CN113303558A - Special mechanical distribution acquisition and analysis device for shape selection of regular insoles - Google Patents

Abstract

The invention discloses a special mechanical distribution acquisition and analysis device for correcting insole model selection, which comprises an information acquisition device and a terminal analysis device, wherein the information acquisition device comprises an insole, a correcting module, an information acquisition module, a data processing module and a wireless communication module, the correcting module, the information acquisition module, the data processing module and the wireless communication module are arranged on the insole, the wireless communication module is connected with the terminal analysis device through a wireless signal, the insole comprises an upper insole body and a lower insole body, the information acquisition module comprises a flexible circuit board arranged between the upper insole body and the lower insole body, and a pressure sensor and a piezoelectric sensor which are electrically connected with the flexible circuit board, and the data processing module is arranged on the flexible circuit board and is electrically connected with the pressure sensor and the piezoelectric sensor. The invention not only can detect and reflect the stress distribution of the sole, but also can adjust the stress positions of the insole through the arranged correcting module so as to meet the stress requirements of different people on the insole.

Description

Special mechanical distribution acquisition and analysis device for shape selection of regular insoles

Technical Field

The invention relates to the field of data acquisition, in particular to a mechanical distribution acquisition and analysis device special for type selection of a regular insole.

Background

The insole is the part of the shoe most closely attached to the foot, and is a soft cushion for absorbing the weight of the body and absorbing the acting force and the reacting force generated by the foot and the ground when walking. When walking, the quality of the insole and whether the insole is suitable for being matched with the foot shape of a user directly influence the health and the comfort of the user. Most users purchase insoles by considering only the size of the insole and the materials used to make the insole. However, because each person has different foot types, different walking postures, different road conditions of walking routes, different force application habits and different force application abilities, and different force bearing areas and force bearing points of the feet in the walking process, the common limited general insoles on the market are not suitable for all people, and especially for some people with special foot types or special walking postures, the joint injuries of ankles, knees, pelvises and the like are easily caused by long-term use of the general insoles which do not fit the feet, so that the health is influenced.

Therefore, how to match each ordinary user with a dedicated mechanical insole suitable for their personal characteristics becomes an urgent problem to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides a special mechanical distribution acquisition and analysis device for correcting insole selection.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

the utility model provides a special mechanics of regular shoe-pad lectotype distributes and gathers analytical equipment, includes information acquisition device and terminal analytical equipment, information acquisition device includes the shoe-pad and sets up regular module, information acquisition module, data processing module and the wireless communication module on the shoe-pad, wireless communication module passes through radio signal and is connected with terminal analytical equipment, the shoe-pad is including the upper padding body and the lower pad body, information acquisition module is including locating flexible line way board between the upper padding body and the lower pad body and pressure sensor and the piezoelectric sensor who is connected with flexible line way board electricity, data processing module sets up in the flexible line way board and is connected with pressure sensor and piezoelectric sensor electricity, wireless communication module sets up in the flexible line way board and is connected with data processing module electricity, regular module is including locating the pressure sensor downside and with the similar imitative type of upper padding body surface shape fill up and locate imitative type pad below and be used for adjusting pressure sensor Correcting block in the stressed position.

By adopting the technical scheme, the pressure sensors are used for detecting the pressure of each part of the sole, the pressure data of each part of the sole is fed back to the terminal analysis device after the pressure data is analyzed and processed by the processing module, and the stress data of each part of the sole is displayed after the pressure data is further analyzed by the terminal analysis device, so that the pressure sensors of each part can be adjusted by the correcting module. In addition, the correcting block is provided with scales for recording the thickness of the correcting block.

Preferably, the terminal analysis device comprises a mobile phone or a computer, and software for analyzing the pressure data is arranged in the mobile phone or the computer. By adopting the technical scheme, the analysis can be directly displayed.

Preferably, an interlayer is arranged between the upper cushion body and the lower cushion body, a circuit protection plate is arranged in the interlayer, and the circuit protection plate is positioned on the inner waist of the sole. By adopting the technical scheme, the circuit protection plate is used for protecting the flexible circuit board and electronic elements on the flexible circuit board.

