KR102687027B1 - Insole with microcurrent stimulus apparatus - Google Patents

Abstract

The microcurrent stimulation insole according to the present invention delivers microcurrent generated by a piezoelectric element to the sole of the foot, thereby relieving foot fatigue that occurs while walking. In particular, the functional component and the main body component are manufactured separately and combined. Through this structure, it is possible to improve manufacturing productivity and reduce product defect rates, and when an element that implements the body stimulation function breaks down, only that element can be replaced and used, thereby reducing maintenance costs.

Description

Insole with microcurrent stimulus apparatus}

The present invention relates to a microcurrent stimulation insole, and more specifically, by transmitting a microcurrent generated by a piezoelectric element to the sole of the foot, it is possible to relieve foot fatigue that occurs during walking, and in particular, functional components and the main body. By providing a structure in which components are manufactured separately and combined, it is possible to improve manufacturing productivity and reduce product defect rates. In the event of a failure of an element that implements a body stimulation function, only that element can be replaced and used, reducing maintenance costs. This is about a microcurrent stimulation type insole that can promote

The feet play an important role in supporting the weight of the human body and maintaining balance, and the soles of the feet are dense with so many peripheral blood vessels that they are called the second heart. These feet serve as the cornerstone of the body, reduce the impact of body weight hitting the floor, use leverage to push the body forward like a spring bouncing, and maintain body balance. do.

In order to keep your feet healthy, it is important to practice proper walking techniques. The correct way to walk is to raise your neck slightly, raise your gaze, pull in your chin, and walk with your back straight so that your buttocks do not fall out. Instead of sticking out your stomach, stick your chest forward and lightly swing your arms back and forth as if your weight is slightly leaning forward. .

However, in real life, it is not easy to practice the correct walking method, and even if you practice it, it is impossible to check whether it is the correct posture.

The incorrect walking style of modern people causes fatigue in the feet and puts stress on the ankles, knees, and waist joints, putting the risk of injury. Additionally, the more fatigue in your feet accumulates, the more difficult it becomes to correct your walking method.

Republic of Korea Patent Publication No. 10-2019-0077149 discloses a technology for stimulating micro-current insole while walking while wearing shoes, and the non-rechargeable weak current insole in Republic of Korea Patent No. 10-2107112 is rechargeable. A technology has been disclosed in which a weak current is formed to flow through the soles of the feet using a power source that can be used continuously even without power.

However, prior patent literature discloses a technology for reducing foot fatigue through microcurrent without considering foot shape, arch height, or foot fatigue area, which vary from person to person.

In other words, there is a need for research to develop technology that can relieve the area of foot fatigue that varies depending on the shape of the foot and walking method.

Republic of Korea Patent Publication No. 10-2019-0077149 Insole that generates microcurrent Republic of Korea Patent No. 10-2107112 Non-rechargeable weak current insole

Therefore, the present invention improves the problems of the prior art and transmits the microcurrent generated by the piezoelectric element to the sole of the foot, thereby relieving foot fatigue that occurs while walking, especially functional components and body components. By providing a structure in which parts are manufactured separately and combined, it is possible to improve manufacturing productivity and reduce the product defect rate. In case of failure of the element implementing the body stimulation function, only the element can be replaced and used, thereby reducing maintenance costs. The purpose is to provide a new type of microcurrent stimulation type insole that can

According to the features of the present invention for achieving the above-described object, the present invention includes an insole body 100 in which a mounting space 110 is formed to be open in the front and rear longitudinal directions at the center portion in the width direction; A functional insole piece 200 that is manufactured separately and independently of the insole body 100, is inserted and fixed into the mounting space 110 of the insole body 100, and forms the upper and lower surfaces of the insole together with the insole body 100. ; A piezoelectric element (300) disposed on the functional insole piece (200) and generating power (electric power source) when pressure is applied from the sole of the foot according to the walking motion; A micro-current stimulator (400) disposed on the upper surface of the functional insole piece (200), receives power from the piezoelectric element (300), and outputs micro-current stimulation waves in a set pattern to stimulate the soles of the user's feet; It provides a microcurrent stimulation type insole, characterized in that it consists of a composition comprising.

