CN211241919U - Flexible sensing gait personalized adjustment correction insole - Google Patents

Abstract

The utility model relates to a flexible induction gait individualized adjustment and correction insole which is of a three-layer integrated structure and is provided with an adjusting layer, a sensing layer and a buffer layer in sequence from top to bottom, wherein a plurality of adjusting nails are uniformly distributed on the adjusting layer, a single adjusting nail is detachably arranged on the adjusting layer, and a plurality of sensors are sequentially arranged on the sensing layer from the front sole part to the rear heel part; the device comprises a sensor, a front sole, a rear heel, a front sole, a rear heel, a. The utility model discloses think about ingenious simple structure, realized the nimble adjustment of correcting the shoe-pad height to can combine pressure distribution to carry out individualized customization for one's own, the comfort level is high when guaranteeing the correction effect, and the suitability is strong.

Description

Flexible sensing gait personalized adjustment correction insole

Technical Field

The utility model belongs to the technical field of intelligence wearing equipment technique and specifically relates to a shoe-pad is corrected in individualized adjustment of flexible response gait.

Background

With the appearance of intelligent wearing equipment, the intelligent wearing equipment becomes one of the hot spots pursued in the market and technical fields, with the improvement of the life quality of people, the health concept is gradually enhanced, more people begin to pay attention to the body state of the people, and the people are more and more accustomed to timely acquiring the state data of the people through the intelligent wearing equipment.

The correcting insole is designed according to the principle of three-point mechanics of the arch of the human body, so that the transverse arch, the inner arch and the outer arch achieve the balance of three-point stress, the wrong stress is improved, abnormal foot shapes such as flat feet, foot eversion and the like are corrected, and the body posture is straightened.

In the prior art, the correction insole is usually in a fixed shape, cannot be customized according to the difference of feet, cannot follow along with the progress of correction in time, is poor in use flexibility and is poor in user experience.

SUMMERY OF THE UTILITY MODEL

The applicant aims at the defects in the prior art and provides the flexible sensing gait personalized adjustment and correction insole with a reasonable structure, so that the height of the insole can be flexibly adjusted according to individual differences, personalized customized tailoring is embodied, the foot correction effect is greatly promoted, and the user experience is greatly improved.

The utility model discloses the technical scheme who adopts as follows:

a flexible induction gait personalized adjustment and correction insole is of a three-layer integrated structure and sequentially comprises an adjustment layer, a sensing layer and a buffer layer from top to bottom, wherein a plurality of adjustment nails are uniformly distributed on the adjustment layer, a single adjustment nail is detachably mounted on the adjustment layer, and the heights of the insole from the front sole part to the rear heel part are adjusted through the heights of the adjustment nails; a plurality of sensors are sequentially installed from the front sole part to the rear heel part on the sensing layer.

As a further improvement of the above technical solution:

the adjusting layer upper surface is opened has a plurality of apertures, adjusting nail and aperture one-to-one, single adjusting nail and single aperture interference fit, the upper end protrusion in the surface of adjusting layer of single adjusting nail.

The aperture of the small hole is inwardly extended with a flange, the lower end of the adjusting nail is outwardly extended with a protruding part, the size of the protruding part is matched with that of the small hole, and the flange is positioned on the upper surface of the protruding part.

The section of the adjusting nail is in one of a circular, oval, rectangular, racetrack-shaped or polygonal structure.

The upper end of the adjusting nail is of an arc-shaped curved surface structure; or the top surface of the adjusting nail is of a plane structure, and the top plane and the side surface of the adjusting nail are in circular arc transition.

Eight to twenty sensors are installed on the sensing layer, wherein two to four sensors are arranged at the position of a toe in parallel, three to six sensors are arranged at the position of a front sole close to the toe, one to four sensors are arranged at the position of the arch of the foot, zero to two sensors are arranged between the arch of the foot and the heel, and the rest sensors are arranged at the position of the heel.

