CN214317198U - Personalized functional foot pad with 3D printing and embedded module - Google Patents

Abstract

The utility model belongs to the technical field of the daily necessities technique and specifically relates to a 3D prints and imbeds individualized functional sufficient pad of module, including sufficient pad body, the toe department, heel department, the inboard front and back end department of arch of foot and sole outside front and back end department of sufficient pad body all are equipped with the functional module region, and the functional module region inboard is all sealed to be inlayed and is equipped with the off-loading filling block, is equipped with miniature wireless pressure sensing chip on the off-loading filling block. This individualized functional footpad of 3D printing and embedding module makes its user demand that satisfies any user through adopting 3D to print customization alone, improve its individuality, can help the user to alleviate foot load simultaneously, and can judge the defect that user's foot exists through the load pressure of monitoring user foot, and then can in time customize the cushion that corresponds, not only can bring better user body for the user and feel, and there is the effect of correcting foot defect, use cost is reduced, satisfy user's daily user demand, therefore, the practicality is stronger.

Description

Personalized functional foot pad with 3D printing and embedded module

Technical Field

The utility model relates to the technical field of daily necessities, specifically speaking relates to a 3D prints and imbeds individualized functional sufficient pad of module.

Background

In daily life, most people have foot problems, such as foot defects caused by natural or less shoes, and foot arch sinking and even flat feet caused by long-time standing and loading, and toe deformation and instep deformation caused by women who wear high-heeled shoes for a long time. These foot problems cause great pain and inconvenience in daily life, and in serious cases, people may easily fall down or even have lifelong disabilities. At present, many people often correct foot defects or simply need a more comfortable user feeling through customized special correcting shoes. However, the customized correcting shoes have high cost and long manufacturing time, and users need to wear various shoes in daily life, and the correcting shoes are leather shoes with hard uppers, wide bottoms and difficult deformation, which cannot meet the daily use requirements of the users, have low practicability, and cannot accurately judge the foot load condition and the correcting effect of the users. The insole is a common article in daily life, and except sandals and slippers, most shoes are required to be insoles. If the insole can be reformed to have the foot load measuring and correcting effects, the defects of the correcting shoes can be effectively overcome.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a 3D prints and imbeds individualized functional sufficient pad of module to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the personalized functional foot pad comprises a foot pad body, functional module regions are arranged at the toe position, the heel position, the front end and the rear end of the inner side of the arch and the front end and the rear end of the outer side of the sole of the foot pad body, the inner sides of the functional module regions are hermetically embedded with load-reducing filling blocks, and the load-reducing filling blocks are provided with miniature wireless pressure sensing chips.

Preferably, the footpad body is integrally formed by 3D printing.

Preferably, a hollow cavity is arranged inside the functional module area.

Preferably, the hollow cavities at the toe and the heel are both ellipse-like, and the hollow cavities at the front and rear ends of the inner side of the arch and the front and rear ends of the outer side of the sole are both semicircular.

Preferably, the height of the hollow cavity is smaller than the thickness of the footpad body.

Preferably, the load-reducing filling block is matched with the shape of the hollow cavity corresponding to the position of the load-reducing filling block.

Preferably, the size of the load-reducing filling block is larger than or equal to the size of the inner side of the hollow cavity corresponding to the position of the load-reducing filling block.

Preferably, the micro wireless pressure sensing chip is fixed in the middle of the top surface of the off-loading filling block through glue adhesion.

Preferably, the inner part of the load-reducing filling block is embedded with an air bag in a sealing way.

Preferably, the air bag is matched with the shape of the load-reducing filling block where the air bag is located, and the size of the air bag is smaller than that of the load-reducing filling block where the air bag is located.

Compared with the prior art, the beneficial effects of the utility model are that: the personalized functional foot pad with the 3D printing and embedded module is characterized in that the foot pad body is manufactured by adopting 3D printing, the foot pad body can be individually customized according to the foot shape and the shoe wearing habit of each person to meet the use requirements of any user, the personalization of the foot pad is improved, the production efficiency is high, meanwhile, the load reducing filling blocks and the micro wireless pressure sensing chips are arranged in each position in the foot pad to help the user to reduce the foot load, the load pressure at each position of the foot of the user can be monitored, the defects of the foot of the user can be judged by analyzing the pressure distribution condition, the corresponding cushion block can be customized in time, the better use feeling can be brought to the user, the effect of correcting the foot defects can be realized, the foot pad is suitable for most shoes, leather shoes do not need to be specially customized and corrected, the use cost is reduced, and the daily use requirements of the user are met, the practicability is stronger.