In the microcurrent stimulation type insole according to the present invention, the mounting space 110 of the insole body 100 includes a first space portion 112 formed in a round shape in the area corresponding to the instep, and the first space portion. It may be composed of a second space portion 113 that extends forward from (112) and is formed in the shape of a straight line in the front-to-back longitudinal direction,

The functional insole piece 200 is formed in a round shape and has a piezoelectric element placement portion 210 that is inserted into the first space portion 112 and is formed in a straight line shape and is inserted into the second space portion 113. It may consist of a magnetic pole placement unit 220.

In the microcurrent stimulation type insole according to the present invention, the stimulation body arrangement portion 220 of the functional insole piece 200 is customized by varying the length and size according to the stimulation area, which can be set differently for each user. , the microcurrent stimulator 400 can be placed in a user-customized manner at a stimulation site that can be set differently for each user.

In the microcurrent stimulation type insole according to the present invention, the insole body 100 and the functional insole piece 200 are made of silicone material, and the sole contact sheet 500 made of cotton material is connected to the insole body 100. It can be coupled to the upper surface formed by the functional insole pyeonche 200.

The microcurrent stimulation insole according to the present invention receives power generated from the piezoelectric element 300, induces the generation of a microcurrent stimulation wave of a set pattern, and applies it to the microcurrent stimulation body 400, A PCB (600) that includes a communication unit (610) that wirelessly connects to the mobile device (800) and the integrated server (900) and collects individual plantar data; A remote control 700 that is linked to the communication unit 610 of the PCB 600 and selects a microcurrent stimulation body 400 to receive a microcurrent stimulation wave to enable user customized selection of the stimulation site; Personal health information is set, individual plantar data is received from the PCB (600), and a personalized lower insole member shape is created through artificial intelligence analysis of the pre-entered personal health information and plantar data transmitted from the PCB (600). A mobile device 800 that presents; It may include an integrated server 900 that accumulates and stores pre-entered personal health information and plantar data, and presents a general-purpose lower insole member shape by building big data on connected users.

According to the microcurrent stimulation insole according to the present invention, manufacturing productivity is improved through a structure in which functional components and main body components are manufactured separately and combined, and in particular, the electrical connection portion (power supply unit) between the piezoelectric element and the microcurrent stimulator is As it has a structure that is separated from the insole body and manufactured independently and combined with the insole body, the occurrence of defects in the power supply during the manufacturing process is reduced, which has the effect of reducing the product defect rate. In addition, the present invention has the effect of reducing maintenance costs because when an element implementing the body stimulation function breaks down, only the element can be replaced and used.

1 is an exploded perspective view of a microcurrent stimulation insole according to an embodiment of the present invention;
Figure 2 is a perspective view of a combined microcurrent stimulation insole according to an embodiment of the present invention;
Figure 3 is a diagram showing a structure for improving breathability of the insole body according to an embodiment of the present invention;
Figure 4 is a control configuration block diagram of a microcurrent stimulation insole according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail based on the attached drawings. Meanwhile, in the drawings and detailed descriptions, illustrations and references to structures and operations that can be easily understood by those in the field are simplified or omitted. In particular, in the illustrations and detailed descriptions of the drawings, detailed descriptions and illustrations of specific technical configurations and operations of elements that are not directly related to the technical features of the present invention are omitted, and only the technical configurations related to the present invention are briefly shown or described. did.

The microcurrent stimulation type insole according to an embodiment of the present invention includes an insole body 100, a functional insole piece 200, a piezoelectric element 300, and a microcurrent stimulation body 400, as shown in FIGS. 1 and 2. It consists of:

The insole body 100 is a main body component that occupies most of the entire area of the insole, and is formed with an open mounting space 110 in the front and rear longitudinal directions at the center of the insole in the width direction.

Here, the mounting space 110 of the insole body 100 is composed of a first space 112 and a second space 113.

The first space 112 is formed in a round shape in the area corresponding to the instep. As the first space 112 is a spatial area where the piezoelectric element 300 is disposed, it is formed with a large area so that the pressure applied from the sole of the foot can be sufficiently accommodated.

