 128 is the same as the number of the sensing electrodes 126. However, the present invention is not limited thereto, and in other embodiments, the number of the sensing electrodes 126 can also be two, and the number of the holes (the holes 114 in fig. 1A), the connecting terminals 124 and the traces 128 is still the same as the number of the sensing electrodes 126.

The sensing electrode 126 may be a fabric structure formed by conductive yarns, and the fabric structure protrudes from the second surface. The traces 128 can be conductive paths formed from conductive yarns or wires. In some embodiments, the sensing electrodes 126 and the traces 128 can each comprise silver paste, carbon paste, or a combination thereof. In other embodiments, the trace 128 may be formed by interweaving the elastic band 122 with the same conductive yarn as the sensing electrode 126, that is, the trace 128 is integrally formed with the sensing electrode 126 and is a conductive path extending from the sensing electrode 126. In addition, the first anti-slip structure 130 and the second anti-slip structure 132 disposed on the first surface S1 can extend to a position close to the sensing electrode 126, and they still maintain an overlapping relationship.

The wearing component 110 of FIG. 1A and the sensing component 120 of FIG. 1B can be combined together, as shown in FIG. 1C, which depicts a front schematic view of the wearing component 110 of FIG. 1A and the sensing component 120 of FIG. 1B being combined together.

The sensing member 120 is located in the clothing body 112 of the wearing member 110, and the first surface S1 of the elastic band 122 of the sensing member 120 faces the hole 114. The first end E1 and the second end E2 of the elastic band 122 of the sensing member 120 can be connected to the connectors 116A and 116B, respectively. The first end E1 and the second end E2 of the elastic band 122 can be respectively located between the connecting members 116A and 116B and the clothing body 112, however, the present invention is not limited thereto, and the connecting members 116A and 116B can be respectively located between the clothing body 112 and the first end E1 and the second end E2 of the elastic band 122.

In this regard, the first end E1 and the second end E2 of the elastic band 122 may be connected to the connecting members 116A and 116B by structural interference, magnetic attraction, surface adhesion, or other suitable means. For example, the connection by structural interference may be achieved by disposing at least one set of snaps (not shown) on the connection members 116A and 116B and the first end E1 and the second end E2 of the elastic band 122; the connection manner achieved by the magnetic attraction can be achieved by disposing at least one set of magnetic material, such as magnetic buttons (not shown), on the connection members 116A and 116B and the first end E1 and the second end E2 of the elastic band 122, so that the first end E1 and the second end E2 of the elastic band 122 can be respectively attracted and embedded into the connection members 116A and 116B by the magnetic force and thus connected thereto; the connection by surface adhesion may be achieved by disposing at least one set of velcro structures, such as a hook and loop (not shown), on the connecting members 116A and 116B and the first end E1 and the second end E2 of the elastic band 122.

By the above connection, the connection of the first end E1 and the second end E2 of the elastic band 122 to the connectors 116A and 116B is detachable, that is, after the user assembles and connects the elastic band 122, the first end E1 and the second end E2 of the elastic band 122 can be detached from the connectors 116A and 116B, so that the sensing component 120 can be separated from the wearing component 110.

In addition, the connection terminals 124 of the sensing component 120 also pass through the holes 114 of the clothes body 112 respectively. As mentioned above, the size of the hole 114 and the size of the connection terminal 124 correspond to each other, so that the connection terminal 124 can pass through the hole 114 and is exposed outside the clothes body 112, thereby forming a conductive connection point on the outer surface of the clothes body 112.

After the wearing portion 110 and the sensing portion 120 are combined together, the sensing electrode 126 can collect three potentials, such as a high potential, a low potential, and a reference potential, from the skin of the user when the user wears the intelligent sports garment 100A, thereby facilitating the establishment or generation of physiological signals of the user. In other embodiments, if the number of the sensing electrodes 126 is two, a high potential and a low potential are collected from the skin of the user.