The sensor is a flexible pressure sensor; a battery is arranged at the heel part of the sensing layer and provides power for the sensor; the sensor feeds back the detection signal to an external computer.

The adjusting layer, the sensing layer and the buffer layer are formed through hot-press forming or 3D printing, and the adjusting layer, the sensing layer and the buffer layer are connected in a gluing mode.

The adjusting layer is made of one of TPU, EVA or silica gel; the material of adjusting nail is in TPU, EVA or silica gel one.

The buffer layer is the elastomer structure, and its material is PVC or cowhells.

The utility model has the advantages as follows:

the utility model has the advantages of being compact in structure and reasonable, and convenient operation, detachable has arranged individual regulation nail on through the adjustment layer, according to the data acquisition of sensor on the sensing layer, in time through the protrusion height adjustment shoe-pad of adjusting the nail in the front sole portion to the height of each position of back heel, in time with sufficient demand phase-match, in time adjust the focus of walking and then promote the gait to walk the correction of appearance, this correction shoe-pad convenient to use, the adjustment is nimble, be convenient for in time individualized customization, user experience degree has been promoted greatly, and the suitability is strong.

The utility model discloses still include following advantage:

the height of the insole is adjusted through the adjusting nails, so that different heights or slopes are formed on the surface of the insole, the pressure of the foot is further adjusted, the gait is adjusted, the foot exertion habit is corrected, and meanwhile the adjusting nails also have the function of massaging plantar acupuncture points.

The buffer layer is the elastomer, has the effect of shock attenuation buffering, waterproof and protection sensor in the sensing layer, and the buffer layer makes the foot more comfortable when walking.

The adjusting nail on the adjusting layer is detachably mounted and is mounted in the small hole of the adjusting layer in an interference mode, the flange in the hole opening of the small hole is limited in blocking mode, the adjusting nail is convenient to mount, dismount and adjust, the mounting nail is stable in use, and chips are prevented from entering the space between the adjusting nail and the inner wall of the small hole.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a sectional view of the adjusting nail of the present invention.

Fig. 3 is a schematic view of the installation of the adjusting nail according to the present invention (embodiment one).

Fig. 4 is a schematic view of the installation of the adjusting nail according to the present invention (embodiment two).

Fig. 5 is a schematic structural diagram of the sensing layer of the present invention.

Fig. 6 is a flow chart of the use principle of the present invention.

Wherein: 1. an adjustment layer; 2. a sensing layer; 3. a buffer layer; 4. adjusting the nail; 11. a small hole; 12. a flange; 21. a sensor; 41. a projection.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1, the flexible sensing gait personalized adjustment and correction insole of the embodiment is of a three-layer integrated structure, and comprises an adjustment layer 1, a sensing layer 2 and a buffer layer 3 in sequence from top to bottom, wherein a plurality of adjustment nails 4 are uniformly distributed on the adjustment layer 1, a single adjustment nail 4 is detachably mounted on the adjustment layer 1, and the height of the insole from the front sole part to the rear heel part is adjusted through the height of the adjustment nail 4; a plurality of sensors 21 are sequentially mounted on the sensing layer 2 from the front sole portion to the rear heel portion.

The height of the insole is adjusted through the adjusting nails 4, so that different heights or slopes are formed on the surface of the insole, the pressure of the foot is further adjusted, the gait is adjusted, the foot exertion habit is corrected, and meanwhile, the adjusting nails 4 have the function of massaging plantar acupuncture points.

The upper surface of the adjusting layer 1 is provided with a plurality of small holes 11, the adjusting nails 4 correspond to the small holes 11 one by one, the single adjusting nail 4 is in interference fit with the single small hole 11, and the upper end of the single adjusting nail 4 protrudes out of the surface of the adjusting layer 1, as shown in fig. 2.

