CN215025889U - Intelligent running socks suitable for infants in growth period - Google Patents

Abstract

The utility model discloses an intelligence socks of running suitable for growth period infant, including knee socks of running, intellectual detection system device and intelligent communication device. The intelligent detection device and the intelligent communication device are arranged on the running socks passing the knees; the intelligent detection device transmits the detection data to the intelligent communication device, and sends the detection data to the terminal equipment for processing through the intelligent communication device. The utility model discloses can be used to carry out real-time supervision to the infant's of growth period running posture and the muscle condition of exerting oneself when running, utilize intelligent communication device to send the data that detect simultaneously for terminal equipment through wireless transmission and carry out data analysis to reach analysis conclusion, guide suggestion and training suggestion and show on terminal equipment, further richened the function of the socks of running that are applicable to infant of growth period.

Description

Intelligent running socks suitable for infants in growth period

Technical Field

The utility model relates to an infant's exerciser field, concretely relates to socks of running of intelligence suitable for growth period infant.

Background

The body of the infant in 30-36 months is in the growth and development stage, and proper physical training can promote the height to increase, train the limbs of the infant, increase the muscle strength, promote the cardio-pulmonary function, prevent diseases and keep the mental health. Running is a good exercise mode, and not only can strength the body strength of a user, but also can exercise the balance ability of the infant. However, infants are not suitable for running quickly and have weak ability to balance, and may fall and be injured during running. Currently, running socks for infants in a growth period on the market only provide a protection function for preventing injuries during running and falling, but do not have a function of monitoring wrong running postures and muscle exertion conditions of the infants in real time. Therefore, in order to ensure that the guardian can better understand the running posture and the muscle exertion condition of the infant, correct the running error actions of the infant in real time, make a targeted muscle training plan and prevent sports injuries, it is important to identify the running actions of the infant and detect and evaluate the muscle capacity.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the existing running socks for the infants in the growth period lack the function of monitoring the running habit of the infants, and the purpose is to provide the intelligent running socks suitable for the infants in the growth period, so that the running posture and the muscle exertion condition of the infants in the growth period can be monitored in real time.

The utility model discloses a following technical scheme realizes:

an intelligent running sock suitable for infants in a growth period comprises a knee-over running sock, an intelligent detection device and an intelligent communication device. The intelligent detection device and the intelligent communication device are arranged on the running socks passing the knees; the intelligent detection device is used for detecting the running state of a user, transmitting detection data to the intelligent communication device, and sending the detection data to the terminal equipment for processing through the intelligent communication device.

The utility model discloses compare in current socks of running to the infant in growth stage, its innovation point lies in: the intelligent detection device is arranged on the running socks and used for monitoring the running postures of the children in the growth period and the muscle exertion condition during running in real time, meanwhile, the intelligent communication device is used for sending the detected data to the terminal equipment for data analysis through wireless transmission, and the analysis conclusion, the guidance suggestion and the training suggestion are obtained and displayed on the terminal equipment, so that the functions of the running socks suitable for the children in the growth period are further enriched.

As right the utility model discloses a further description, intellectual detection system device includes sole pressure sensor, ankle pressure sensor and surface electromyography. The surface electromyograph is arranged at the inner side of the position of the lower leg of the knee-passing running sock and is used for detecting the force exertion condition of leg muscles of an infant in the running process.

As a further description of the present invention, the sole pressure sensor includes a forefoot pressure sensing portion and a heel pressure sensing portion.

As a further description of the present invention, the ankle pressure sensor includes an ankle inner side pressure sensor and an ankle outer side pressure sensor.

As a further description of the present invention, the surface electromyograph includes a plurality of surface electromyography patches that can be detached and installed at will.

As a further description of the present invention, the intelligent communication device includes a data wireless transmission module, a power supply module (32), a rechargeable battery and a charging interface. The data wireless transmission module is used for receiving a control signal sent by the terminal equipment and sending detection data to the terminal equipment; the power supply module is connected with the rechargeable battery, and the rechargeable battery supplies power for the intelligent detection device and the intelligent communication device.

As a further description of the present invention, the knee-over running sock is made of a material that is resilient to the skin.

As a further description of the present invention, the ankle position of the knee-over running sock is provided with a detachable ankle guard.

As a further description of the present invention, the knee position of the cross-knee running sock is provided with a detachable knee pad.

As a further description of the present invention, the kneepad is attached to the running sock over the knee by means of a magic tape.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1. the utility model can realize real-time monitoring of the running posture and muscle exertion of the infant in the growth period;

2. the utility model can obtain analysis conclusion, guidance suggestion and training suggestion according to the real-time monitoring data;

3. the utility model can provide safety protection for the children in the growth period when running.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic view of an intelligent running sock suitable for a child in a growth period according to an embodiment of the present invention.