More specifically, the intelligent sports garment 100A may further comprise a physiological signal sensor 140, wherein the physiological signal sensor 140 is disposed on the garment body 112 and covers the hole 114, such that the garment body 112 can be sandwiched between the elastic band 122 and the physiological signal sensor 140, and the sandwiching strength between the elastic band 122 and the physiological signal sensor 140 can be sufficient to fix the garment body 112 between the elastic band 122 and the physiological signal sensor 140. For example, the gap between the elastic band 122 and the physiological signal sensor 140 fixed to each other may be designed to be slightly smaller than the thickness of the clothing body 112, so that the gap between the elastic band 122 and the physiological signal sensor 140 is enough to deform the clothing body 112 due to the clamping force from the elastic band 122 and the physiological signal sensor 140, so as to firmly clamp the clothing body 112, thereby preventing the clothing body 112 from sliding between the elastic band 122 and the physiological signal sensor 140. In this way, the elastic band 122 can be connected to the clothing body 112 through the connecting members 116A and 116B at both ends (the first end E1 and the second end E2), and can be connected to the physiological signal sensor 140 to fixedly connect the middle region thereof to the clothing body 112, so as to enhance the connection strength of the elastic band 122 to the clothing body 112.

In addition, the physiological signal sensor 140 may include a plurality of pins 142, and the pins 142 may be respectively connected to the connection terminals 124 passing through the holes 114, such that the physiological signal sensor 140 can be electrically connected to the sensing electrodes 126 through the connection terminals 124. That is, the three potentials collected by the sensing electrode 126 can be electrically transmitted to the physiological signal sensor 140, so that the physiological signal sensor 140 can establish or generate the physiological signal of the user. In some embodiments, the physiological signal sensor 140 can output the electrical signal in a wireless communication manner, such as infrared transmission, WIFI wireless network transmission, NFC near field wireless communication, bluetooth transmission, or Zigbee wireless communication (Zigbee).

Therefore, the user wearing the intelligent sports garment 100A can establish or generate a corresponding physiological signal while performing an activity (such as riding a bicycle, running or other aerobic/anaerobic exercise), thereby facilitating to interpret the current physiological condition of the user. When the user only has wearing requirements but does not have the physiological signal measurement requirements, the sensing component 120 can be detached from the wearing component 110, and the wearing component 110 can be directly worn, so that the comfort level of wearing the intelligent sports garment 100A is improved. That is, the intelligent sports wear 100A of the present invention may be a dual-purpose garment. Furthermore, since the sensing member 120 is detachable from the wearing member 110, the number of times the wearing member 110 can be washed with water can be increased.

In addition, the distance between the connecting members 116A and 116B may be greater than the length of the elastic band 122. In other words, when the user wants to assemble the sensing component 120 to the wearing component 110, the elastic band 122 is slightly stretched, and then the first end E1 and the second end E2 of the elastic band 122 are connected to the connecting members 116A and 116B, respectively, which will generate tension in the elastic band 122, thereby smoothing the elastic band 122 and preventing the elastic band 122 from being wrinkled. In this way, when the user wears the intelligent sports garment 100A, the tightness of the elastic band 122 relative to the skin of the user is improved, thereby facilitating the sensing electrode 126 to collect the electric potential. On the other hand, when a force is generated between the user and the second anti-slip structure 132, in addition to preventing the sensing member 120 from moving relative to the user through the second anti-slip structure 132, since the first anti-slip structure 130 and the second anti-slip structure 132 are overlapped with each other, the force applied by the user to the second anti-slip structure 132 can be transmitted to the first anti-slip structure 130 and the inner surface of the clothing body 112, so as to improve the anti-slip effect of the first anti-slip structure 130 on the clothing body 112, thereby preventing the sensing member 120 from moving relative to the clothing body 112. In addition, if the first anti-slip structure 130 and the second anti-slip structure 132 are extended to a position close to the sensing electrode 126, the sensing electrode 126 can be further prevented from sliding relative to the user.