Preferably, the pressure sensors are provided as film pressure sensors, and the film pressure sensors are provided with a plurality of half soles, outer waists and heels which are respectively positioned on the soles of the feet. By adopting the technical scheme, the device is used for detecting the stress at each position of the half sole, the outer waist and the heel of the sole. Wherein, the pressure sensor is arranged on the surface of the upper cushion body and is used for contacting with the sole.

Preferably, the data processing module adopts a microprocessor, and the microprocessor is electrically connected with the pressure sensor, the piezoelectric sensor and the wireless communication module through a flexible circuit board. By adopting the technical scheme, the wireless communication module is used for receiving the signals of the sensors and sending the signals to the terminal analysis device through the wireless communication module after the signals are analyzed by the signal processor.

Preferably, the wireless communication module comprises a bluetooth module or a WIFI module. By adopting the technical scheme, the method and the device are used for transmitting the wireless signals.

Preferably, the lower cushion body comprises a sole supporting pad and a cushion block arranged at the bottom of the sole supporting pad, a positioning groove is formed in the cushion block and connected with the sole supporting pad, an assembling hole is formed in the sole supporting pad, and a correcting block is assembled in the assembling hole. Adopt this technical scheme, cushion and sole supporting pad carry out the location through the constant head tank and connect, and the correction block is arranged in inserting the pilot hole to the support is in pressure sensor's bottom.

Preferably, a gyroscope sensor for detecting sole movement is further arranged on the flexible circuit board, and the gyroscope sensor and the data processing module are arranged on the flexible circuit board. By adopting the technical scheme, the motion trail of the foot pad is detected by the gyroscope sensor, and the stress data during sole motion is judged through the motion trail. For example, the force data of the soles during walking, hiking and running are judged through the movement tracks, so that the footpads suitable for different sports can be researched.

The invention has the beneficial effects that: the insole has the advantages that the insole is low in cost and good in effect, and through mechanical distribution acquisition and analysis, the stress distribution of the sole can be detected and reflected, the stress positions of all parts of the current specific user personalized insole can be adjusted through the correcting module, a special mechanical insole suitable for personal characteristics of each common user is matched for each common user, so that the stress requirements of different people on the insole are met, the most reasonable leg and foot protection health scheme which is safe and comfortable is provided for the user, and the user can conveniently and correctly make the type selection of the correcting insole.

The foregoing is a summary of the present invention, and in order to provide a clear understanding of the technical means of the present invention and to be implemented in accordance with the present specification, the following is a detailed description of the preferred embodiments of the present invention with reference to the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a schematic view of an insole according to the present invention;

FIG. 2 is a schematic partial cross-sectional view of an insole according to the present invention;

fig. 3 is a schematic view of a plantar pressure monitoring framework according to the present invention;

FIG. 4 is a diagram of a pressure calibration page for each area according to the present invention;

fig. 5 is a pressure display diagram of each area involved in the present invention.

The reference numbers in the figures illustrate: insole 1, the regulation module 2, data processing module 3, wireless communication module 4, the upper padding body 5, the lower padding body 6, flexible line way board 7, pressure sensor 8, piezoelectric sensor 9, imitative type pad 10, correction block 11, circuit protection board 12, gyroscope sensor 13, sole supporting pad 601, cushion 602, pilot hole 603.

Detailed Description

The invention is further described with reference to the accompanying drawings in which:

referring to fig. 1 to 5, the mechanical distribution acquisition and analysis device special for orthobaric insole model selection comprises an information acquisition device and a terminal analysis device, wherein the information acquisition device comprises an insole 1, and an orthobaric module 2, an information acquisition module, a data processing module 3 and a wireless communication module 4 which are arranged on the insole 1, the wireless communication module 4 is connected with the terminal analysis device through wireless signals, the insole 1 comprises an upper insole body 5 and a lower insole body 6, the information acquisition module comprises a flexible circuit board 7 arranged between the upper insole body 5 and the lower insole body 6, a pressure sensor 8 and a piezoelectric sensor 9 which are electrically connected with the flexible circuit board 7, the data processing module 3 is arranged on the flexible circuit board 7 and is electrically connected with the pressure sensor 8 and the piezoelectric sensor 9, and the wireless communication module 4 is arranged on the flexible circuit board 7, the data processing module 4, And is electrically connected with the data processing module 3, the correcting module 2 comprises a profiling pad 10 which is arranged at the lower side of the pressure sensor 8 and is similar to the surface shape of the upper pad body 5, and a correcting block 11 which is arranged below the profiling pad 10 and is used for adjusting the stress position of the pressure sensor 8.