Fig. 2 is the utility model discloses intelligent communication device schematic structure.

Reference numbers and corresponding part names in the drawings:

1-knee-passing running socks, 2-intelligent detection device, 3-intelligent communication device, 11-ankle protector, 12-knee protector, 21-sole pressure sensor, 22-ankle pressure sensor, 23-surface electromyograph, 31-data wireless transmission module, 32-power supply module, 33-rechargeable battery, 34-charging interface, 211-forefoot pressure sensing part, 212-heel pressure sensing part, 221-ankle inner side pressure sensor, 222-ankle outer side pressure sensor, 231-surface electromyography patch.

Detailed Description

To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.

Example (b):

fig. 1 is a schematic view of an intelligent running sock suitable for a child in a growth stage according to the present embodiment. As shown in the figure, the intelligent running sock comprises a knee-passing running sock 1, an intelligent detection device 2 and an intelligent communication device 3. The intelligent detection device 2 and the intelligent communication device 3 are both arranged on the running socks 1 passing the knees, detection data are transmitted to the intelligent communication device through the intelligent detection device, and the detection data are sent to the terminal equipment through the intelligent communication device to be processed.

Wherein, knee-crossing running socks 1 are made by elasticity material next to the shin, can adjust according to different suitable age brackets in order to make its concrete length on the one hand, and on the other hand adopts elasticity material next to the shin also to be favorable to intelligent detection device 2 can be laminated with the human body more closely to improve the accuracy that detects. In addition, the detachable knee pad 12 is adhered to the knee of the running sock 1 passing through the knee through magic tape, so that the knee pad 12 can protect the knee of the infant, the tightness can be adjusted by the knee pad 12 to adapt to different sizes, and meanwhile, the running sock is prevented from sliding off in the process of movement; the left and the right of the ankle position of the knee-passing running sock 1 are respectively provided with a detachable ankle guard 11 which also plays a role in protection.

The smart detection device 2 includes a sole pressure sensor 21, an ankle pressure sensor 22, and a surface electromyograph 23.

Wherein, the sole pressure sensor 21 is a flexible pressure sensing layer, which is arranged at the inner side of the bottom of the running sock 1 passing the knee. When the pressure value born by the sole pressure sensor 21 reaches a set threshold value every time, the step number (the counting accumulation of the two insoles) is recorded once, the data is transmitted to the intelligent communication device 3, the intelligent communication device 3 sends the data to the terminal equipment in a wireless transmission mode, and the step frequency is calculated according to the timing result and the step number. It should be noted that the sole sensor 21 is divided into a forefoot pressure sensing portion 211 and a heel pressure sensing portion 212, and is used for analyzing the running posture of the user, that is, when the forefoot of the user touches the ground and the pressure value received by the forefoot pressure sensing portion 211 reaches a threshold value, the analysis determines that the forefoot touches the ground; when the heel of the user touches the ground and the pressure value received by the heel pressure sensing portion 212 reaches the threshold value, the analysis indicates that the heel touches the ground.

The ankle pressure sensor 22 is disposed at the inner side of the ankle of the over-knee running sock 1, and is divided into an ankle inner side pressure sensor 221 and an ankle outer side pressure sensor 222, which are flexible pressure sensing layers. Ankle pressure sensor 22 is used to analyze whether a user has everted or inverted feet while running, and whether or not a user has or is predisposed to bend his or her feet. That is, when the pressure value received by any one of the ankle inner side pressure sensor 221 and the ankle outer side pressure sensor 222 reaches the set threshold value, the detected data is transmitted to the intelligent communication device 3, and then the intelligent communication device 3 transmits the data to the terminal device in a wireless transmission manner.

The surface electromyograph 23 comprises 10 surface electromyography patches 231 which are dispersedly arranged on the inner side of the shank part of the over-knee running sock 1, can be ensured to be tightly attached to the skin of a user, and is used for detecting the force generation condition of leg muscles of an infant in the running process. Specifically, when the user runs, the 10 surface myoelectric patch 231 simultaneously checks the exertion of the muscle of the lower leg of the user, and when the detected value reaches a set threshold value, the surface myoelectric patch 231 is applied. In addition, the 10 surface myoelectric patches 231 can be detached and installed at will, for example, by adhering with a special adhesive tape (optionally double-sided adhesive tape) which is easy to tear, and the myoelectric patches can be installed at appropriate positions according to actual conditions.

