CN108579063B - Intelligent protection type motion of motion impact pastes cloth - Google Patents

Abstract

The invention discloses an intelligent protection type sports patch for sports impact, which comprises a patch base body made of strain rate sensitive materials, a motion sensor assembly and a microprocessor, wherein the motion sensor assembly and the microprocessor are arranged on the patch base body, the motion sensor assembly is connected with the microprocessor through a flexible circuit, and the microprocessor is wirelessly connected with a wireless external terminal. The motion patch can effectively realize motion impact intelligent protection of different parts, and can also enable an existing injured user to perform impact protection during motion. In addition, the motion patch can be matched with a wireless terminal for use, and impact force and impact deformation information received in the motion process are detected and output.

Description

Intelligent protection type motion of motion impact pastes cloth

Technical Field

The invention relates to a patch, in particular to an intelligent motion impact protection type motion patch.

Background

People do sports with strong impact, such as football, volleyball, horse jumping, jumping and the like, and accidents are caused by motion damage caused by large momentum impact on soft tissues and joints. The existing sports impact protection equipment is often large, heavy and not easy to carry, which hinders the sports performance of people when engaged in relevant sports activities.

The traditional sports patch is small in size, light in weight and portable, can relieve muscle fatigue, but does not have the function of sports impact protection.

Disclosure of Invention

In order to at least partially solve the defects of the prior art, the invention provides the sports patch with intelligent sports impact protection, when the sports patch bears high-speed large impact deformation within the strength range of a base material, the rigidity and yield stress of the base body of the patch become large, and impact energy is absorbed, so that the intelligent sports impact protection of different parts can be effectively realized, and an injured user can perform impact protection during sports. In addition, the motion patch can be matched with a wireless terminal for use, and impact force and impact deformation data received in the motion process are detected and output.

According to one aspect of the invention, the motion impact intelligent protection type motion patch comprises a patch base body made of a strain rate sensitive material, a motion sensor assembly and a microprocessor, wherein the motion sensor assembly is arranged on the patch base body and is connected with the microprocessor through a flexible circuit, and the microprocessor is wirelessly connected with a wireless external terminal.

In some embodiments, the strain rate sensitive material may be a flexible artificial viscoelastic material.

In some embodiments, the flexible artificial viscoelastic material may be rubber or a high polymer.

In some embodiments, the patch substrate may be shaped as a spindle.

In some embodiments, the motion sensor assembly may include a plurality of motion sensors, each of which is a combination of a flexible strain rate sensor, a flexible pressure sensor, and a flexible strain sensor.

In some embodiments, the plurality of motion sensors may be arranged in a spiral from the center of the motion patch outward.

In some embodiments, the plurality of motion sensors may be arranged in a bifurcation diverging from a center of the motion patch.

In some embodiments, the microprocessor may include a microprocessor chip and a wireless communication chip electrically connected to each other, the microprocessor chip is provided with a solar cell thereon, and the wireless communication chip includes a wireless transmission module for transmitting impact force and deformation information to which the motion patch is subjected during motion.

In some embodiments, the microprocessor may be disposed on a lower portion of the patch substrate.

The invention has the beneficial effects that:

(1) according to different impact states, the sport protection can be carried out adaptively. The base body of the patch adopts strain rate sensitive materials, such as artificial sticky elastic materials like rubber, high polymer and the like. The mechanical properties such as the elastic modulus, the yield stress, the energy absorption rate and the like of the matrix material can be improved along with the increase of the impact strain rate, and the reduction of the impact on a human body is facilitated.

(2) The efficiency of attenuating the kinetic impact energy acting on the human body is improved. The impact sensitivity of the base material is in nonlinear change in the whole cloth sticking plane, so that the motion impact intelligent protection type motion cloth can quickly diffuse energy to the whole cloth sticking after being impacted, and the damage of energy concentration at an impact point to a human body is avoided.