By adopting the technical scheme, the pressure sensors 8 are used for detecting the pressure of each part of the sole, the pressure data of each part of the sole is fed back to the terminal analysis device after the pressure data is analyzed and processed by the processing module 3, and the stress data of each part of the sole is displayed after the pressure data is further analyzed by the terminal analysis device, so that the pressure sensors 8 of each part can be adjusted by the correcting module 2. Furthermore, the leveling block 11 is provided with a scale for recording the thickness thereof.

Preferably, the terminal analysis device comprises a mobile phone or a computer, and software for analyzing the pressure data is arranged in the mobile phone or the computer. By adopting the technical scheme, the analysis can be directly displayed.

Preferably, an interlayer is arranged between the upper cushion body 5 and the lower cushion body 6, a circuit protection plate 12 is arranged in the interlayer, and the circuit protection plate 12 is positioned on the inner waist of the sole. With this technical solution, the circuit protection board 12 is used to protect the flexible circuit board 7 and the electronic components on the flexible circuit board 7.

Preferably, the pressure sensors 8 are provided as thin film pressure sensors provided with a plurality of half soles, outer waists, and heels, which are respectively located on the soles of the feet. By adopting the technical scheme, the device is used for detecting the stress at each position of the half sole, the outer waist and the heel of the sole. Wherein, the pressure sensor 8 is arranged on the surface of the upper cushion body 5 and is used for contacting with the sole.

Preferably, the data processing module 3 adopts a microprocessor, and the microprocessor is electrically connected with the pressure sensor 8, the piezoelectric sensor 9 and the wireless communication module 4 through a flexible circuit board 7. By adopting the technical scheme, the wireless communication module is used for receiving the signals of the sensors, analyzing the signals by the signal processor and sending the analyzed signals to the terminal analysis device through the wireless communication module 4.

Preferably, the wireless communication module 4 includes a bluetooth module or a WIFI module. By adopting the technical scheme, the method and the device are used for transmitting the wireless signals.

Preferably, the lower cushion body 6 comprises a sole supporting pad 601 and a cushion block 602 arranged at the bottom of the sole supporting pad 601, wherein a positioning groove is arranged in the cushion block 602, the positioning groove is connected with the sole supporting pad 601, an assembling hole 603 is arranged in the sole supporting pad 601, and the correcting block 11 is assembled in the assembling hole 603. With this technical solution, the spacer 602 and the sole support pad 601 are connected by positioning the positioning groove, and the orthotic 11 is used to be inserted into the fitting hole 603 to be supported at the bottom of the pressure sensor 8.

Preferably, a gyroscope sensor 13 for detecting sole movement is further disposed on the flexible circuit board 7, and the gyroscope sensor 13 and the data processing module 3 are also disposed on the flexible circuit board 7. By adopting the technical scheme, the motion trail of the foot pad is detected by the gyroscope sensor 13, and the stress data during the motion of the sole is judged through the motion trail. For example, the force data of the soles during walking, hiking and running are judged through the movement tracks, so that insoles suitable for different sports can be researched.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In practical use, pressure sensors on the insole detect pressure data of each part of the sole in a static state, the detected pressure data are analyzed and sent to the mobile phone, programs on the mobile phone are used for processing and analyzing, stress conditions of areas where the pressure sensors are located are displayed, for example, as shown in fig. 4 and 5, pressure data during sole movement are detected through the gyroscope sensors and are sent to the mobile phone after being analyzed and processed, stress conditions of the pressure sensors during movement are displayed after being processed and analyzed by application programs on the mobile phone, and middle balance stress data of the insole are calculated through the stress data during movement and the sole stress data; then, the height of the correcting block is adjusted to enable the stress data of the pressure sensor in a static state or a motion state to be close to the balance stress data, so that the insole which meets the stress of the sole of a user is calculated through the height of the correcting block, and the use of different people is met.

