CN211833113U

CN211833113U - Wearable detection equipment for insoles

Info

Publication number: CN211833113U
Application number: CN202020164663.8U
Authority: CN
Inventors: 黄继伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-02-12
Filing date: 2020-02-12
Publication date: 2020-11-03
Anticipated expiration: 2030-02-12

Abstract

The utility model discloses a wearing formula check out test set for shoe-pad, including the shoe-pad body, the shoe-pad body includes elastic layer, supporting layer and skid resistant course, two preceding pressure sensor and two back pressure sensor are installed to the symmetry in the supporting layer, the mid-mounting of supporting layer has control chip, be equipped with the cavity between elastic layer and the supporting layer, the symmetry is provided with two preceding supporter and two back supporters in the cavity, and the middle part of cavity is provided with strutting arrangement. The utility model discloses the novel structure can automated inspection the different regional pressure that receives of shoe-pad to judge whether the appearance of walking of wearing person is correct and according to the thickness of judging the different positions of result automatic adjustment shoe-pad, be applicable to most consumers.

Description

Wearable detection equipment for insoles

Technical Field

The utility model relates to a wearing formula check out test set technical field especially relates to a wearing formula check out test set for shoe-pad.

Background

Since ancient times, insoles play an indispensable role in Chinese folk custom, ancient people ask blessings to relatives or ideal to the lives by embroidering on the insoles, in modern life, the function of the insoles is weakened, the functions of the insoles in health and health care are enhanced, the basic functions of deodorization and sweat absorption can be met, and besides, products such as heightening insoles, medicinal insoles, heating insoles, magnetic therapy insoles and the like are produced by people, so that the requirements of people are greatly met.

The correction shoe-pad also belongs to one kind of shoe-pad, orthopedic shoe-pad is according to the biomechanics principle, make with normal human mechanics structure, set for different heel enstrophe angles in order to balance different functional motion centroids, the improper foot appearance or walk the appearance is improved in the help, but current correction shoe-pad angle has been set for when producing, and different crowds' foot deformation degree is different, the demand in market can not be satisfied to fixed angle apparently, state when how automated inspection different people walk and with the angle that this control correction shoe-pad become the problem that needs to solve urgently, for solving above-mentioned problem, we provide a wearing formula check out test set for the shoe-pad.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a wearable detection device for insoles.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a wearing formula check out test set for shoe-pad, includes the shoe-pad body, the shoe-pad body includes elastic layer, supporting layer and skid resistant course, pressure sensor and two back pressure sensor before two are installed to the supporting layer internal symmetry, the mid-mounting of supporting layer has control chip, be equipped with the cavity between elastic layer and the supporting layer, the cavity internal symmetry is provided with two preceding supporter and two back supporters, and the middle part of cavity is provided with strutting arrangement.

Preferably, each front support and each rear support are filled with an electric expansion body, and each electric expansion body is electrically connected with the control chip.

Preferably, the supporting device comprises a protective layer fixedly woven above the supporting layer, a plurality of supporting pieces are symmetrically arranged between the protective layer and the elastic layer, and each supporting piece is of an elastic structure.

Preferably, a power generation device is fixedly arranged between the protective layer and the supporting layer, and the power generation device comprises piezoelectric ceramics, a capacitor, a micro battery, a rectification circuit and a voltage-stabilizing charging circuit.

Preferably, each of said front and rear supports is located directly above the corresponding front and rear pressure sensors.

The utility model has the advantages that:

1. the front pressure sensor and the rear pressure sensor are arranged to select proper sensor models according to different shapes and different stress sizes of the sole and the heel, the shapes of the front supporting body and the rear supporting body which correspond to the sensor models are different, so that the insole is comfortable to use and feel, the control chip receives signals sent by the pressure sensors and compares the signals with pressure values of normal people when walking, and if deviation exceeds a certain range, the walking posture is judged to be incorrect, so that correction is performed.

2. The electric expansion materials filled in the front support body and the rear support body can expand in volume after being electrified, and have different expansion degrees according to the magnitude of current, so that when the control chip controls the current led into the support body, the height of the electric expansion materials can also change correspondingly, the thicknesses of the left side, the right side, the front side and the rear side of the insole are changed, and the walking posture correcting effect is achieved.

3. Through setting up power generation facility, the inside piezoceramics of power generation facility can be with the mechanical energy conversion of when vibrations of shoe-pad electric energy, rethread rectifier circuit makes the alternating current become the direct current and charge for the electric capacity to this obtains stable direct current voltage, thereby for control chip and pressure sensor power supply.

To sum up, the utility model discloses novel structure can the automated inspection shoe-pad different regions receive the pressure to judge whether the appearance of walking of wearing person is correct and according to the thickness of judging the different positions of result automatic adjustment shoe-pad, be applicable to most consumers.

Drawings

Fig. 1 is a schematic structural view of a wearable detection device for an insole according to the present invention;

fig. 2 is a schematic structural diagram of a supporting device and a supporting body part in the wearable detecting apparatus for an insole provided by the present invention.

