CN213908775U - Intelligent orthopedic shoe - Google Patents

Abstract

The utility model discloses an intelligence orthopedic shoes, which comprises a vamp, be located the last sole of vamp bottom, and be located the lower sole of sole bottom, the upper portion of vamp lower part and last sole forms the bonding, form retractable through extending structure between the upper portion of lower sole and the lower part of last sole and connect, and be equipped with the holistic height of adjustable shoes and can support around the shoes between the upper end of sole and the lower extreme of last sole down, control the multidirectional adjustment mechanism of angle upset, this adjustable orthopedic shoes can be according to two low limbs inequality, the regulation of people crowd such as inside and outside turning over deformity height and angle, thereby reach the effect of correcting and walking like normal people's posture, while simple structure, and convenient operation.

Description

Intelligent orthopedic shoe

Technical Field

The utility model relates to an orthopedic shoes especially relate to an intelligent orthopedic shoes, belong to orthopedic device technical field of children.

Background

The disabled persons are also an important group of the society, caring for the disabled persons and enabling the disabled persons to live as normal persons are the responsibility and obligation of every sound and public work, among the disabled persons, the disabled persons with disabled feet occupy a large part, the disabled persons with disabled feet bring great inconvenience to walking and going out in daily life due to the disabled feet, the disabled persons have to walk by means of a walking stick, and conventional shoes purchased in a shop can only be worn by the disabled persons without disabled feet.

Disclosure of Invention

The utility model discloses to above-mentioned problem, provide an intelligence orthopedic shoes, this adjustable orthopedic shoes can carry out the regulation of height and angle according to crowd such as the unequal length of two low limbs, the inside and outside deformity that turns over to reach the effect of correcting and walking like normal people's posture, simple structure, convenient operation simultaneously.

In order to meet the requirements, the utility model provides an intelligent orthopedic shoe, including the vamp, be located the last sole of vamp bottom to and be located the lower sole of last sole bottom, the upper portion of vamp lower part and last sole forms the bonding, form retractable through extending structure between the upper portion of lower sole and the lower part of last sole and connect, and be equipped with the holistic height of adjustable shoes and can support around the shoes multidirectional adjustment mechanism of the upset of angle about between the upper end of lower sole and the lower extreme of last sole.

As the utility model discloses it is preferred, multidirectional adjustment mechanism includes: the four supporting points are integrally arranged in a rectangular shape; the bottom of the front outer side supporting point is longitudinally connected with a front outer side supporting rod correspondingly, the bottom of the front inner side supporting point is longitudinally connected with a front inner side supporting rod correspondingly, the bottom of the rear outer side supporting point is longitudinally connected with a rear outer side supporting rod correspondingly, and the bottom of the rear inner side supporting point is longitudinally connected with a rear inner side supporting rod correspondingly; meanwhile, a front outer side adjuster capable of adjusting the height of the front outer side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the front outer side supporting rod; a front inner side adjuster capable of adjusting the height of the front inner side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the front inner side supporting rod; a rear outer side adjuster capable of adjusting the height of the rear outer side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the rear outer side supporting rod; a rear inner side adjuster capable of adjusting the height of the rear inner side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the rear inner side supporting rod.

As a further preferred aspect of the present invention, the front outer support bar, the front inner support bar, the rear outer support bar and the rear inner support bar are all spring structures having the same elastic coefficient; the front outer side regulator, the front inner side regulator, the rear outer side regulator and the rear inner side regulator are all of manual thread adjustable structures, and a first holding structure capable of ensuring the stability of the front outer side supporting rod after adjustment is arranged at the upper end of the front outer side regulator; the upper end of the front inner side regulator is provided with a second holding structure which can ensure the stability of the front inner side supporting rod after regulation; the upper end of the rear outer side regulator is provided with a third holding structure which can ensure the stability of the rear outer side supporting rod after regulation; and a fourth holding structure capable of ensuring the stability of the rear inner side supporting rod after adjustment is arranged at the upper end of the rear inner side adjuster.

Furthermore, a protractor dial capable of displaying the adjusted height and angle is arranged between the rear part of the upper sole and the rear part of the lower sole.