As shown in fig. 3 and 4, a flange 12 extends inwards from the opening of the small hole 11, a bulge 41 extends outwards from the lower end of the adjusting nail 4, the size of the bulge 41 is matched with that of the small hole 11, and the flange 12 is positioned on the upper surface of the bulge 41.

Adjusting screw 4 on adjustment layer 1 is demountable installation, and it is installed in adjustment layer 1's aperture 11 through the interference mode to flange 12 through the 11 drill way in aperture blocks spacingly, in the dismouting adjustment of being convenient for, also makes the installation after use firm, has more prevented that the piece from getting into between adjusting screw 4 and the 11 inner walls in aperture.

The section of the adjusting nail 4 is in one of a circular, oval, rectangular, runway-shaped or polygonal structure; the adjusting nail 4 is of a cylinder structure, an elliptic cylinder structure, a cuboid structure, a runway cylinder structure or a polygon structure.

The upper end of the adjusting nail 4 is of an arc-shaped curved surface structure; or, the top surface of the adjusting nail 4 is a plane structure, and the top plane and the side surface of the adjusting nail 4 are in circular arc transition. In the first embodiment shown in fig. 3, the upper end of the adjusting nail 4 has a hemispherical or semi-ellipsoidal structure; in the second embodiment shown in fig. 4, the upper end of the adjusting nail 4 is in a tapered structure, and the top of the adjusting nail is provided with a curved surface structure for transition. The comfort level of the foot during walking is greatly improved through the curved surface structure or the arc-shaped transition.

Eight to twenty sensors 21 are installed on the sensing layer 2, wherein two to four sensors 21 are arranged at the toes in parallel, three to six sensors 21 are arranged at the front sole next to the toes, one to four sensors 21 are arranged at the arch, zero to two sensors 21 are arranged between the arch and the heel, and the rest sensors 21 are arranged at the heel.

As shown in fig. 5, eight sensors 21 are mounted on the sensing layer 2, wherein two sensors 21 are arranged in parallel at the toes, three sensors 21 are arranged at the front sole next to the toes, one sensor 21 is arranged at the arch of the foot, and the remaining two sensors 21 are arranged in parallel at the heel;

if twenty sensors 21 are arranged on the sensing layer 2, the following arrangement is possible: four sensors 21 are arranged in parallel at the toes, six sensors 21 are arranged at the forefoot next to the toes, four sensors 21 are arranged at the arch, two sensors 21 are arranged between the arch and the heel, and the remaining four sensors 21 are arranged in parallel at the heel.

The sensors 21 are designed according to the three-point mechanical principle of the arch of the human body, so that the pressure distribution of the soles during walking is effectively obtained, and the gravity center distribution of the human body is reflected; the more the sensors 21 are arranged, the more the monitoring data is, and the more detailed the pressure distribution and the gravity center distribution analysis is.

The sensor 21 is a flexible pressure sensor; a battery is arranged at the heel part of the sensing layer 2 and used for providing power for the sensor 21, and the battery is a button battery with ultrathin thickness; the sensor 21 feeds back the detection signal to an external computer.

Adjusting layer 1, sensing layer 2 and buffer layer 3 are through hot briquetting or 3D printing shaping, and the veneer is connected between adjusting layer 1, sensing layer 2 and the buffer layer 3.

The material of the adjusting layer 1 is one of TPU, EVA or silica gel; the adjusting nail 4 is made of one of TPU, EVA or silica gel.

The buffer layer 3 is of an elastomer structure and is made of PVC or cowhells; buffer layer 3 has shock attenuation buffering, waterproof and the effect of sensor 21 in the protection sensing layer 2, and buffer layer 3 makes the foot more comfortable when walking.

The utility model discloses a theory of use does, as shown in figure 6:

the eight sensors 21 on the sensing layer 2 are used for detecting the pressure of the soles during walking, the pressure distribution of the soles is obtained by an external computer and is compared with the pressure distribution during normal walking posture, and the controller is used for providing proper height adjustment;

the adjusting nails 4 with different heights are selected to be re-installed in the small holes 11 of the adjusting layer 1, and the heights of the insoles from the front sole part to the rear heel part are adjusted, namely the walking gravity center and the gait are adjusted to be matched with the requirements of the lower foot type;

and after wearing for a period of time, repeating the steps again until the gait posture is completely corrected.

