CN213939870U - Shoe-pad and intelligent shoes - Google Patents

Abstract

The utility model discloses a shoe-pad and intelligent shoes, including the air cushion layer with lay the shoe pad layer on the air cushion layer, the gasbag has in the air cushion layer, the inside baroceptor that is arranged in detecting the atmospheric pressure change in this gasbag that is equipped with of gasbag, the outside is equipped with and is used for the output baroceptor's atmospheric pressure signal's interface, the shoe pad layer has ventilative structure. The utility model discloses a shoe-pad is equipped with the air cushion layer, is equipped with the gasbag in the air cushion layer, thereby detects the change of gasbag atmospheric pressure through baroceptor and reflects the change of the pressure that the shoe-pad receives to the effort on the shoe-pad is applyed to accurate reflection wearing person. The air pressure sensor is arranged in the air bag and protected by the air bag, and the structure of the air pressure sensor is not damaged due to the fact that the air pressure sensor is easily subjected to excessive pressure like a film pressure sensor for directly detecting pressure.

Description

Shoe-pad and intelligent shoes

Technical Field

The utility model belongs to the technical field of wearing equipment, concretely relates to shoe-pad, and set up the intelligent shoes of shoe-pad.

Background

Due to the rapid development of intelligent wearable devices, the intelligent shoe has been widely researched as an important component of an intelligent shoe in the intelligent wearable device. The intelligent shoe is mainly used for detecting the pressure applied to the shoe by a wearer and reflecting the pressure information to the peripheral equipment. Specifically, the intelligent shoe mainly adopts a plurality of detection devices arranged on the sole to detect pressure. The detection device mainly uses a film pressure sensor to adapt to the structure of the intelligent shoe, so that the pressure is conveniently detected. However, the film pressure sensor is a tiny electronic component, and is easily crushed when a foot of a wearer applies a large pressure to the film pressure sensor on the sole; the shoes will be bent continuously in the use process, and the film pressure sensor is flat, so that the shoes are easy to be damaged when being subjected to continuous bending force. Moreover, the cost of the film pressure sensor is high, so that the price of the intelligent shoe is improved, and the film pressure sensor which is easy to damage can seriously affect the sale and use of the intelligent shoe.

Since the thin film pressure sensor can detect only a partial pressure of the sole of the foot, for the accuracy of the pressure detection, the thin film pressure sensor is generally disposed in each of the fifth, fourth, second and heel areas of the sole of the foot to detect the pressure applied to each area of the sole of the foot. The above areas may cover most of the pressure detection sites of the sole, but may not cover all of the pressure detection sites of all of the sole, thereby affecting the accuracy and integrity of the overall pressure detection data and consequently affecting the subsequent data processing.

SUMMERY OF THE UTILITY MODEL

One of the purposes of the utility model is to provide a shoe-pad which is convenient for detecting pressure and is not easy to damage.

Another object of the utility model is to provide an intelligent shoe with the shoe-pad.

For satisfying the purpose of the utility model, the utility model adopts the following technical scheme:

be adapted to the utility model discloses an one of the purpose provides an insole, include the air cushion layer and lay the shoe pad layer on the air cushion layer, the gasbag has in the air cushion layer, and the inside baroceptor that is arranged in detecting the atmospheric pressure change in this gasbag that is equipped with of gasbag, the outside is equipped with and is used for the output baroceptor's atmospheric pressure signal's interface, the shoe pad layer has ventilative structure.

Preferably, the air pressure sensor is arranged in a box body, one surface or one end of the box body is exposed out of the air cushion layer, and the interface is arranged on the surface.

Preferably, the air pressure sensor comprises a cable for transmitting an air pressure signal, and the cable penetrates through the wall of the air bag to extend to the outside of the air bag to form the interface.

Specifically, the air bag is formed by pressing a plastic material, is of a hollow structure, and is filled with inert gas so that the air cushion can restore to the original shape after being pressed and deformed.

Preferably, the air cushion layers or the air bags are provided in plurality and are respectively arranged in the front sole area and the rear sole area of the insole.

Furthermore, the interface is used for being sleeved with a control device arranged on the sole so as to realize that the control device collects the air pressure signal of the air pressure sensor and outputs the air pressure signal to external equipment.