The intelligent communication device 3 is arranged on the outer side of the lower leg part of the knee-passing running sock 1, is connected with the sole sensor 21, the ankle sensor 22 and the surface electromyograph 23 of the intelligent detection device 2, and comprises a data wireless transmission module 31, a power supply module 32, a rechargeable battery 33 and a charging interface 34. Please refer to fig. 2 for a detailed structure of the intelligent communication. The data wireless transmission module 31 is configured to receive a control signal sent by the terminal device, and send detection data to the terminal device; the power supply module 32 is connected with a rechargeable battery 33; the rechargeable battery 33 supplies power to the smart detection device 2 and the smart communication device 3.

When a user wears the intelligent running socks to exercise, the terminal equipment controls each device in the intelligent running socks to work under remote control, when the user runs, the intelligent detection device 2 transmits detected detection data from the sole sensor 21, the ankle sensor 22 and the surface electromyograph 23 to the intelligent communication device 3, and then the intelligent communication device 3 transmits the received data to the terminal equipment for processing through a wireless transmission mode.

The specific processing mode of the terminal equipment is as follows: when pressure value data from the sole pressure sensor 21 is received, calculating step frequency through a timing result and the step number, displaying the step number and the step frequency on a display module, simultaneously forming a relevant pressure distribution diagram according to the received pressure value data in the whole process, determining whether the foot eversion and the foot inversion occur after analysis, and displaying the times of the foot eversion and the foot eversion respectively; when pressure value data from the ankle pressure sensor 22 is received, whether a foot spraining condition or a foot spraining tendency occurs is judged according to the difference of the pressure values of the left and right pressure sensors of the ankle (the difference reaches a certain value and the foot spraining tendency is determined). Displaying the number of spraining tendencies of the feet; when receiving the myoelectric value from the surface electromyograph 23, the myoelectric value is compared with the standard data for analysis, the muscle use condition of the user in the running process is analyzed, and a relevant training suggestion is given for the muscle part with insufficient training.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. An intelligent running sock suitable for a growing-period infant, comprising: run socks (1), intellectual detection system device (2) and intelligent communication device (3) cross the knee, intellectual detection system device (2) with intelligent communication device (3) set up on crossing knee socks (1) of running, intellectual detection system device (2) are used for detecting user's running state to with detection data transfer give intelligent communication device (3), intelligent communication device (3) are used for handling detection data transmission for terminal equipment.

2. An intelligent running sock applicable to infants in a growth period, according to claim 1, wherein the intelligent detection device (2) comprises a sole pressure sensor (21), an ankle pressure sensor (22) and a surface electromyograph (23), the surface electromyograph (23) is arranged at the inner side of the position of the lower leg of the knee-passing running sock (1) for detecting the leg muscle exertion condition of the infant during running.

3. The intelligent running sock applicable to the infant in the growing period, according to claim 2, wherein the sole pressure sensor (21) includes a forefoot pressure sensing portion (211) and a heel pressure sensing portion (212).

4. The intelligent running sock applicable to the infants in the growing period, according to any one of claims 2 or 3, wherein the ankle pressure sensor (22) comprises a medial ankle pressure sensor (221) and a lateral ankle pressure sensor (222).

5. An intelligent running sock applicable to a growing-period infant, according to claim 2 or 3, wherein the surface electromyograph (23) comprises a plurality of surface electromyographic patches (231) that are detachable and attachable at will.

6. The intelligent running sock applicable to the infants in the growing period according to any one of claims 1 to 3, wherein the intelligent communication device (3) comprises a data wireless transmission module (31), a power supply module (32), a rechargeable battery (33) and a charging interface (34), the data wireless transmission module (31) is used for receiving a control signal sent by a terminal device and sending detection data to the terminal device; the power supply module (32) is connected with the rechargeable battery (33), and the rechargeable battery (33) supplies power to the intelligent detection device (2) and the intelligent communication device (3).

7. An intelligent running sock suitable for a growing-age infant, according to any of claims 1-3, wherein the over-knee running sock (1) is made of a form-fitting elastic material.

8. An intelligent running sock suitable for a growing-age infant, according to any of claims 1-3, wherein the ankle position of the over-knee running sock (1) is provided with a detachable ankle guard (11).

9. An intelligent running sock suitable for a growing-age child according to any one of claims 1 to 3, wherein the knee position of the over-knee running sock (1) is provided with a detachable knee brace (12).

10. Intelligent running sock suitable for children of growing age, according to claim 9, characterized in that the knee pads (12) are glued on the over-knee running sock (1) by means of a magic patch.

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