The second space 113 extends forward from the first space 112 and is formed in the shape of a straight line in the front-to-back longitudinal direction. As the second space 113 is a spatial area where the microcurrent stimulator 400 is placed, it is formed long so that various areas that require stimulation (forefoot area corresponding area, arch area corresponding area, heel area corresponding area, etc.) This is to ensure that it is inclusive.

Meanwhile, the insole body 100 can improve breathability by forming a plurality of through holes 120 penetrating up and down the entire area or the central area, as shown in FIG. 3.

The functional insole piece 200 is manufactured separately from the insole body 100, and occupies a portion of the entire insole area. This functional insole piece 200 is a functional component to which the piezoelectric element 300 and the microcurrent stimulator 400 are fixed, and is inserted and fixed into the mounting space 110 of the insole body 100 to form the insole body 100. Together with this, it forms the upper and lower surfaces of the insole. The functional insole piece 200 may be integrally combined with the insole body 100 by adhesive or heat compression.

Here, the functional insole piece 200 is composed of a piezoelectric element placement part 210 and a magnetic pole body placement part 220.

The piezoelectric element placement portion 210 is formed in a round shape and is inserted into the first space 112, and is formed in a round shape with a large area so that the pressure applied from the sole of the foot can be sufficiently accommodated.

The stimulation body arrangement part 220 is formed in the shape of a straight line and is inserted into the second space 113. It is formed in a long straight line so that various areas requiring stimulation can be covered. Such a stimulation body arrangement unit 220 can be customized to the user by varying the length and size according to the stimulation area, which can be set differently for each user.

Meanwhile, the insole body 100 and the functional insole piece 200 are made of silicone material, which allows pressure to be distributed over the entire sole, improving fit and lowering the insole height. And a sole contact sheet 500 made of a cotton material is coupled to the upper surface formed by the insole body 100 and the functional insole piece 200.

The piezoelectric element 300 is disposed on the functional insole piece 200 and generates power (electric power source) when pressure is applied from the sole of the foot according to the walking motion.

The microcurrent stimulation body 400 is placed on the upper surface of the functional insole piece 200, receives power from the piezoelectric element 300, and outputs microcurrent stimulation waves in a set pattern to stimulate the soles of the user's feet. . Here, the microcurrent stimulation body is disposed on the stimulation body arrangement part 220 of the functional insole body 200, and may be placed on the piezoelectric element arrangement part 210 of the functional insole body 200 for stimulation of the heel area. .

The microcurrent stimulator 400 can be placed in a user-customized manner at stimulation areas (forefoot area, arch area, heel area, etc.) that can be set differently for each user.

Meanwhile, the microcurrent stimulation insole according to an embodiment of the present invention may include a PCB 600, a remote control 700, a mobile device 800, and an integrated server 900, as shown in FIG. 4.

The PCB 600 receives the power generated from the piezoelectric element 300, which induces the generation of a microcurrent stimulation wave of a set pattern and applies it to the microcurrent stimulation body 400. In addition, the PCB 600 includes a communication unit 610 that wirelessly connects to the mobile device 800 and the integrated server 900, and collects individual footpad data. Here, plantar data is collected and stored, including the pressure the foot applies to the ground, the order of parts touching the ground, or the direction of the foot. For this purpose, a plurality of pressure sensors are disposed on the insole body 100 and the functional insole piece 200.

The remote control 700 is linked to the communication unit 610 of the PCB 600, and selects the microcurrent stimulator 400 to receive microcurrent stimulation waves, allowing user customized selection of the stimulation site.

The mobile device 800 has personal health information set and receives individual plantar data from the PCB 600, and performs artificial intelligence analysis on the pre-entered personal health information and plantar data transmitted from the PCB 600. Through this, a personalized lower insole member shape can be presented.

The integrated server 900 accumulates and stores pre-entered personal health information and plantar data, and by building big data on users who access the integrated server 900, it is possible to present a general-purpose lower insole member shape. there is. The shape of the lower insole member may vary depending on the height and shape of the foot arch and the walking method, and the shape of the lower insole member may vary depending on foot-related diseases such as plantar fasciitis.

Meanwhile, a heating pad controlled by a remote control can be attached to the upper part of the insole body 100, and the heating pad can be operated by a remote control on days when the temperature is low.