Drawings

FIG. 1 is a schematic view of the overall external structure of the utility model;

FIG. 2 is a schematic view of a half-cut split structure of the utility model;

FIG. 3 is a schematic diagram of a half-section structure of the middle load-reducing filling block of the utility model;

fig. 4 is a schematic structural view of a second embodiment of the present invention;

fig. 5 is a schematic structural diagram of a third embodiment of the present invention.

In the figure:

1. a foot pad body; 11. a functional module area; 12. a hollow cavity;

2. an off-loading filler block;

3. a micro wireless pressure sensing chip;

4. an air bag;

5. an arch support;

6. a heightening pad.

Detailed Description

The technical solution in the present invention will be clearly and completely described below with reference to the drawings in the present invention, and it is obvious that the described utility model is only a part of the utility model rather than the whole utility model. Based on utility model provides a, all other utility model that the ordinary skilled person in the art obtained under the prerequisite of not making creative work all belong to the utility model discloses the scope of protection.

In the description of the present invention, it is to be understood that the terms "intermediate," "height," "thickness," "upper," "lower," "front," "rear," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present invention.

Furthermore, in the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

Example 1

Referring to fig. 1-3, the present invention provides a technical solution:

the utility model provides a 3D prints and individualized functional foot pad of embedding module, includes foot pad body 1, and the toe department, heel department, the inboard front and back end department of arch of foot and sole outside front and back end department of foot pad body 1 all are equipped with functional module region 11, and functional module region 11 inboard all seals to inlay is equipped with off-loading filling block 2, is equipped with miniature wireless pressure sensing chip 3 on the off-loading filling block 2.

In this embodiment, the foot pad body 1 is printed integrated into one piece through 3D, makes the compact firm of foot pad body 1 overall structure.

Specifically, the material of the foot pad body 1 can be photosensitive resin composite material, high molecular plastic or metal powder material, wood-plastic composite material, etc., and the material can be specifically customized to select metal or nonmetal material according to the hardness requirement, air permeability requirement, etc. of the foot pad by the user.

In this embodiment, a hollow cavity 12 is disposed inside the functional module region 11.

Specifically, the hollow cavities 12 at the toe and heel are all oval-like, and the hollow cavities 12 at the front and rear ends of the inner side of the arch and the front and rear ends of the outer side of the sole are all semicircular, so that the shape of each hollow cavity 12 is matched with the shape of the outer edge of the foot pad body 1 at the position of the hollow cavity 12, and the contact area between the functional module area 11 and the foot of the user is increased effectively.

Wherein, the height of the hollow cavity 12 is less than the thickness of the foot pad body 1, so as to prevent the hollow cavity 12 from penetrating through the foot pad body 1.

In this embodiment, the shape of the load-reducing filling block 2 is matched with the shape of the hollow cavity 12 corresponding to the position of the load-reducing filling block, so that the load-reducing filling block 2 can be smoothly clamped in the corresponding hollow cavity 12.

Further, the size of the relief filling block 2 is greater than or equal to the inside size of the hollow cavity 12 corresponding to its position.

Specifically, in this embodiment, the size of the load-reducing filling block 2 is preferably larger than the size of the inner side of the hollow cavity 12 corresponding to the position of the load-reducing filling block, so that the load-reducing filling block 2 can support the outer side of the functional module region 11 to bulge outwards, the contact area between the functional module region 11 and the foot of the user is further increased, and meanwhile, the phenomenon that the load-reducing filling block 2 is too small and is deformed and collapsed after being pressed by external gravity is avoided, thereby bringing discomfort to the user.

Specifically, the load-reducing filling block 2 can be manufactured by 3D printing, or can be made of high-elasticity materials such as existing silicone rubber.