Preferably, the manual screw thread adjustable structure comprises: the upper end of the cylindrical seat is provided with a rotating pin, the rotating pin is rotationally connected with a rotating seat, the upper part of the rotating seat is fixedly connected with the bottom of the upper sole, the bottom of the cylindrical seat is connected with a spring, the bottom of the spring is connected with a connector with an external connecting thread, and the bottom of the connector is connected with a bolt lifting mechanism; first structure, the second of holding tightly is held tightly structure, third and fourth hold tightly the structure and all include: the movable ring is sleeved on the bolt lifting mechanism and can move up and down along the bolt lifting mechanism, and the inner ring of the movable ring is provided with an inner connecting thread which can form threaded connection with the outer connecting thread outside the connector.

After the structure is adopted, the utility model has the advantages of as follows:

1. the utility model is provided with four supporting points, four supporting rods and four adjusting structures at the sole, which can adjust, support and fix the height of the shoes and achieve the overturning effect of the front and back and left and right angles of the shoes, thereby enabling the people with unequal lower limbs, inward and outward overturning deformity and the like to adjust the height and the angle, and finally achieving the effects of correcting and walking like normal posture;

2. the utility model discloses set up on the regulator and hold the device tightly, guarantee to adjust the stability of back shoes walking, every equal autonomous working of regulator simultaneously can set up different angles according to the difference of the bracing piece height of regulation to can deal with multiple foot deformity.

Drawings

FIG. 1 is a view showing the structure of the appearance installation of the present invention;

FIG. 2 is a partial enlarged view of the adjuster and tightening mechanism of the present invention;

FIG. 3 is a schematic diagram showing the detailed operation of embodiment 1 of the present invention;

fig. 4 is a schematic diagram showing the detailed operation of embodiment 2 of the present invention;

fig. 5 is a schematic diagram showing the detailed operation of embodiment 3 of the present invention;

FIG. 6 is a schematic diagram showing the detailed operation of embodiment 4 of the present invention;

FIG. 7 is a schematic diagram showing the detailed operation of example 5 of the present invention;

the direction of the arrow in fig. 3 to 5 is the rotational adjustment direction.

Wherein, 1, front outer side supporting points; 2. a front inboard support point; 3. a posterior lateral support point; 4. a rear inboard support point; 5. an upper sole; 6. a front outer support bar; 7. a front inner side support bar; 8. a posterior lateral support bar; 9. a rear inner side support rod; 10. an anterolateral adjuster; 11. a front medial adjuster; 12. a posterior lateral adjuster; 13. a rear medial regulator; 14. a protractor dial; 15. a lower sole; 16. a shoe upper; 17. a rotation pin; 18. a cylindrical seat; 19. a rotating seat; 20. a spring; 21. the external connection thread is arranged; 22. a joint; 23. a bolt lifting mechanism; 24. a movable ring; 25. the inner connecting thread.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

An intelligent orthopedic shoe comprises an upper 16, an upper sole 5 positioned at the bottom of the upper 16, and a lower sole 15 positioned at the bottom of the upper sole 5.

When the shoe is connected, the lower part of the vamp 16 and the upper part of the upper sole 5 are bonded, the upper part of the lower sole 15 and the lower part of the upper sole 5 form telescopic connection through a telescopic structure, and a multidirectional adjusting mechanism which can adjust the overall height of the shoe and support the shoe to turn over in the front-back and left-right angles is arranged between the upper end of the lower sole 15 and the lower end of the upper sole 5.

In the present invention, a preferred multidirectional adjusting mechanism includes: a front outer side supporting point 1, a front inner side supporting point 2, a back outer side supporting point 3 and a back inner side supporting point 4 which are positioned between the upper part and the lower part of the upper sole 5.

The four supporting points (the front outer supporting point 1, the front inner supporting point 2, the rear outer supporting point 3 and the rear inner supporting point 4) are integrally arranged in a rectangular shape; meanwhile, a front outer supporting rod 6 is correspondingly and longitudinally connected to the bottom of the front outer supporting point 1, a front inner supporting rod 7 is correspondingly and longitudinally connected to the bottom of the front inner supporting point 2, a rear outer supporting rod 8 is correspondingly and longitudinally connected to the bottom of the rear outer supporting point 3, and a rear inner supporting rod 9 is correspondingly and longitudinally connected to the bottom of the rear inner supporting point 4.