Although the connecting members 116A and 116B are illustrated as single rectangular components in this embodiment, the present invention is not limited thereto, and in some embodiments, the connecting members 116A and 116B may be a structure composed of more than two components. For example, referring to fig. 1D, fig. 1D is an enlarged schematic view of the connector 116A of fig. 1A applied as a buckle group. The illustration of fig. 1D is illustrated by using the connecting element 116A as an example, however, the application can be correspondingly applied to the connecting element 116B, and no additional description is provided herein. The connecting member 116A applied as a buckle group includes a cloth cover 117A and a buckle 117B, wherein the cloth cover 117A is fixed on the clothes body 112, and the cloth cover 117A can pass through an opening of the buckle 117B to cover a portion of the buckle 117B, so that the buckle 117B is turnable relative to the clothes body 112. The first end E1 of the elastic band 122 may have a stitching line I, and an accommodation space may be defined by the stitching line I. The buckle 117B may have a bracket 117C, and the bracket 117C may extend into and pass through the accommodating space defined by the sewing line I, so as to establish a connection relationship between the elastic band 122 and the connecting piece 116A, and the elastic band 122 in the connection relationship may be detached from the connecting piece 116A, i.e. the elastic band 122 is still detachable. Although fig. 1D shows a portion of the buckle 117B covered by the cloth cover 117A and the support 117C of the buckle 117B extends into and passes through the accommodating space of the elastic band 122, the present invention is not limited thereto, and in other embodiments, a portion of the buckle 117B may be covered by the first end E1 of the elastic band 122 and the support 117C of the buckle 117B extends into the cloth cover 117A, so that the buckle 117B can be detached from the cloth cover 117A. Alternatively, the buckle 117B may be designed to have two open ends, such that the cloth cover 117A, the buckle 117B, and the elastic band 122 are detachable from each other.

Referring to fig. 2A and 2B, fig. 2A and 2B are front views respectively illustrating a wearing part 110 and a sensing part 120 of an intelligent sports garment 100B according to a second embodiment of the present invention. At least one difference between the present embodiment and the first embodiment is that the connecting members 116A and 116B of the present embodiment are each a bar, so that the first end E1 and the second end E2 of the elastic band 122 can be connected to the connecting members 116A and 116B by surrounding the connecting members 116A and 116B, thereby improving the connecting strength therebetween. Specifically, the strip-shaped connecting pieces 116A and 116B respectively have a first connecting end C1 and a second connecting end C2 opposite to each other, and the first connecting end C1 and the second connecting end C2 are connected to the inner surface of the laundry body 112.

In addition, the first end E1 and the second end E2 of the elastic band 122 can be divided into two sections, and the two sections can be connected to each other by structural interference, magnetic attraction, surface adhesion or other suitable means. Taking the first end E1 of the elastic band 122 as an example, the first end E1 may have a first block a1 and a second block a2, and at least one set of snap fasteners (not shown), magnetic fasteners (not shown), hair and hook surfaces (not shown) or a combination thereof may be disposed on the first block a1 and the second block a2 of the first end E1, so that the first block a1 and the second block a2 of the first end E1 may be detachably connected together after the first end E1 is folded in half.

Likewise, the wearing component 110 of FIG. 2A and the sensing component 120 of FIG. 2B can be combined together, as shown in FIG. 2C, which depicts a front view schematic diagram of the wearing component 110 of FIG. 2A and the sensing component 120 of FIG. 2B. When the first end E1 and the second end E2 of the elastic band 122 are to be connected to the connecting members 116A and 116B, the first end E1 and the second end E2 of the elastic band 122 may be passed through the gap between the connecting members 116A and 116B and the clothing body 112, respectively, and the first end E1 and the second end E2 of the elastic band 122 are looped around the connecting members 116A and 116B, thereby fixing and connecting them together. More specifically, after the first end E1 and the second end E2 of the elastic band 122 are looped around the connecting members 116A and 116B, the respective first block (e.g., the first block a1 of fig. 2B) and the second block (e.g., the second block a2 of fig. 2B) can be connected and fixed together, so that the first end E1 and the second end E2 of the elastic band 122 are detachably connected to the connecting members 116A and 116B.