In the figure: 1 insole body, 2 preceding pressure sensors, 3 preceding supporter, 4 back pressure sensors, 5 back supporter, 6 electric expansion body, 7 protective layers, 8 power generation facility, 9 support piece, 10 elastic layer, 11 supporting layers, 12 control chip, 13 skid resistant course, 14 conducting grooves.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a wearable detection device for an insole, comprising an insole body 1, wherein the insole body 1 comprises an elastic layer 10, a supporting layer 11 and an anti-slip layer 13, the anti-slip layer 13 is positioned below the supporting layer 11 and plays a role of stabilizing and preventing slip for the insole body 1, the elastic layer 10 is positioned above the supporting layer 11, the middle part of the elastic layer 10 is arc-shaped and plays a role of supporting the arch part of a foot, two front pressure sensors 2 and two rear pressure sensors 4 are symmetrically arranged in the supporting layer 11, because the pressure applied to the sole part and the heel part is different when people walk, the models of the front pressure sensors 2 and the rear pressure sensors 4 are different, the detection is more accurate and sensitive by selecting the most suitable model, a control chip 12 is arranged in the middle part of the supporting layer 11, a conduction groove 14 is further arranged in the supporting layer 11, so that a lead is connected with each component through the conduction groove 14, a cavity is arranged between the elastic layer 10 and the supporting layer 11, two front supporting bodies 3 and two rear supporting bodies 5 are symmetrically arranged in the cavity, and a supporting device is arranged in the middle of the cavity.

The utility model discloses in, all pack in every preceding supporter 3, the back supporter 5 has the electric expansion body 6, and every electric expansion body 6 all with control chip 12 electric connection, the electric current that control chip 12 control electric expansion body 6 let in to the change of the expansion volume that makes electric expansion body 6 obtains controlling.

The supporting device comprises a protective layer 7 fixedly woven above a supporting layer 11, a plurality of supporting pieces 9 are symmetrically arranged between the protective layer 7 and an elastic layer 10, each supporting piece 9 is of an elastic structure, and the supporting pieces 9 can be, but are not limited to, springs, shock absorbing pads, polypropylene cylinders or other elastic objects and can support the arch of the foot.

The power generation device 8 is fixedly arranged between the protective layer 7 and the supporting layer 11, the power generation device 8 comprises piezoelectric ceramics, a capacitor, a micro battery, a rectification circuit and a voltage-stabilizing charging circuit, mechanical energy of vibration during walking can be converted into electric energy through the cooperation of electronic components and circuits, and the electric energy supplies power for the control chip 12 and the sensor.

Every preceding supporter 3 and back supporter 5 all are located corresponding preceding pressure sensor 2 and back pressure sensor 4 directly over, and the position of supporter should be located shoe-pad body 1 and be close the side to the edge smooth transition makes its effect of correcting the appearance of walking better.

When the utility model is used, the shoe pad body 1 is padded into shoes, the gravity of people can act on a plurality of pressure sensors when walking, so that the front pressure sensor 2 and the rear pressure sensor 4 receive pressure signals simultaneously, and the control chip 12 analyzes the pressure signals and compares the pressure signals with the pressure interval received by the shoe pad when normal people walk so as to judge whether the pressure value received by each part of the shoe pad is normal;

in the process, when people walk, the piezoelectric ceramics in the power generation device can convert mechanical energy generated by vibration of the insole into electric energy, the electric signal at the moment is an alternating current signal, so that alternating current is required to be converted into direct current through a rectification circuit, but the direct current cannot be used as a power supply, because the walking frequency of people is unstable, and the frequency of vibration is also changed at any time, the direct current is required to be used for charging a capacitor, and a stable direct current voltage is output through a voltage stabilizing charging circuit, so that the stable direct current voltage is obtained and is supplied to a micro battery, and the micro battery supplies power to the control chip 12 and each pressure sensor;

taking a front pressure sensor 2 at the sole of a foot as an example, if the pressure applied at the position is larger than the standard pressure range, the control chip 12 calculates the magnitude of the current to be connected to the corresponding electric expansion body 6 according to the difference value between the two pressures, so that the volume of the electric expansion body 6 is increased, the corresponding position of the elastic layer 10 is thickened, the foot is supported, the shape of the foot is controlled to be the same as the correct shape of the walking posture, the walking posture of people is corrected, and the harm of the bad walking posture to the bare foot bone or the hip bone is reduced.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a wearing formula check out test set for shoe-pad, includes shoe-pad body (1), its characterized in that, shoe-pad body (1) includes elastic layer (10), supporting layer (11) and skid resistant course (13), two preceding pressure sensor (2) and two back pressure sensor (4) are installed to the symmetry in supporting layer (11), the mid-mounting of supporting layer (11) has control chip (12), be equipped with the cavity between elastic layer (10) and supporting layer (11), the symmetry is provided with two preceding supporting bodies (3) and two back supporting bodies (5) in the cavity, and the middle part of cavity is provided with strutting arrangement.

2. The wearable detection device for insoles of claim 1, wherein each front support (3) and rear support (5) is filled with an electric expansion body (6), and each electric expansion body (6) is electrically connected with the control chip (12).

3. The wearable detection device for an insole according to claim 1, wherein the support means comprises a protective layer (7) fixedly woven above a support layer (11), a plurality of support members (9) are symmetrically arranged between the protective layer (7) and the elastic layer (10), and each support member (9) is of an elastic structure.

4. The wearable detection device for the insole according to claim 3, wherein a power generation device (8) is fixedly arranged between the protection layer (7) and the support layer (11), and the power generation device (8) comprises a piezoelectric ceramic, a capacitor, a micro battery, a rectifying circuit and a voltage-stabilizing charging circuit.

5. Wearable detection device for insoles, according to claim 1, wherein each of the front support (3) and rear support (5) is located directly above the corresponding front pressure sensor (2) and rear pressure sensor (4).