Be adapted to the utility model discloses another purpose provides an intelligent shoe, a serial communication port, including sole and detachable shoe-pad, the sole is equipped with controlling means, controlling means will atmospheric pressure signal conversion is pressure signal output to external equipment.

Furthermore, the sole is also provided with an inertial sensor and a vibration sensor, the motion track of the intelligent shoe is detected through the inertial sensor, and a motion signal is acquired; the vibration sensor is used for detecting vibration of the intelligent shoe and collecting vibration signals.

Further, the control device comprises a single chip microcomputer, and the single chip microcomputer is used for receiving the air pressure signal, the motion signal and the vibration signal and outputting the pressure signal, the motion signal and the vibration signal to external equipment.

Preferably, the inertial sensor, the vibration sensor and the single chip microcomputer are integrated on a circuit board, and a mounting groove for mounting the circuit board is formed in the sole.

Compared with the prior art, the utility model has the advantages that:

firstly, the utility model discloses an indirect pressure data that acquires of shoe-pad through detecting atmospheric pressure. The air bag is arranged in the air cushion layer of the insole, and the acting force of a wearer on the insole is reflected by the change of the air pressure in the air bag. Therefore, the air pressure sensor is arranged in the air bag, the air pressure in the air bag is detected through the air pressure sensor, and the air pressure data is converted into the pressure data through simple calculation, so that the purpose of detecting the pressure is achieved. The detection mode is simple, and the acting force of the wearer on the insole can be accurately detected.

Secondly, because baroceptor sets up in the gasbag, when the effort was applyed to the gasbag to the wearer, be full of gas in the gasbag, will the buffering effort, and baroceptor does not directly receive the effort to avoid directly acting on baroceptor with pressure, and then protect baroceptor, and can not directly receive the effort that acts on the shoe-pad of wearer like ordinary film pressure sensor, the effort is too big and has destroyed film pressure sensor's structure.

And thirdly, the air bag is arranged on the insole, and the air bag can reflect the whole change of the pressure in the range covered by the air bag, so that the whole stress change condition of the insole is more accurately reflected, and the pressure change of only one point of the installation position of the thin film pressure sensor is not detected.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of the insole of the present invention.

Fig. 2 is a schematic diagram of the circuit principle of the intelligent shoe of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. As used herein, the term "and/or" includes all or any element and all combinations of one or more of the associated listed items.

It will be understood by those within the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The utility model discloses a shoe-pad, this shoe-pad is through detecting the atmospheric pressure that sets up in its gasbag, converts atmospheric pressure data into pressure data to the indirect pressure that detects the shoe-pad and receive.

In an exemplary embodiment of the present invention, as shown in fig. 1, the insole 10 includes an air cushion layer 12 and an insole layer 11 disposed on the air cushion layer 12.

The air cushion layer 12 forms an air bag 121 in the whole body or an air bag 121 is arranged in the air cushion layer 12, the air bag 121 is of a hollow structure, and the volume of the air bag 121 accounts for 80-95% of the air cushion layer 12. The air cushion layer 12 or the bladder 121 is formed by pressing a plastic material to form an airtight bladder 121, which is suitable for a wearer in order to satisfy the soft characteristic of the insole 10, and generally, a material such as sponge is preferably used.

The bag 121 is inflated with an inert gas so that the bag 121 is adapted to be compressed and deformed by the wearer applying a force to the cushion layer 12, but when the force is released, the bag 121 returns to its original shape. When a wearer wears the shoes with the insole 10, the air bag 121 is compressed to deform and recover, so that the foot of the wearer is protected, and the damage and fatigue of the foot during exercise are reduced. The inert gas filled in the air bag 121 will prevent the oxidation of the air pressure sensor 122 and protect the air pressure sensor 122.

The air cushion layer 12 is further provided with an air pressure sensor 122, and the air pressure sensor 122 is used for detecting the change of the air pressure in the air bag 121. Specifically, the air pressure sensor 122 is disposed in the air bag 121 so as to detect a change in air pressure of the air bag 121. The air pressure sensor 122 is fixed to a side wall of the air bag 121, and preferably, the air pressure sensor 122 is provided on a lower side of the air bag 121 in the height direction of the shoe.

