CN214802419U - Sports wear - Google Patents

Abstract

The utility model provides a sports wear, which comprises a cloth body, a circuit layer, a main control module and a plurality of sensing components. The circuit layer is configured on one surface of the cloth body. The main control module comprises a circuit board, a processing unit and a wireless transceiving unit. The circuit board is arranged on the cloth body, the processing unit is arranged on and electrically connected to the circuit board, and the wireless transceiver unit is arranged on the circuit board and electrically connected to the processing unit through the circuit board. The sensing components are arranged on the cloth body and are electrically connected to the processing unit through the circuit layer and the circuit board. Each sensing assembly includes an inertia measurement unit.

Description

Sports wear

Technical Field

The present invention relates to an exercise garment, and more particularly, to an exercise garment with a sensing assembly.

Background

The awareness of modern people to build body to promote physical health is becoming more and more popular. In addition to fitness (e.g., weight training, aerobic exercise, cycling, jogging, etc.) and clothing (e.g., whether to absorb moisture and sweat, whether to be elastic, whether to wash and resist washing, etc.), modern people also place importance on proper posture during exercise, the course of exercise, the effects of exercise, and so on. Therefore, how to sense the relevant data of the body of the exerciser during the exercise process as the basis for subsequent analysis or current improvement becomes a relevant and important issue.

SUMMERY OF THE UTILITY MODEL

It is an object of the present invention to provide an exercise device with a sensing assembly, which is suitable for detecting the data related to the body movement of the user.

The utility model provides a sports wear, which comprises a cloth body, a circuit layer, a main control module and a plurality of sensing components. The circuit layer is configured on one surface of the cloth body. The main control module comprises a circuit board, a processing unit and a wireless transceiving unit. The circuit board is arranged on the cloth body, the processing unit is arranged on and electrically connected to the circuit board, and the wireless transceiver unit is arranged on the circuit board and electrically connected to the processing unit through the circuit board. The sensing components are arranged on the cloth body and are electrically connected to the processing unit through the circuit layer and the circuit board. Each sensing assembly includes an inertia measurement unit.

In an embodiment of the present invention, the circuit layer includes a plurality of conductive traces, and each of the sensing elements is electrically connected to at least one of the conductive traces.

In an embodiment of the present invention, one of the sensing elements further includes a myoelectric signal sensing unit or an electric muscle stimulation unit.

In one embodiment of the present invention, the sports garment is a sports coat, and the main control module is disposed at a front chest portion of the sports coat.

In an embodiment of the present invention, one of the sensing elements is disposed on a hand portion of the sports coat, another of the sensing elements is disposed on a back portion of the sports coat, and another of the sensing elements is disposed on a front portion of the sports coat.

In an embodiment of the present invention, the main control module further includes a heartbeat measurement unit disposed on the circuit board and electrically connected to the processing unit via the circuit board.

In one embodiment of the present invention, the sports wear is a pair of sports pants, and the main control module is disposed at a rear hip portion of the pair of sports pants.

In an embodiment of the present invention, one of the sensing elements is disposed at a thigh portion of the sports pants, and the other of the sensing elements is disposed at a shank portion of the sports pants.

Drawings

Fig. 1 shows a schematic front view of a sports garment according to a first embodiment of the invention.

Fig. 2 shows a rear view of the sports garment of fig. 1.

Fig. 3 shows a schematic front view of a sports garment according to a second embodiment of the invention.

Fig. 4 shows a rear view of the sports garment of fig. 3.

Detailed Description

[ first embodiment ]

Fig. 1 shows a schematic front view of a sports garment according to a first embodiment of the invention. Fig. 2 shows a rear view of the sports garment of fig. 1. Referring to fig. 1 and 2, a sports garment 200 (e.g., a sports coat) according to a first embodiment includes a cloth body 210, a circuit layer 220, a main control module 230, and a plurality of sensing elements 240. The cloth body 210 of the athletic garment 200, such as a sports coat, may include a front chest portion 212, an arm portion 214 (which may include a left arm portion 214a and a right arm portion 214b), a back portion 216 (which may include a back upper back portion 216a and a back lower back portion 216b), and a front abdominal portion 218. The circuit layer 220 is disposed on an inner surface of the fabric body 210, and the circuit layer 220 may include a plurality of printed conductive traces 222 extending on an inner surface of the fabric body 210.