With this configuration, in addition to improving the connection strength by surrounding the connecting members 116A and 116B, when the user only needs to wear the garment without measuring the physiological signals, the comfort of wearing the intelligent sports garment 100B can be improved by reducing the volume of the connecting members 116A and 116B.

Referring to fig. 3A and 3B, fig. 3A is a front view schematically illustrating a wearing part 110 of an intelligent sports wear 100C according to a third embodiment of the present invention, and fig. 3B is a front view schematically illustrating an intelligent sports wear 100C according to a third embodiment of the present invention. The structure of the sensing component 120 of the intelligent sports garment 100C can be the same as that of the first embodiment, and is not described herein again. At least one difference between the present embodiment and the first embodiment is that the clothing body 112 of the present embodiment may include a dot structure 118.

The dot structure 118 may be located at the front breast area R1 of the garment body 112, and the size of the dot structure 118 and the size of each of the holes 114 may be the same, so that the appearance thereof may present similar visual effects. In this regard, the dot structures 118 may be designed in a solid and patterned fashion, or may be hollow to present a circular open pattern. Therefore, when the user only needs to wear the garment but does not need to measure the physiological signals, the appearance of the added dot structures 118 is similar to the appearance of the holes 114, so that the abrupt feeling caused by the holes 114 in the visual effect can be avoided, and the visual aesthetic feeling of the intelligent sports garment 100C is improved. On the other hand, the dot structures 118 may be arranged to form a pattern or font with the holes 114, thereby reducing the presence of the holes 114 and further enhancing the visual aesthetics of the intelligent sports garment 100C. Furthermore, the dot structure 118 may be disposed in a position sufficient that it does not interfere with the placement of the physiological signal sensor 140.

Referring to fig. 4, fig. 4 is a rear view schematically illustrating an intelligent sports wear 100D according to a fourth embodiment of the present invention. At least one difference between the present embodiment and the first embodiment is that the connecting members 116A and 116B of the present embodiment are located outside the front chest area of the garment body 112 (e.g., the front chest area R1 of fig. 1A), so that the elastic band 122 of the sensing component 120 can extend from inside the front chest area of the garment body 112 to outside the front chest area of the garment body 112.

Specifically, garment body 112 of wearing part 110 may also have a back section R2, with a front chest section (e.g., front chest section R1 of fig. 1A) and back section R2 opposite one another. Here, the "back region" means that the back position of the user is covered by the back region R2 of the garment body 112 when the user wears the garment body 112. Connectors 116A and 116B are located within back region R2.

When the first end E1 and the second end E2 of the elastic band 122 are connected to the connecting members 116A and 116B, the first end E1 and the second end E2 of the elastic band 122 are connected to the connecting members 116A and 116B in the back region R2, and other components (such as the sensing electrode 126 of fig. 1B or fig. 1C) disposed on the elastic band 122 are still in the front chest region. Similarly, the first end E1 and the second end E2 of the elastic band 122 are detachably connected to the connectors 116A and 116B. In addition, the distance D between the connecting members 116A and 116B is less than the length of the elastic band 122, and the term "length of the elastic band" refers to the length from the first end E1 of the elastic band 122 through the prothorax region to the second end E2 of the elastic band 122. With such a configuration, the covering area and the covering strength of the elastic band 122 for the user wearing the intelligent sports garment 100D can be increased, so as to improve the accuracy of acquiring the electric potential of the user.