It is worth to be noted that the hardness of the load-reducing filling block 2 is less than that of the foot pad body 1, and the load-reducing filling block 2 can disperse the external pressure applied to the load-reducing filling block from inside to outside, so that the effect of reducing the load on the sole of the foot of a user is achieved.

In addition, when the foot pad is customized, the load-reducing filling blocks 2 can be accurately placed at the corresponding positions, then the manufacturing of the foot pad body 1 is completed directly on the outer sides of the load-reducing filling blocks 2 through 3D printing, or the foot pad body 1 can be divided into an upper half and a lower half through 3D printing in advance and then the upper half and the lower half of the foot pad body 1 are bonded after the load-reducing filling blocks 2 are sequentially installed in the hollow cavities 12 at the corresponding positions.

In this embodiment, the micro wireless pressure sensing chip 3 is fixed in the middle of the top surface of the off-loading filling block 2 through glue adhesion, so that the micro wireless pressure sensing chip 3 is firm and stable, and can effectively contact with the corresponding position of the user foot and measure the external pressure applied to the position.

Specifically, the micro wireless pressure sensing chip 3 in each functional module area 11 is uniquely encoded with an identity.

In addition, a user can load an application program matched with the micro wireless pressure sensing chip 3 on the mobile phone, and the application program is connected with the micro wireless pressure sensing chip 3 through a wireless transmission technology and used for receiving the pressure condition measured by the micro wireless pressure sensing chip 3 in real time and judging whether the foot pressure distribution of the user is reasonable and whether the foot of the user has defects according to calculation and analysis.

The working principle of the above-mentioned related application programs is as known to those skilled in the art, and is not described herein again.

In addition, when the application program analyzes that the feet of the user have certain defects, the original foot mat can be improved in time, for example, the correction cushion block with a proper shape and size is added to balance the foot stress of the user, more humanized use body feeling is provided for the user, additional customization of foot correction shoes is not needed, and the applicability is high.

In this embodiment, an airbag 4 is hermetically embedded in the load-reducing filling block 2.

Further, the air bag 4 is matched with the shape of the load-reducing filling block 2 where the air bag 4 is located, and the size of the air bag 4 is smaller than that of the load-reducing filling block 2 where the air bag 4 is located, so that the air bag 4 can be completely wrapped inside the load-reducing filling block 2.

Specifically, the air bag 4 is filled with a small amount of air, so that the elasticity of the load-reducing filling block 2 can be further improved, and the load-reducing effect of the load-reducing filling block 2 can be further improved.

Example 2

Referring to fig. 4, on the basis of embodiment 1, the present invention provides a technical solution for a user with a flat foot problem:

the utility model provides a 3D prints and individualized functional foot pad of embedding module, includes foot pad body 1, and foot point department, heel department, the inboard front and back end department of arch of foot and sole outside front and back end department of foot pad body 1 all are equipped with functional module region 11, and functional module region 11 inboard all seals to inlay and is equipped with off-loading filling block 2, is equipped with miniature wireless pressure sensing chip 3 on the off-loading filling block 2, and the inside seal of off-loading filling block 2 inlays and is equipped with gasbag 4.

In this embodiment, an arch pad 5 is disposed at the inner side of the arch of the foot pad body 1.

Further, the arch pad 5 can be made of the same material as the foot pad body 1, or can be made of a customized material such as silicon rubber.

Specifically, the arch support 5 is fixed on the foot support body 1 through glue adhesion, so that the use effect is prevented from being influenced due to displacement, and the arch support is prevented from falling off and losing.

Wherein, the foot pad with the arch pad 5 is also suitable for users with heavy weight, overload bearing or long-term standing, and can prevent arch sinking.

Example 3

Referring to fig. 5, on the basis of embodiment 1, the utility model provides a technical solution for a user who has a problem of leaning back on the center of gravity when standing:

the utility model provides a 3D prints and individualized functional foot pad of embedding module, includes foot pad body 1, and foot point department, heel department, the inboard front and back end department of arch of foot and sole outside front and back end department of foot pad body 1 all are equipped with functional module region 11, and functional module region 11 inboard all seals to inlay and is equipped with off-loading filling block 2, is equipped with miniature wireless pressure sensing chip 3 on the off-loading filling block 2, and the inside seal of off-loading filling block 2 inlays and is equipped with gasbag 4.

