KR100746504B1 - Shoes with a walking sensor - Google Patents

Abstract

A shoe having a walking sensor is provided to accurately calculate walking times of the shoe by inserting a walking sensor which is connected to a display portion into a slip sole of the shoe. A shoe includes a slip sole(10) positioned on an inner portion of the shoe, a walking sensor(20) formed on one portion of the slip sole, and a display portion(25) formed on one side of the slip sole or shoe to display walking times on the basis of a signal transmitted from the walking sensor. The walking sensor has first and second connecting portions formed between an upper plate and a lower plate and a sensing portion connected to the first connecting portion at one end portion thereof and spaced apart from the second connecting portion in a desired distance at the other end portion thereof.

Description

Shoes with a walking sensor

1 is a perspective view showing a shoe equipped with a walking sensor according to the present invention.

Figure 2 is a perspective view of the walking sensor and the display unit according to the present invention.

3 is a schematic perspective view showing a walking sensor according to the present invention.

Figure 4 is a perspective view of the insole formed with a walking sensor and the display unit according to the present invention.

5A to 5D are schematic views showing a cross section taken along the line A-A of FIG.

6 is a schematic view showing a cross-section taken along the line B-B in FIG.

<Explanation of symbols for main parts of the drawings>

10: Insole 11: Footbow Support

12: buffer hole 15: buffer cover

20: walking sensor 21: first connection portion

22: second connecting portion 23: top plate

24: lower plate 25: display unit

27: support plate 30: sensing unit

31: bend portion 32: elastic support

The present invention relates to a shoe provided with a walking sensor, and more particularly, to a shoe provided with a walking sensor capable of accurately calculating the number of walking due to a short circuit between a sensing part and a second connection part having a curved portion.

Modern people often eat high-calorie foods in the richness of their lives, and do not exercise enough due to their busy schedules, so that various fats accumulate in the body and lead to obesity, exposing them to various adult diseases.

In addition, as the society develops more and more, and the recent well-being well-being fever, modern people are getting more and more interested in exercising to maintain their health, and there are many devices that display the amount of exercise to check their exercise amount. I use it.

Pedometer, one of the devices, is a device that displays the number of walking of the user as known, and the number of walking is calculated when the user's weight moves, and is generally attached to a girdle or neck of a pedestrian. It is a device that displays the number of walks.

However, since the general pedometer must always be carried when walking, there is an inconvenience that can not be used without carrying carelessly. In addition, in order to carry the pedometer to carry on the waist or put in the pocket, etc., the sportswear of a simple dress is inconvenient to wear on the waist, there was a big problem of loss.

In addition, the general pedometer as described above, since the number of walking is calculated by vibration, even if the user only moves the body without walking, the pedometer is operated and counted as the number of walking, which makes it difficult to accurately check the number of walking.

In particular, when the pedometer is mounted on a shoe and the user shakes his foot while sitting on a chair and performs a task, the user is unable to check the exact amount of exercise during the day because it is counted as the number of walking regardless of walking.

In view of the above, the present invention forms a bent portion that can be unfolded by external pressure in the sensing unit, and includes a walking sensor that can accurately calculate the number of walks by a short circuit between the sensing unit in which the bent portion is formed and the second connection unit. The purpose is to provide shoes.

Another purpose is to form an elastic support around the sensing unit, thereby spreading an external pressure exceeding the pressure required for sensing, to extend the life of the sensing unit, and to accurately detect walking.

In addition, by combining the walking sensor and the display unit on one side of the insole and inserting the insole to the desired shoe, it is another object to be able to calculate the number of walking in all shoes.

In order to achieve the above object, the shoe provided with a walking sensor of the present invention, the insole located inside the shoe; A walking sensor formed on one side of the insole; And a display unit which is formed at one side of the shoe or insole and displays a number of times of walking by receiving a signal from the walking sensor, wherein the walking sensor comprises: first and second connecting portions formed at both ends between an upper plate and a lower plate; And one end connected to the first connection part, the other end separated from the second connection part by a predetermined distance, and a plurality of bent parts are formed to extend the bent part by external pressure acting on the upper plate and the other end to the second end part. And a sensing unit connected to the connection unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

Shoes equipped with a walking sensor according to the present invention, as shown in Figures 1 to 3 includes an insole 10, a walking sensor 20 and the display unit 25.