To sum up, the utility model discloses an intelligent sports wear can be divided into wearing parts and sensing parts, and wherein wearing parts contains clothing body and the last subassembly thereof, and sensing parts contains elastic webbing, sensing electrode and the last subassembly thereof. The sensing member is detachably connectable to the wearing member. When the user has the requirement of measuring physiological signals, the wearing part and the sensing part can be combined together, so that the intelligent sports coat can collect the electric potential of the user, and the corresponding physiological signals can be generated subsequently. When the user only has wearing requirements but does not have the requirement of measuring the physiological signal, the sensing component can be detached from the wearing component, so that the wearing comfort is improved.

Although the present invention has been described with reference to the above embodiments, it should be understood that various changes and modifications can be made therein by those skilled in the art without departing from the spirit and scope of the invention.

[ notation ] to show

100A, 100B, 100C and 100D intelligent sports wear

110 wearing parts

112 clothes body

114 holes

116A, 116B connecting piece

117A cloth cover

117B buckle

117C rack

118 dot structure

120 sensing component

122 elastic band

124 connecting terminal

126 sensing electrode

128 routing

130 first anti-slip structure

132 second anti-slip structure

140 physiological signal sensor

142 pin

A1 first Block

A2 second Block

C1 first connection end

C2 second connecting end

Distance D

E1 first end

E2 second end

I sewing thread

R1 anterior chest block

R2 back block

S1 first surface.

Claims (11)

1. An intelligent sports garment, comprising:

a clothes body having an inner surface and a plurality of holes;

a pair of connecting pieces arranged on the inner surface of the clothes body, and the holes are positioned between the pair of connecting pieces;

an elastic band having a first end and a second end opposite to each other, wherein the first end and the second end are detachably connected to the pair of connectors, respectively, and the elastic band further has a first surface facing the holes and a second surface facing away from the first surface;

a plurality of connecting terminals arranged on the first surface of the elastic belt and respectively penetrating through the holes;

a plurality of sensing electrodes disposed on the second surface of the elastic band; and

a plurality of wires electrically connected to the connection terminals from the sensing electrodes.

2. The intelligent sports garment according to claim 1, wherein the garment body has a front chest area, and the holes are located in the front chest area of the garment body.

3. The intelligent sports garment according to claim 2, wherein the garment body comprises at least one dot structure located in the chest area, and the size of the dot structure is the same as the size of each of the holes.

4. The intelligent sports garment according to claim 1, wherein the distance between the pair of connectors is greater than the length of the elastic band.

5. The intelligent sports garment according to claim 1, wherein the garment body has a front chest area and a back area opposite to each other, the pair of connecting members are located in the back area, and the distance between the pair of connecting members is less than the length of the elastic band.

6. The intelligent sports garment according to claim 1, wherein the elastic band comprises at least one first anti-slip structure and at least one second anti-slip structure respectively disposed on the first surface and the second surface, and the first anti-slip structure and the second anti-slip structure are overlapped with each other.

7. The intelligent sports garment according to claim 1, wherein the pair of connecting members are a pair of sheet structures protruding from the inner surface of the garment body.

8. The intelligent sports garment according to claim 1, wherein each of the pair of connecting members is a strip having a first connecting end and a second connecting end opposite to each other, and the first connecting end and the second connecting end are connected to the inner surface of the garment body.

9. The intelligent sports garment according to claim 1, further comprising a physiological signal sensor disposed on the garment body and covering the holes such that the garment body is sandwiched between the elastic band and the physiological signal sensor, wherein the physiological signal sensor comprises a plurality of pins, and the pins are respectively connected to the connection terminals passing through the holes and electrically connected to the sensing electrodes through the connection terminals.

10. The intelligent sports garment according to claim 9, wherein the gap between the elastic band and the physiological signal sensor is sufficient to allow the garment body to deform due to the clamping force from the elastic band and the physiological signal sensor.

11. The intelligent sports garment according to claim 1, wherein the pair of connectors each comprise a cloth cover and a buckle, the cloth cover is fixed to the inner surface of the garment body and covers a portion of the buckle such that the buckle is flipped over relative to the cloth cover, wherein the buckle has a bracket extending into and through the first end or the second end of the elastic band.

Images