The air pressure sensor 122 detects information of a change in air pressure of the air bag 121, acquires an air pressure signal, and outputs the air pressure signal. In order to realize that the air pressure sensor 122 located in the air bag 121 outputs an air pressure signal to the outside, an interface for outputting the air pressure signal is provided on the air cushion layer 12, and the interface is electrically connected to a control device.

In the exemplary embodiment of the present invention, the interface is a cable, and the cable is connected to the air pressure sensor 122, so that the air pressure sensor 122 can be electrically connected to the control device through the cable to output an air pressure signal. Meanwhile, in order to realize the air tightness of the air bag 121 and avoid air leakage caused by the connection of the cable between the air pressure sensor 122 inside the air bag 121 and the control device outside the air bag 121, the cable and the air bag 121 are manufactured together when the air bag 121 is manufactured, so that the air hole cannot be left on the air bag 121 by the cable, and the air tightness of the air bag 121 is ensured.

In some embodiments, the air pressure sensor 122 is disposed in a box, one surface of the box is exposed on the outer side surface of the air cushion layer 12 or one end of the box protrudes out of the outer side surface of the air cushion layer 12, and an interface for the air pressure sensor 122 to output an air pressure signal to the outside is disposed on the one surface or the one end of the box, so that the air pressure sensor 122 disposed in the air bag 121 and the box is electrically connected to the control device through the interface disposed on the box, so that the air pressure sensor 122 can output an air pressure signal to the control device.

In an exemplary embodiment of the present invention, the air cushion layer 12 is one or more. When the air cushion layer 12 is one, the air cells 121 of the air cushion layer 12 directly cover the entire sole area of the insole 10, so as to integrally detect the applied force of the sole of the wearer on the insole 10. When there are multiple air cushion layers 12, the multiple air cushion layers 12 are respectively disposed in the front sole area and the rear sole area of the insole 10, so as to respectively detect the acting forces applied by the wearer to different areas of the insole 10. For example, four air cushion layers 12 are provided, one air cushion layer 12 is provided on each of the left and right sides of the front sole region of insole 10, and one air cushion layer 12 is provided on each of the left and right sides of the rear sole region of insole 10, so that the right and left sides of the front sole region and the rear sole region receive accurate forces.

In another embodiment of the present invention, one or more air cells 121 are provided within the air cushion layer 12. When the air bag 121 is one, the air bag 121 is formed by the air cushion layer 12 in whole for detecting the acting force applied to the insole 10. When there are a plurality of air bags 121 in the air cushion layer 12, the area of the air cushion layer 12 is similar to the area of the insole 10, and the air bags 121 are uniformly distributed on the air cushion layer 12. Generally, the air cells 121 are uniformly distributed in the front sole region or the rear sole region of the air cushion layer 12 so as to detect the acting force on each part of the insole 10.

Insole layer 11 of insole 10 is located above air cushion layer 12, and insole layer 11 is intended to directly contact the sole of a wearer's foot, subject to forces exerted by the wearer through his foot.

The utility model also discloses an intelligent shoe, this intelligent shoe include the sole and as above shoe-pad 10, shoe-pad 10 set up in on the sole.

The sole is provided with a control device, an inertial sensor 211, a vibration sensor 212 and a communication module 22.

Those skilled in the art will appreciate that the inertial sensor 211 includes an acceleration sensor and a gyroscope. The utility model discloses in, when using inertial sensor 211 to detect the person of wearing to dress intelligent shoes, the motion trail of intelligent shoes gathers motion signal.

The vibration sensor 212 is used for detecting vibration received by the intelligent shoe when the intelligent shoe is worn by a wearer and collecting a vibration signal.

The communication module 22 is configured to output information to an external device, and specifically, may implement signal transmission by bluetooth, data communication, radio frequency, or the like.

The control device includes a single chip microcomputer 213, and the single chip microcomputer 213 is electrically connected to an interface on the air cushion layer 12 of the insole 10, which is used for outputting an air pressure signal detected and obtained by the air pressure sensor 122, specifically, to an interface on the cable or the box body. The single chip microcomputer 213 converts the air pressure signal into pressure information through operation to reflect the pressure condition of the insole 10, and outputs the pressure information to external equipment through the communication module 22. Alternatively, in some embodiments of the present invention, the single chip microcomputer 213 directly outputs the air pressure signal to the external device through the communication module 22.