(3) The impact force and impact deformation can be monitored in real time in the motion process. The motion sensor assembly is arranged in the sticking cloth base body, the impact force and the impact deformation can be calculated by the microprocessor and transmitted to the wireless display terminal through the wireless communication chip, and the accurate recording of the motion impact data of a user is realized.

(4) Has longer service life. The microprocessor is arranged on the side edge of the cloth pasting base body, the impact force is relatively weak, the damage to the core component is reduced, and therefore the service life of the motion impact intelligent protection type motion cloth pasting is prolonged.

(5) Compared with other current motion protection devices, the motion impact intelligent protection type motion patch is light and portable in quality, solar power generation is achieved, an external motor is not needed, and motion resistance is reduced to a great extent while the damage protection effect is exerted.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings used in the description of the embodiments will be briefly described below.

Fig. 1 is a schematic view of an intelligent sports patch for protection against sports impact according to an embodiment of the present invention.

FIG. 2 is a schematic view of a sport impact intelligent protection type sport patch according to another embodiment of the present invention.

FIG. 3 is a schematic diagram of a microprocessor of the sport impact intelligent protection sport patch of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It should be apparent that the described embodiments are merely exemplary and are not intended to limit the present application.

As shown in FIGS. 1 and 2, the motion impact intelligent protection type motion patch 10 of the present invention comprises a patch base 100, a motion sensor assembly 200 and a microprocessor 300 disposed on the patch base 100, wherein the motion sensor assembly 200 and the microprocessor 300 are electrically connected by a flexible circuit.

In particular, the cloth substrate 100 is made of a strain rate sensitive material, so that the mechanical properties and the impact energy absorption rate of the substrate material are improved under the high strain rate conditions of large impact and large deformation. In some embodiments, the patch base 100 is made of an artificial viscoelastic material such as rubber, high polymer, etc., which has mechanical properties such as elastic modulus, yield stress, energy absorption rate, etc. that increase with the rate of impact strain. The strain rate sensitivity of the material is described by taking vulcanized rubber as an example, the vulcanized rubber shows strain rate sensitivity under the condition of high strain rate, namely, the elastic modulus increases along with the increase of the strain rate and is approximately in exponential change relation with the natural logarithm of the strain rate; the yield stress is very sensitive to the strain rate; the yield strain is also improved to different degrees along with the strain rate; within the yield strain, the energy absorption rate of the material is enhanced with the increase of the loading and the increase of the strain rate. In particular, the patch base 100 is made of a flexible artificial viscoelastic material to ensure the conformability of the sports patch 10.

In particular, the cloth patch base 100 is shaped like a muscle. In the example shown in fig. 1 and 2, the patch base 100 is a spindle-shaped patch base.

In particular, the sports patch 10 may be in wireless communication with an external wireless terminal. In some embodiments, the motion impact intelligent protection type motion patch 10 can be wirelessly connected with a mobile phone, and the impact force and impact deformation information during motion can be checked through the related application program of the mobile phone.

The motion sensor assembly 200 includes a plurality of motion sensors 210 distributed at different monitoring points on the patch substrate 100, each motion sensor 210 being a combination of a flexible strain rate sensor, a flexible pressure sensor, and a flexible strain sensor. The plurality of motion sensors 210 may be arranged in different distributions on the patch base 100 depending on the location of use of the motion patch 10 on the user. In some embodiments, the motion sensor assembly 200 is helically arranged from the center of the motion patch 10 outward, as shown in FIG. 1. In some embodiments, the motion sensor assemblies 200 are arranged diverging from the center of the motion patch outward, as shown in FIG. 2.

In some embodiments, to protect the core components (microprocessor 300), improve the life of the sports impact smart protective sports patch, it is placed away from the center of the patch. In the example shown in fig. 1 and 2, the microprocessor 300 is disposed at the lower portion of the patch base 100.