The walking sensor 20 includes first and second connecting parts 21 and 22 formed at both ends between the upper plate 23 and the lower plate 24; And one end is connected to the first connecting portion 21, the other end is separated from the second connecting portion 22 by a predetermined distance, a plurality of bent portion 31 is formed by the external pressure acting on the upper plate 23 The bending part 31 is extended to include a sensing part 30 connected to the other end of the other end 22.

The walking sensor 20 is generally formed only on one side of both shoes, and is installed at a position capable of receiving a load because the walking sensor 20 uses a user's load to detect walking. For example, formed on the heel of the insole 10, which is one side of the insole 10, or the bottom of the front part of the sole, to detect the moment when the shoe touches the ground and falls off the ground when the user starts walking.

At this time, the upper plate 23 to prevent the walking sensor 20 from being damaged or the walking sensor 20 causes a foreign body to the foot due to the pressure between the sole and the ground during walking, as shown in Figure 4 and 6 The walking sensor 20 may be inserted into the foot arch support portion 11 of the insole 10, which may be said that the external pressure acting on the insole 10 is relatively small, and the walking sensor 20 may be manufactured in a thin film form, and the walking sensor 20 may be A lower support plate 27 may be formed.

FIG. 3 is a schematic enlarged perspective view illustrating the inner surface of the walking sensor 20 in detail, wherein a plurality of bent parts 31 extending from the first connecting portion 21 and separated from the second connecting portion 22 by a predetermined distance are formed. The part 30 is located in the space between the upper plate 23 and the lower plate 24. The curved part 31 of the sensing part 30 is formed in various shapes such as a semi-circle, a triangle, or a curved surface up and down. When an external pressure is applied to the upper plate 23 by a predetermined value or more, the curved part 31 is unfolded and the sensing part is extended. The other end of the 30 comes in contact with the second connecting portion 22, and when the external pressure disappears, the bent portion 31 is restored to its original state. The number of walks is calculated by the short circuit of the sensing unit 30 and the second connection unit 22 and is displayed on the display unit 25 accurately.

At least one sensing unit 30 is formed between the first and second connecting units 21 and 22, and the elastic support 32 may be deformed while supporting a large portion of external pressure around the sensing unit 30. Is formed, and the elastic support 32 relieves the external pressure applied to the sensing unit 30 to a large extent, thereby extending the service life of the sensing unit 30. In this case, the shape of the elastic support 32 can be variously modified, and although not shown in the drawing, a flat elastic support may be further formed between the upper plate and the sensing unit or between the lower plate and the sensing unit.

Although the upper plate 23 and the lower plate 24 have some rigidity as an insulator, it is preferable that the upper plate 23 and the lower plate 24 are made of a synthetic resin material that can be bent by an external pressure.

The number of walks calculated by the short circuit between the sensing unit 30 and the second connection unit 22 of the walking sensor 20 is displayed on the display unit 25 formed on one side of the shoe, and the number of walks is reset by the reset button 16. It can be set to zero.

As shown in FIGS. 4 to 5D, the display portion 25 may be inserted into the foot arch support 11 of the insole 10, which is relatively thick and capable of buffering, and has a display portion (such as the shape of the foot arch support 11). 25) can be formed to be curved.

In addition, since a plurality of buffer holes 12 are formed in the lower portion of the foot arch support portion 11 into which the display portion 25 is inserted, a portion of the external pressure applied to the display portion 25 by the air located in the buffer hole 12 is significantly increased. Can be mitigated. At this time, the buffer hole 12 is formed as a cylindrical hole penetrating up and down (FIG. 5B), or formed as a hemispherical or semi-cylindrical on the upper or lower surface of the lower portion of the foot arch support portion 11 into which the display portion 25 is inserted. (FIG. 5C or FIG. 5D).

The foot arch support portion 11 into which the display portion 25 is inserted is formed with a transparent buffer cover 15 that can cover the upper surface of the display portion 25, and has one end of the buffer cover 15 and the foot arch support portion 11. Corresponding Velcro 17 is formed at the stepped portion so that the display portion 25 can be attached and detached (FIG. 5A), and the shock absorbing cover 15 prevents the soles from directly contacting the display portion 25. A buffering role is performed while preventing penetration into the display portion 25.