The single chip microcomputer 213 is further electrically connected to the inertial sensor 211 and the vibration sensor 212, receives the motion signal output by the inertial sensor 211 and the vibration signal output by the vibration sensor 212, and the single chip microcomputer 213 outputs the motion signal or the vibration signal to an external device through the communication module 22 after receiving the motion signal or the vibration signal.

In some embodiments, the inertial sensor 211, the vibration sensor 212, the communication module 22 and the single chip microcomputer 213 on the sole are integrated on a circuit board, a mounting groove for mounting the circuit board is formed in the sole, and the circuit board is arranged in the mounting groove so as to save the space of the sole and reduce the size of the intelligent shoe.

In some embodiments, a battery 214 is further disposed on the insole 10, the battery 214 is used for supplying power to the sole and various electrical components on the insole 10, and the battery 214 is charged by wireless charging.

In some embodiments, the intelligent shoe further comprises a shoe body, wherein the shoe body is provided with an insole 10 for accommodating the sole and the insole 10, the sole and the insole 10 are arranged in the insole 10, and the sole is positioned below the insole 10. Specifically, in this embodiment, the sole and the insole 10 can be taken out from the shoe cavity and manufactured separately.

And the external equipment generates the pressed information and the motion information of the feet of the wearer according to the pressure information or the air pressure signal and the motion signal and the vibration signal so as to be used for intelligent equipment or intelligent games.

To sum up, the utility model discloses a shoe-pad is equipped with the air cushion layer, is equipped with the gasbag in the air cushion layer, thereby detects the change of gasbag atmospheric pressure through baroceptor and reflects the change of the pressure that the shoe-pad receives to the effort on the shoe-pad is applyed to the accurate reflection person of dress. The air pressure sensor is arranged in the air bag and protected by the air bag, and the structure of the air pressure sensor is not damaged due to the fact that the air pressure sensor is easily subjected to excessive pressure like a film pressure sensor for directly detecting pressure.

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

Claims (10)

1. The utility model provides an insole, its characterized in that, includes the air cushion layer and lays the insole layer on the air cushion layer, have the gasbag in the air cushion layer, the inside baroceptor that is arranged in detecting the atmospheric pressure change in this gasbag that is equipped with of gasbag, the outside is equipped with and is used for exporting baroceptor's atmospheric pressure signal's interface, the insole layer has ventilative structure.

2. An insole according to claim 1, wherein said air pressure sensor is provided in a casing having one or one end exposed to the air cushion layer and said interface provided at that face.

3. The insole of claim 1, wherein said air pressure sensor comprises a cable for transmitting an air pressure signal, said cable passing through a wall of said bladder to extend outside said bladder to form said interface.

4. The insole of claim 1, wherein said bladder is formed by pressing a plastic material, said bladder is hollow, and an inert gas is filled in said bladder to allow said air cushion layer to recover its original shape after being deformed by pressure.

5. The insole of claim 1, wherein said plurality of cushion layers or bladders are disposed in a forefoot region and a rearfoot region of the insole, respectively.

6. The insole of any one of claims 1 to 5, wherein said interface is adapted to be coupled to a control device mounted on the sole, so as to enable said control device to collect the air pressure signal of said air pressure sensor and output it to an external device.

7. An intelligent shoe, characterized by comprising a sole and a detachable insole, wherein the insole is the insole as claimed in any one of claims 1 to 6, the sole is provided with a control device, and the control device converts the air pressure signal into a pressure signal and outputs the pressure signal to an external device.

8. The intelligent shoe as claimed in claim 7, wherein the sole is further provided with an inertial sensor and a vibration sensor, and the inertial sensor is used for detecting the motion track of the intelligent shoe and acquiring motion signals; the vibration sensor is used for detecting vibration of the intelligent shoe and collecting vibration signals.

9. The intelligent shoe as claimed in claim 8, wherein the control device comprises a single chip microcomputer, and the single chip microcomputer is used for receiving the air pressure signal, the motion signal and the vibration signal and outputting the pressure signal, the motion signal and the vibration signal to an external device.

10. The intelligent shoe as claimed in claim 9, wherein the inertial sensor, the vibration sensor and the single chip microcomputer are integrated on a circuit board, and a mounting groove for mounting the circuit board is formed on the sole.

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