The utility model is simple in operation, think about ingenious, convenient to use is nimble, has promoted the sufficient type greatly and has corrected, and the suitability is strong, and user experience is good.

The above description is for the purpose of explanation and not limitation of the invention, which is defined in the claims, and any modifications may be made within the scope of the invention.

Claims (10)

1. A flexible sensing gait personalized adjustment correction insole is characterized in that: the insole is of a three-layer integrated structure and sequentially comprises an adjusting layer (1), a sensing layer (2) and a buffer layer (3) from top to bottom, a plurality of adjusting nails (4) are uniformly distributed on the adjusting layer (1), a single adjusting nail (4) is detachably mounted on the adjusting layer (1), and the heights of the insole from the front sole part to the rear heel part are adjusted through the heights of the adjusting nails (4); a plurality of sensors (21) are sequentially arranged from the front sole part to the rear heel part on the sensing layer (2).

2. The flexible sensing gait individualized adjustment corrective insole of claim 1, further comprising: adjusting layer (1) upper surface is opened has a plurality of apertures (11), adjust nail (4) and aperture (11) one-to-one, single adjusting nail (4) and single aperture (11) interference fit, the upper end protrusion in the surface of adjusting layer (1) of single adjusting nail (4).

3. The flexible sensing gait individualized adjustment corrective insole of claim 2, further comprising: the aperture of the small hole (11) is internally provided with a flange (12) in an inward extending mode, the lower end of the adjusting nail (4) is provided with a protruding part (41) in an outward extending mode, the protruding part (41) is matched with the small hole (11) in size, and the flange (12) is located on the upper surface of the protruding part (41).

4. A flexible sensing gait individualized adjustment corrective insole as claimed in claim 1, 2 or 3, wherein: the section of the adjusting nail (4) is in one of a circular, oval, rectangular, racetrack-shaped or polygonal structure.

5. A flexible sensing gait individualized adjustment corrective insole as claimed in claim 1, 2 or 3, wherein: the upper end of the adjusting nail (4) is of an arc-shaped curved surface structure; or the top surface of the adjusting nail (4) is of a plane structure, and the top plane and the side surface of the adjusting nail (4) are in circular arc transition.

6. The flexible sensing gait individualized adjustment corrective insole of claim 1, further comprising: eight to twenty sensors (21) are installed on the sensing layer (2), wherein two to four sensors (21) are arranged at the position of a toe in parallel, three to six sensors (21) are arranged at the position of a front sole close to the toe, one to four sensors (21) are arranged at the position of the center of the foot, zero to two sensors (21) are arranged between the center of the foot and the heel, and the rest sensors (21) are arranged at the position of the heel.

7. The flexible sensing gait individualized adjustment corrective insole of claim 6, further comprising: the sensor (21) is a flexible pressure sensor; a battery is arranged at the heel part of the sensing layer (2) and provides power for the sensor (21); the sensor (21) feeds back a detection signal to an external computer.

8. The flexible sensing gait individualized adjustment corrective insole of claim 1, further comprising: adjusting layer (1), sensing layer (2) and buffer layer (3) are through hot briquetting or 3D printing shaping, glue between adjusting layer (1), sensing layer (2) and the buffer layer (3) and be connected.

9. The flexible sensing gait individualized adjustment corrective insole of claim 1, further comprising: the adjusting layer (1) is made of one of TPU, EVA or silica gel; the adjusting nail (4) is made of one of TPU, EVA or silica gel.

10. The flexible sensing gait individualized adjustment corrective insole of claim 1, further comprising: buffer layer (3) are the elastomer structure, and its material is PVC or cowhells.

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