Specifically, a large amount of experimental data, comparison correction, data analysis and instructions of related equipment are provided with more materials, and a person skilled in the art can log in a sports department of Guangdong light industry and technology institute of Guangdong website or a WeChat public account: the physical training studio accesses relevant data disclosed by the project group, which is the sports rehabilitation and physical training studio of Roche, welcomes technical personnel in the field to learn, communicate and cooperate with users.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a special mechanics of formal shoe-pad lectotype distributes and gathers analytical equipment, includes information acquisition device and terminal analysis device, its characterized in that: the information acquisition device comprises an insole (1), a correcting module (2), an information acquisition module, a data processing module (3) and a wireless communication module (4), wherein the correcting module, the information acquisition module, the data processing module (3) and the wireless communication module (4) are arranged on the insole (1), the wireless communication module (4) is connected with a terminal analysis device through a wireless signal, the insole (1) comprises an upper insole body (5) and a lower insole body (6), the information acquisition module comprises a flexible circuit board (7) arranged between the upper insole body (5) and the lower insole body (6) and a pressure sensor (8) and a piezoelectric sensor (9) which are electrically connected with the flexible circuit board (7), the data processing module (3) is arranged on the flexible circuit board (7) and is electrically connected with the pressure sensor (8) and the piezoelectric sensor (9), the wireless communication module (4) is arranged on the flexible circuit board (7) and is electrically connected with the data processing module (3), the correcting module (2) comprises a profiling pad (10) which is arranged on the lower side of the pressure sensor (8) and is similar to the surface shape of the upper pad body (5), and a correcting block (11) which is arranged below the profiling pad (10) and is used for adjusting the stress position of the pressure sensor (8).

2. The special mechanical distribution acquisition and analysis device for type selection of the regular shoe pad as claimed in claim 1, wherein: the terminal analysis device comprises a mobile phone or a computer, and software for analyzing pressure data is arranged in the mobile phone or the computer.

3. The special mechanical distribution acquisition and analysis device for type selection of the regular shoe pad as claimed in claim 1, wherein: an interlayer is arranged between the upper cushion body (5) and the lower cushion body (6), a circuit protection plate (12) is arranged in the interlayer, and the circuit protection plate (12) is positioned at the inner waist of the sole.

4. The special mechanical distribution acquisition and analysis device for type selection of the regular shoe pad as claimed in claim 1, wherein: the pressure sensor (8) is a film pressure sensor which is provided with a plurality of toes, a half sole, an outer waist and a heel which are respectively positioned on the sole.

5. The special mechanical distribution acquisition and analysis device for type selection of the regular shoe pad as claimed in claim 1, wherein: the data processing module (3) adopts a microprocessor which is electrically connected with the pressure sensor (8), the piezoelectric sensor (9) and the wireless communication module (4) through a flexible circuit board (7).

6. The special mechanical distribution acquisition and analysis device for type selection of the regular shoe pad as claimed in claim 1, wherein: the wireless communication module (4) comprises a Bluetooth module or a WIFI module.

7. The special mechanical distribution acquisition and analysis device for type selection of the regular shoe pad as claimed in claim 1, wherein: the lower cushion body (6) comprises a sole supporting pad (601) and a cushion block (602) arranged at the bottom of the sole supporting pad (601), a positioning groove is formed in the cushion block (602), the positioning groove is connected with the sole supporting pad (601), an assembling hole (603) is formed in the sole supporting pad (601), and a correcting block (11) is assembled in the assembling hole (603).

8. The special mechanical distribution acquisition and analysis device for type selection of the regular shoe pad as claimed in claim 1, wherein: and the flexible circuit board (7) is also provided with a gyroscope sensor (13) for detecting sole motion, and the gyroscope sensor (13) and the data processing module (3) are arranged.

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