The main control module 230 can be disposed on an outer surface 212a of the cloth body 210 (which is opposite to the inner surface of the cloth body 210) and located at the chest portion 212. The main control module 230 includes a circuit board 232, a processing unit 234 and a wireless transceiving unit 236. The circuit board 232 is disposed on the outer surface 212a of the fabric body 210, the processing unit 234 is disposed on and electrically connected to the circuit board 232, and the wireless transceiver unit 236 is disposed on the circuit board 232 and electrically connected to the processing unit 234 via the circuit board 232. In addition, the main control module 230 of the present embodiment may include a heartbeat measurement unit 238 disposed on the circuit board 232 and electrically connected to the processing unit 234 through the circuit board 232. The heartbeat measurement unit 238 can be electrically connected to at least one corresponding pad 224 (which is included in the circuit layer 220 and disposed on the inner surface of the cloth body 210) by a corresponding printed conductive trace 222.

The sensing elements 240 are disposed on the outer surface 212a of the fabric body 210 and electrically connected to the processing unit 234 through at least one of the printed conductive traces 222 of the circuit layer 220 and the circuit board 232. Each sensing element 240 includes an inertial measurement unit 242. Some of the sensing elements 240 are disposed on the arm portion 214 of the cloth body 210, other sensing elements 240 are disposed on the back portion 216 of the cloth body 210, and still other sensing elements 240 are disposed on the front portion 218 of the cloth body 210.

In the present embodiment, each of the sensing elements 240 disposed on the back, lower and back portions 216b of the cloth body 210 and the sensing elements 240 disposed on the front portion 218 of the cloth body 210 may include an electric muscle stimulation unit 244 electrically connected to the corresponding at least one pad 226 (which is included in the circuit layer 220 and disposed on the inner surface of the cloth body 210) by the corresponding printed circuit trace 222.

The inertia measurement unit 242 of each sensing device 240 of the present embodiment has functions of sensing motion posture, acceleration, motion, motion track, angular acceleration, etc. During the exercise process of the user wearing the sports garment 200, the information sensed by each of the inertia measurement units 242 can be transmitted to the processing unit 234 of the main control module 230 on the chest portion 212 of the sports garment 200 through a microprocessor 246 of the corresponding sensing element 240 and the corresponding printed circuit traces 222 of the circuit layer 220, and the processing unit 234 can integrate the sensed information and wirelessly transmit the integrated information to an application program in an external device (such as a mobile phone or a tablet, but not shown) through the wireless transceiver unit 236. The application program of the external device can transmit the electrical stimulation signal to the electrical muscle stimulation unit 244 of the designated sensing element 240 through the wireless transceiver unit 236, the processing unit 234 and the corresponding printed conductive trace 222 in the circuit layer 220 according to the received information, so as to correct or adjust the action of the user in real time. In addition, the heartbeat measurement unit 238 of the host module 230 can measure the heartbeat of the user in real time.

In another embodiment of the present invention, the electric muscle stimulation unit 244 of each of the sensing elements 240 disposed on the back lower back portion 216b of the cloth body 210 and the sensing elements 240 disposed on the front abdominal portion 218 of the cloth body 210 may be replaced by an electromyographic signal sensing unit (not shown), and each of the other sensing elements 240 may also include an electromyographic signal sensing unit according to design requirements. Therefore, in this alternative embodiment, the electromyographic signal sensing unit of each sensing element 240 can sense the electrical signal generated by the corresponding muscle of the user wearing the sports garment 200, and transmit the electrical signal to the processing unit 234 of the main control module 230 on the front chest portion 212 of the sports garment 200 via the microprocessor 246 of the corresponding sensing element 240 and the corresponding printed circuit 222 of the circuit layer 220.

[ second embodiment ]

Fig. 3 shows a schematic front view of a sports garment according to a second embodiment of the invention. Fig. 4 shows a rear view of the sports garment of fig. 3. Referring to fig. 3 and 4, the sportswear 300 of the second embodiment is, for example, a pair of sports pants, and the cloth body 310 of the sportswear 300, for example, a pair of sports pants, may include a back hip portion 312, a thigh portion 314 (which may include a left thigh portion 314a and a right thigh portion 314b), and a shank portion 316 (which may include a left shank portion 316a and a right shank portion 316 b).