In this embodiment, the heel position of the foot pad body 1 is provided with a heightening pad 6.

Further, the heightening pad 6 may be made of the same material as the foot pad body 1, or may be made of a material such as silicone rubber.

Specifically, the heightening pad 6 is fixed on the foot pad body 1 through glue adhesion, so that the use effect is prevented from being influenced due to the displacement, and the falling and loss of the heightening pad are also avoided.

Wherein, the foot pad with the heightening pad 6 is suitable for users who have the defects of horseshoe feet and are also suitable for users who are used to wear high-heeled shoes for a long time, and the situations that the center of gravity moves backwards and the body inclines backwards and downwards can occur after the users wear the flat-heeled shoes.

The utility model discloses a 3D prints and imbeds individualized functional sufficient pad of module when using, at first foot type and user demand according to the user, choose suitable material for use, print the preparation shaping through 3D, and install offloading filling block 2 and miniature wireless pressure sensing chip 3 inside the sufficient pad body 1, the user fills up sufficient pad body 1 and goes into shoes, carry out walking of a period after wearing shoes, the action such as stand is tested, at this in-process, the pressure condition and the analysis of each position department of application monitoring user foot through the cell-phone judge the defect that the user foot probably exists, then the cushion that corresponds according to the timely customization of user's foot defect, and with the cushion bonding to the position that sufficient pad body 1 corresponds on can.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. The technical personnel of this trade should understand, the utility model does not receive the restriction of above-mentioned utility model, and what describe in above-mentioned utility model and the description only does the preferred example of the utility model to need not restrict the utility model, under the prerequisite that does not deviate from the spirit and scope of the utility model, the utility model discloses still can have various changes and improvement, these changes and improvement all fall into the scope of the utility model that claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A personalized functional foot pad printed in 3D and embedded in a module, characterized in that: the foot pad comprises a foot pad body (1), functional module regions (11) are respectively arranged at the toe position, the heel position, the front and rear ends of the inner side of the arch and the front and rear ends of the outer side of the sole of the foot pad body (1), load-reducing filling blocks (2) are respectively embedded in the inner sides of the functional module regions (11) in a sealing manner, and miniature wireless pressure sensing chips (3) are arranged on the load-reducing filling blocks (2).

2. The 3D printed and modular personalized functional foot pad according to claim 1, characterized in that: the foot pad body (1) is integrally formed through 3D printing.

3. The 3D printed and modular personalized functional foot pad according to claim 1, characterized in that: the inner side of the functional module area (11) is provided with a hollow cavity (12).

4. The 3D printed and modular personalized functional foot pad according to claim 3, characterized in that: the hollow cavities (12) at the toe and the heel are both similar to an ellipse, wherein the hollow cavities (12) at the front and rear ends of the inner side of the arch and the front and rear ends of the outer side of the sole are both semicircular.

5. The 3D printed and modular personalized functional foot pad according to claim 4, wherein: the height of the hollow cavity (12) is smaller than the thickness of the foot pad body (1).

6. The 3D printed and modular personalized functional foot pad according to claim 5, wherein: the load-reducing filling block (2) is matched with the hollow cavity (12) corresponding to the position of the load-reducing filling block in shape.

7. The 3D printed and modular personalized functional foot pad according to claim 6, wherein: the size of the load-reducing filling block (2) is larger than or equal to the size of the inner side of the hollow cavity (12) corresponding to the position of the load-reducing filling block.

8. The 3D printed and modular personalized functional foot pad according to claim 1, characterized in that: the miniature wireless pressure sensing chip (3) is fixed in the middle of the top surface of the load-reducing filling block (2) in an adhesion mode through glue.

9. The 3D printed and modular personalized functional foot pad according to claim 1, characterized in that: an air bag (4) is embedded in the load-reducing filling block (2) in a sealing manner.

10. The 3D printed and modular personalized functional foot pad according to claim 9, wherein: the air bag (4) is matched with the shape of the load-reducing filling block (2) where the air bag is located, and the size of the air bag (4) is smaller than that of the load-reducing filling block (2) where the air bag is located.

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