The microcurrent stimulation insole according to an embodiment of the present invention configured as described above transmits the microcurrent generated by the piezoelectric element 300 to the sole of the foot, thereby relieving foot fatigue that occurs while walking. In particular, the microcurrent stimulation insole according to an embodiment of the present invention provides a structure in which functional components and main body components are manufactured separately and combined, thereby improving manufacturing productivity and reducing product defect rates, and providing a body stimulation function. When an implemented element breaks down, only that element can be replaced and used, thereby reducing maintenance costs.

As described above, the microcurrent stimulation type insole according to an embodiment of the present invention is shown according to the above description and drawings, but this is merely an example and various changes and changes may be made without departing from the technical spirit of the present invention. Those skilled in the art will be well aware that changes are possible.

100: Insole body
110: Mounting space
112: First space part
113: Second space part
120: Tonggong
200: Functional insole piece
210: Piezoelectric element placement unit
220: Stimulator placement unit
300: Piezoelectric element
400: Microcurrent stimulator
500: sole contact sheet
600: PCB
610: Communication unit
700: remote control
800: Mobile device
900: Integrated server

Claims (5)

An insole body 100 having a mounting space 110 open in the front and rear longitudinal directions at the center of the width direction; A functional insole piece 200 that is manufactured separately and independently of the insole body 100, is inserted and fixed into the mounting space 110 of the insole body 100, and forms the upper and lower surfaces of the insole together with the insole body 100. ; A piezoelectric element (300) disposed on the functional insole piece (200) and generating power (electric power source) when pressure is applied from the sole of the foot according to the walking motion; A micro-current stimulator (400) disposed on the upper surface of the functional insole piece (200), receives power from the piezoelectric element (300), and outputs micro-current stimulation waves in a set pattern to stimulate the soles of the user's feet; It is disposed on the insole body 100 and the functional insole piece 200 to collect individual plantar data, wherein the plantar data includes a pressure sensor including the pressure applied by the foot to the ground, the order of parts in contact with the ground, and the direction of the foot. It consists of:
The power generated from the piezoelectric element 300 is received, and the generation of a microcurrent stimulation wave of a set pattern is induced and applied to the microcurrent stimulation body 400, and transmitted to the mobile device 800 and the integrated server 900. A PCB (600) that includes a wirelessly connected communication unit (610) and collects individual plantar data; A remote control (700) that is linked to the communication unit (610) of the PCB (600) and selects a microcurrent stimulation body (400) to which microcurrent stimulation waves will be applied to enable user customized selection of the stimulation site; Personal health information is set, individual plantar data is received from the PCB (600), and a personalized lower insole member shape is created through artificial intelligence analysis of the pre-entered personal health information and plantar data transmitted from the PCB (600). A mobile device 800 that presents; By accumulatively storing pre-entered personal health information and plantar data and constructing big data for connected users, a general-purpose lower insole member shape is presented. The lower insole member shape is based on foot arch height and shape, plantar fasciitis, etc. A microcurrent stimulation type insole comprising an integrated server (900) having a shape corresponding to foot-related diseases such as. According to clause 1,
The mounting space 110 of the insole body 100 is,
A first space 112 formed in a round shape in the area corresponding to the instep region, and a second space 113 extending forward from the first space 112 and formed in the shape of a straight line in the front-to-back longitudinal direction. ) consists of,
The functional insole piece 200 is,
It consists of a piezoelectric element arrangement part 210 formed in a round shape and inserted into the first space 112, and a magnetic pole element arrangement part 220 formed in a straight line shape and inserted into the second space 113. A microcurrent stimulation insole characterized by According to clause 2,
The stimulation body arrangement portion 220 of the functional insole piece 200 is customized by varying the length and size according to the stimulation area that can be set differently for each user,
The microcurrent stimulation body 400 is a microcurrent stimulation insole characterized in that it is placed in a user-customized manner at a stimulation area that can be set differently for each user. According to clause 1,
The insole body 100 and the functional insole piece 200 are made of a silicone material, and the sole contact sheet 500 made of a cotton material is coupled to the upper surface formed by the insole body 100 and the functional insole piece 200. A microcurrent stimulation insole characterized by delete