The main control module 330 of the second embodiment can be disposed on an outer surface 312a of the cloth body 310 (which is opposite to the inner surface of the cloth body 310) and located at the hip part 312. The sensing elements 340 are disposed on the outer surface 312a of the fabric body 310 and electrically connected to the processing unit 334 through at least one of the printed conductive traces 322 of the circuit layer 320 and the circuit board 332. The wireless transceiver 336 is disposed on the circuit board 332 and electrically connected to the processing unit 334 through the circuit board 332.

Each sensing element 340 includes an inertial measurement unit 342. Some of the sensing elements 340 are disposed on the thigh portion 314 of the cloth body 310, and other sensing elements 240 are disposed on the shank portion 316 of the cloth body 310. In the present embodiment, each of the sensing elements 340 disposed on the thigh portion 314 of the cloth body 310 may include an electric muscle stimulation unit 344.

In another embodiment of the present invention, the electric muscle stimulation unit 344 of each of the sensing elements 340 disposed on the thigh portion 314 of the cloth body 310 can be replaced by an electromyographic signal sensing unit (not shown), and each of the other sensing elements 340 can also include an electromyographic signal sensing unit according to design requirements.

Based on the above, the sports wear of the embodiment of the present invention has at least one of the following advantages. The utility model discloses sports wear has the sensing subassembly that contains inertial measurement unit, and the relevant data of the user's of wearing sports wear health action when can real-time detection sports fitness.

[ notation ] to show

200. 300 sports wear

210. 310 cloth body

212 chest portion

212a, 312a outer surface

214 arm part

214a left arm part

214b right arm part

216 back part

216a back upper back part

216b rear lower back part

218 front abdominal part

220. 320 circuit layer

224. 226 connecting pad

222. 322 printed conductive traces

230 main control module

232. 332 circuit board

234. 334 processing unit

236. 336 wireless receiving and transmitting unit

238 heartbeat measuring unit

240. 340 sensing assembly

242. 342 inertia measuring unit

244. 344 electric muscle stimulation unit

246 microprocessor

312 posterior hip part

314 thigh part

314a left thigh section

314b right thigh section

316 shank portion

316a left lower leg portion

316b right calf portion.

Claims (8)

1. An athletic garment, comprising:

a cloth body;

a circuit layer configured on one surface of the cloth body;

a host module, comprising:

a circuit board disposed on the cloth body;

a processing unit configured and electrically connected to the circuit board; and

a wireless receiving and transmitting unit which is configured on the circuit board and is electrically connected to the processing unit through the circuit board; and

and a plurality of sensing components which are arranged on the cloth body and are electrically connected to the processing unit through the circuit layer and the circuit board, wherein each sensing component comprises an inertia measuring unit.

2. The exercise apparatus of claim 1, wherein the circuit layer comprises a plurality of conductive traces, and each of the sensing elements is electrically connected to at least one of the plurality of conductive traces.

3. Sports garment according to claim 1 or 2, wherein one of the sensing elements further comprises an electromyographic signal sensing unit or an electrical muscle stimulation unit.

4. The athletic garment of claim 1 or 2, wherein the athletic garment is an athletic jacket, and wherein the master control module is disposed on a front chest portion of the athletic jacket.

5. The athletic garment of claim 4, wherein one of the plurality of sensing elements is disposed on a hand arm portion of the athletic garment, another of the plurality of sensing elements is disposed on a back portion of the athletic garment, and another of the plurality of sensing elements is disposed on a front abdominal portion of the athletic garment.

6. The exercise apparatus of claim 4, wherein the main control module further comprises a heartbeat measurement unit disposed on the circuit board and electrically connected to the processing unit via the circuit board.

7. The athletic garment of claim 1 or 2, wherein the athletic garment is an athletic pant, wherein the master control module is disposed on a back hip portion of the athletic pant.

8. The athletic garment of claim 7, wherein one of the plurality of sensing elements is disposed on a thigh portion of the athletic pant and another of the plurality of sensing elements is disposed on a calf portion of the athletic pant.

Images