A front outer side regulator 10 which can regulate the height of the front outer side supporting rod 6 is arranged between the bottom surface of the lower sole 15 and the bottom of the front outer side supporting rod 6; a front inner side adjuster 11 which can adjust the height of the front inner side supporting rod 7 is arranged between the bottom surface of the lower sole 15 and the bottom of the front inner side supporting rod 7; a rear outer side adjuster 12 for adjusting the height of the rear outer side support rod 8 is arranged between the bottom surface of the lower sole 15 and the bottom of the rear outer side support rod 8; a rear inner side adjuster 13 for adjusting the height of the rear inner side support bar 9 is arranged between the bottom surface of the lower sole 15 and the bottom of the rear inner side support bar 9.

In the utility model, the front outer side support rod 6, the front inner side support rod 7, the rear outer side support rod 8 and the rear inner side support rod 9 are all spring structures with the same elasticity coefficient; and the front outer side adjuster 10, the front inner side adjuster 11, the rear outer side adjuster 12 and the rear inner side adjuster 13 are all of a manual screw thread adjustable structure. Meanwhile, an angle dial 14 which can display the adjusted height and angle is arranged between the rear part of the upper sole 5 and the rear part of the lower sole 15.

A first holding structure which can ensure the stability of the front and outer side supporting rods 6 after adjustment is arranged at the upper end of the front and outer side adjuster 10; a second holding structure which can ensure the stability of the front inner side supporting rod 7 after adjustment is arranged at the upper end of the front inner side adjuster 11; a third holding structure which can ensure the stability of the rear outer side supporting rod 8 after adjustment is arranged at the upper end of the rear outer side adjuster 12; a fourth holding structure which can ensure the stability of the adjusted rear inner side supporting rod 9 is arranged at the upper end of the rear inner side adjuster 13.

The utility model discloses in, preferred manual screw thread adjustable structure includes: a cylindrical seat 18 with a rotating pin 17 at the upper end, the rotating pin 17 and a rotating seat 19 form a rotating connection, the upper part of the rotating seat 19 and the bottom of the upper sole 5 form a fixed connection, the bottom of the cylindrical seat 18 is connected with a spring 20, the bottom of the spring 20 is connected with a connecting head 22 with an external connecting thread 21, and the bottom of the connecting head 22 is connected with a bolt lifting mechanism 23.

As shown in fig. 2, in the present invention, the preferable first clasping structure, the second clasping structure, the third clasping structure and the fourth clasping structure all include: and a movable ring 24 sleeved on the bolt lifting mechanism 23 and capable of moving up and down along the bolt lifting mechanism 23, wherein an inner ring of the movable ring 24 is provided with an inner connecting thread 25 capable of forming threaded connection with the outer connecting thread 21 outside the connector 22.

When the device is used, when the cylindrical seat 18 is held to rotate, the cylindrical seat 18 can be lifted and lowered in the rotating process (the rotating pin 17 rotates around the rotating seat 19) through the bolt lifting mechanism 23; after the lifting is finished, the inner connecting thread 25 of the movable ring 24 and the outer connecting thread 21 outside the connector 22 can be in threaded connection, so that the structure of the clasping machine is formed.

The structure is provided with four supporting points, four supporting rods and four adjusting structures on the sole, so that the height of the shoes can be adjusted, supported and fixed, and the overturning effect of the front and rear and left and right angles of the shoes can be achieved, so that the height and angle of crowds with unequal lower limbs, inward and outward overturning deformities and the like can be adjusted, and the effects of correcting and walking like normal postures can be finally achieved; meanwhile, the holding device is arranged on the regulator, so that the walking stability of the regulated shoes is ensured, each regulator works independently, and different angles can be set according to the height difference of the regulated supporting rods, so that various foot deformities can be dealt with.

The effect of the structure of the present invention will be described below by way of specific examples.

Example 1

As shown in fig. 3, if the patient has symptoms of unequal lengths of both lower limbs and the right lower limb is shortened by 2 cm, the four adjusters (the anterior-lateral adjuster 10, the anterior-medial adjuster 11, the posterior-lateral adjuster 12, and the posterior-medial adjuster 13) can be rotated in the forward direction to raise the four support bars (the anterior-lateral support bar 6, the anterior-medial support bar 7, the posterior-lateral support bar 8, and the posterior-medial support bar 9) by 2 cm upward.

Example 2

As shown in fig. 4, if the patient is symptomatic of foot drop, only 2 cm of heel lift is required, the two posterior lateral and medial side adjusters, namely, the posterior lateral and medial side adjusters, 12 and 13, can be rotated forward, and the two posterior support rods (the posterior lateral and medial support rods, 8 and 9) rise upward by 2 cm.