Although not shown in the drawings, the walking sensor 20 is formed on one side of the upper surface or the lower surface of the display portion 25, and the display portion 25 having the walking sensor 20 is formed on the foot arch support portion 11 of the insole 10. It can be inserted, by inserting the insole 10 in the desired shoes can be easily identified the number of walking in all shoes.

Referring to the function and operation of the shoe equipped with a walking sensor according to a preferred embodiment of the present invention configured as described above are as follows.

First, the walk sensor 20 and the display unit 25 are fitted to one side of the insole 10, and the user wears shoes after inserting the insole 10 into a desired shoe. At this time, the number of walking by the reset button 16 is set to zero.

When the user starts walking or running, the external pressure due to the user's load and the impact force with the ground acts on the upper plate 23 of the walking sensor 20, and the curved portion 31 of the sensing unit 30 is caused by the external pressure. As the other end of the sensing unit 30 is extended to reach the second connecting portion 22, and when the shoe falls off the ground, the external pressure acting on the upper plate 23 is released, and the curved portion 31 of the sensing unit 30 is released. ) Is returned to its original state by the restoring force.

As described above, the number of walks is calculated by the short signal between the sensing unit 30 and the second connection unit 22 and displayed on the display unit 25 numerically. Since the gait sensor 20 accurately detects the moment when the shoe touches the ground and falls off the ground, the walking occurs like an error occurring in a shoe with a pedometer based on a conventional vibration method, that is, sitting on a chair and shaking ankle. It is possible to almost overcome the error that the number of walking is calculated by the movement of the user's foot without doing.

In addition, a plurality of elastic supports 32 formed around the sensing unit 30 to disperse the external pressure in order to prevent the pressure exceeding the pressure required for sensing to act on the curved portion 31, the life of the sensing unit 30 Not only does it extend, it also helps in calculating the correct number of walks.

The user checks the number of walks during the day shown on the display unit 25 after returning home, presses the reset button 16 to set the number of walks to zero, and then moves the insole 10 to the shoe the next day.

The above description is merely illustrative of the technical spirit of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the claims below, and all technical ideas within the scope of the claims should be construed as being included in the scope of the present invention.

Shoes having a walking sensor according to the present invention as described above, by forming a bent portion that can be unfolded by the external pressure in the sensing unit, it is possible to accurately calculate the number of walking by the short circuit between the sensing unit and the second connection portion formed with the bent portion. In addition, there is an effect that can form a thin film of the walking sensor considerably.

By forming the elastic support around the sensing unit, by spreading an external pressure exceeding the pressure required for sensing to extend the life of the sensing unit, there is an effect that can accurately detect whether walking.

In addition, by combining the walking sensor and the display unit on one side of the insole and inserting the insole in the desired shoe can calculate the number of walking in all shoes, and by forming a buffer hole in the lower portion of the insole in which the display is inserted to the external pressure transmitted to the display unit It also has an effect of alleviating damage to the display unit.

Claims (5)

Insole located inside the shoe; A walking sensor formed on one side of the insole; And It is formed on one side of the shoe or insole, and includes a display unit for displaying the number of walking in response to a signal from the walking sensor, The gait sensor, First and second connecting portions formed at both ends between the upper plate and the lower plate; And One end is connected to the first connection part, the other end is separated from the second connection part by a predetermined distance, and a plurality of bent parts are formed so that the bent part is unfolded by external pressure acting on the upper plate and the other end is connected to the second connection part. Shoe provided with a walking sensor, characterized in that it comprises a detection unit connected to. The method of claim 1, Shoes having a walking sensor, characterized in that an elastic support is formed around the sensing unit between the upper plate and the lower plate. The method according to claim 1 or 2, Shoe provided with a walking sensor, characterized in that the walking sensor and the display portion is inserted into the foot arch support of the insole. The method of claim 3, Shoes provided with a walking sensor, characterized in that a plurality of buffer holes are formed in the lower portion of the foot arch support portion is inserted into the display. The method of claim 3, A buffer cover of a transparent material covering the display unit is formed on the foot arch support unit, Foot with a walking sensor, characterized in that the support plate is formed on the lower portion of the walking sensor.

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