As shown in fig. 3, the microprocessor 300 includes a microprocessor chip 310 and a wireless communication chip 320 connected to each other through a flexible circuit. In some embodiments, the plurality of motion sensors 210 are electrically connected to each other in turn through a flexible circuit, and any one of the two motion sensors 210 located at the leading end is electrically connected to the micro processing chip 310 through a flexible circuit. In particular, a micro solar cell 311 is provided within the micro processing chip 310 to power the entire electrical connection of the motion patch 10. The wireless communication chip 320 includes a wireless transmitting module 321, and the wireless transmitting module 321 is wirelessly connected to an external wireless terminal and can transmit impact force and deformation information applied to the sticker substrate 100 during movement.

In actual use, the motion impact intelligent protection type motion patch with different motion sensor arrangement modes can be used according to different patch positions. In fig. 1, the motion sensor assembly 200 is spirally arranged from the center of the motion patch to the outside, and is more suitable for being attached to the large muscle group to perform motion impact protection in the process of applying force to the muscle. In fig. 2, the motion sensor assemblies 200 are arranged in a branch-diverging manner from the center of the motion patch to the outside, and are more suitable for being attached to joints to perform motion impact protection in the joint rotation process. Although the motion patch for different types of motion sensor assembly 200 arrangements have corresponding optimal locations for use, the method of use is the same for the motion impact smart protective motion patch 10.

The method of use of the sports patch 10 of the present invention is described below.

The movement patch 10 is first placed under illumination to charge the micro solar cell 311 to ensure sufficient power.

The motion patch 10 is then secured (e.g., with a strap) to the skin surface, preferably with the motion patch 10 adhered to the skin surface. If the exercise impact protection at the muscle is carried out, the exercise impact intelligent protection type exercise patch 10 shown in the figure 1 can be selected; if the sport impact protection is carried out at the joint, the sport impact intelligent protection type sport patch 10 shown in figure 2 can be selected.

During actual movement, the plurality of motion sensors 210 distributed at different monitoring points of the motion patch 10 can acquire impact force and deformation data received by the impacted part, and the data is transmitted to the micro-processing chip 310 through the flexible circuit for processing, so as to obtain the maximum value, the minimum value and the average value of the impact force and the deformation detected by the plurality of motion sensors 210 at different monitoring points. These values are transmitted to the wireless transmitting module 321 through the flexible circuit, and then transmitted to the wireless external terminal, so as to realize intelligent monitoring of the movement.

The above applications are only some embodiments of the present application. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept herein, and it is intended to cover all such modifications and variations as fall within the scope of the invention.

Claims (6)

1. An intelligent protection type sports patch for sports impact is characterized by comprising a patch base body made of strain rate sensitive materials, a motion sensor assembly and a microprocessor, wherein the motion sensor assembly is arranged on the patch base body and is connected with the microprocessor through a flexible circuit, the microprocessor is in wireless connection with a wireless external terminal,

the motion sensor assembly comprises a plurality of motion sensors, each motion sensor is a combination of a flexible strain rate sensor, a flexible pressure sensor and a flexible strain sensor,

the plurality of motion sensors are spirally arranged from the center of the motion patch to the outside or are divergently arranged from the center of the motion patch to the outside.

2. The sports cloth according to claim 1, wherein the strain rate sensitive material is a flexible artificial viscoelastic material.

3. The sports patch according to claim 2, wherein said flexible artificial viscoelastic material is a high polymer.

4. A sports patch according to any one of claims 1 to 3, wherein said patch base is shaped as a spindle.

5. The sports patch according to any one of claims 1 to 3, wherein the microprocessor comprises a microprocessor chip and a wireless communication chip electrically connected with each other, the microprocessor chip is provided with a solar cell thereon, and the wireless communication chip comprises a wireless transmission module for transmitting impact force and deformation information of the sports patch during sports.

6. A sports patch according to any one of claims 1 to 3, wherein said microprocessor is located in a lower portion of said patch base.

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