Example 3

As shown in fig. 5, if the patient is a symptom of varus deformity, the angle required by the disabled person is obtained by the medical measurement instrument, the inner side regulator, i.e., the front inner side regulator 11 and the rear inner side regulator 13, can be rotated in the forward direction, and the heights of the inner two support bars (the front inner support bar 7 and the rear inner support bar 9) can be adjusted to the angle required by the disabled person according to the measured angle of the angle dial 14 on the rear side.

Example 4

As shown in fig. 6, if the patient is the valgus deformity, the angle required by the disabled can be obtained after the measurement by the medical measuring instrument, the front outer side regulator 10 and the rear outer side regulator 12 on the outer side can be rotated in the forward direction, and the heights of the two supporting rods on the outer side are adjusted to the angle required by the disabled according to the angle measured by the angle measuring dial 14 on the rear side.

Example 5

As shown in fig. 7, if the patient needs to reduce the pressure locally, for example, when the patient walks, the first metatarsophalangeal joint is not stressed, and the other parts are pressed too high, the anterior-medial regulator 11 can be rotated in the positive direction, so that the anterior-medial support rod 7 can be lifted upwards.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides an intelligence orthopedic shoes, includes the vamp, is located the last sole of vamp bottom to and be located the lower sole of last sole bottom, the vamp lower part forms the bonding with the upper portion of last sole, its characterized in that, form retractable through extending structure between the upper portion of lower sole and the lower part of last sole and be connected, and be equipped with the holistic height of adjustable shoes and can support the multidirectional adjustment mechanism of shoes front and back, left and right sides angle upset between the upper end of lower sole and the lower extreme of last sole.

2. The intelligent orthopedic shoe of claim 1, wherein the multi-directional adjustment mechanism comprises: the supporting points are arranged between the upper sole and the lower sole and are rectangular integrally; the bottom of the front outer side supporting point is longitudinally connected with a front outer side supporting rod correspondingly, the bottom of the front inner side supporting point is longitudinally connected with a front inner side supporting rod correspondingly, the bottom of the rear outer side supporting point is longitudinally connected with a rear outer side supporting rod correspondingly, and the bottom of the rear inner side supporting point is longitudinally connected with a rear inner side supporting rod correspondingly; meanwhile, a front outer side adjuster capable of adjusting the height of the front outer side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the front outer side supporting rod; a front inner side adjuster capable of adjusting the height of the front inner side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the front inner side supporting rod; a rear outer side adjuster capable of adjusting the height of the rear outer side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the rear outer side supporting rod; a rear inner side adjuster capable of adjusting the height of the rear inner side supporting rod is arranged between the bottom surface of the lower sole and the bottom of the rear inner side supporting rod.

3. The intelligent orthopedic shoe of claim 2, wherein the anterolateral support rod, the posterolateral support rod and the posteromedial support rod are all spring structures with the same spring rate; the front outer side regulator, the front inner side regulator, the rear outer side regulator and the rear inner side regulator are all of manual thread adjustable structures, and a first holding structure capable of ensuring the stability of the front outer side supporting rod after adjustment is arranged at the upper end of the front outer side regulator; the upper end of the front inner side regulator is provided with a second holding structure which can ensure the stability of the front inner side supporting rod after regulation; the upper end of the rear outer side regulator is provided with a third holding structure which can ensure the stability of the rear outer side supporting rod after regulation; and a fourth holding structure capable of ensuring the stability of the rear inner side supporting rod after adjustment is arranged at the upper end of the rear inner side adjuster.

4. The intelligent orthopedic shoe according to claim 2, wherein a protractor dial capable of displaying the adjusted height and angle is arranged between the rear part of the upper sole and the rear part of the lower sole.

5. The intelligent orthopedic shoe of claim 3, wherein the manually threaded adjustable structure comprises: the upper end of the cylindrical seat is provided with a rotating pin, the rotating pin is rotationally connected with a rotating seat, the upper part of the rotating seat is fixedly connected with the bottom of the upper sole, the bottom of the cylindrical seat is connected with a spring, the bottom of the spring is connected with a connector with an external connecting thread, and the bottom of the connector is connected with a bolt lifting mechanism; first structure, the second of holding tightly is held tightly structure, third and fourth hold tightly the structure and all include: the movable ring is sleeved on the bolt lifting mechanism and can move up and down along the bolt lifting mechanism, and the inner ring of the movable ring is provided with an inner connecting thread which can form threaded connection with the outer connecting thread outside the connector.

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