HK1227785A1 - Footwear-type growth stimulation apparatus - Google Patents

Abstract

The present invention relates to a footwear-type growth stimulation apparatus, and more specifically to a growth stimulation apparatus which can give a low-frequency stimulus to a front portion of the sole of the foot of a user who wears it on his/her feet during sleep, can give a continuous stimulus by preventing the feet from being removed therefrom due to twisting and turning during sleep, and can promote the secretion of growth hormone by allowing the weight to be concentrated on the front portion of the sole of the foot even during walking and thus performing continuous Bubbling Spring acupressure.

Description

Foot-wearing type growth stimulation device

Technical Field

The present invention relates to a foot-worn growth stimulator, and more particularly, to a growth stimulator which is worn on a foot to stimulate the front of the sole of the foot with a low frequency while sleeping, prevents the foot from being taken off by rolling over the foot during sleeping to generate continuous stimulation, and also concentrates the body weight on the front of the sole of the foot while walking to promote the secretion of growth hormone by continuously pressing the Yongquan acupoint.

Background

Research results show that the congenital factors account for 23 percent and the acquired factors account for 77 percent of the factors influencing the high yield of the human body. In this case, although the innate factors cannot be changed, the acquired factors can be controlled, and therefore parents need to appropriately manage to increase the height of children.

In addition, the hormones secreted in our body are of a wide variety and have endless effects. Hormones have a close relationship with maintaining general homeostasis such as regulating biological rhythm of a day, regulating body water, ingesting food and metabolism, reproduction, immunity, and producing red blood cells, and thus it is difficult to maintain health as long as the hormone balance is somewhat disrupted. Among them, growth hormone, which plays an important role in increasing height, is one of very critical hormones, and it generates growth factors in the liver to play a role in accelerating human metabolism. Since the secretion amount of growth hormone is sensitively changed depending on body environments such as nutrition, exercise, sleep, etc., it is necessary to create a good condition capable of secreting growth hormone. In particular, more growth hormone is secreted during sleep. Sleep is both resting and energy, and is an indispensable essential factor for increasing height.

For example, when a brain of a user sleeps, the brain of the user shows a regular brain wave, and when the waveform of the brain wave is observed, a rapid eye movement sleep state and a non-rapid eye movement sleep state may repeatedly occur. The rapid eye movement sleeping state is a light sleeping state in which the eyeball can unconsciously rotate during sleeping, and the non-rapid eye movement sleeping state is a deep sleeping state in which the eyeball does not rotate. It is known that the secretion amount of growth hormone increases in the non-rapid eye movement sleep state in which the deep sleep state is entered and the loud sound does not wake up easily.

Therefore, it is required to continuously deliver stimulation through a growth stimulation point in a rapid eye movement sleep state so as to promote a secretion amount of growth hormone.

The foot wearing device for stimulating growth of korean utility model No. 20-0468997 (granted date: 9/5 in 2013, referred to as 'prior document 1') was invented by the present inventors, and it discloses a foot wearing device in which a stimulation pad generating a low frequency is provided at four positions, i.e., a yongquan point in the center of the front portion of the sole, a connecting portion from the front portion of the sole to the toe, a connecting portion from the front portion of the sole to the little toe, and the bottom surface of the thumb. The foot wear of the prior art document 1 uses a fastening unit formed of a hook and loop fastener as a tool for closely attaching the contact surface on which the stimulation pad is formed to the sole surface, but it is fastened only by the instep, and therefore the wearer may get rid of the foot wear due to the rolling over when sleeping.

An energy chip adhesive tape (mounting tape) for promoting body growth and health care, which is disclosed in korean laid-open patent No. 10-2011-0056613 (published: 5/31/2011, referred to as 'prior document 2'), is configured such that a highly elastic tape is attached to the ankle, an energy chip is built in the ankle, and the pressure applied to the ankle by the energy chip stimulates the ankle. The conventional document 2 stimulates the ankle according to the volume of the inserted energy chip, and since there is no specific example of the supplied energy, it can be judged that it is equivalent to a simple far infrared ray, and thus it cannot provide the effect that can be achieved by a low frequency.

In a shoe having a low frequency massage function of korean laid-open patent No. 10-2000-0051458 (published: 3/8/2002, referred to as 'prior document 3'), a plurality of patches are provided on an insole, and a low frequency is generated by a remote controller as needed to massage a foot. The shoe of the prior document 3 has the shape of a conventional general shoe, and thus is difficult to wear when sleeping in a general household.

Disclosure of Invention

Technical problem to be solved

Accordingly, an object of the present invention is to provide a growth stimulation device having a structure that generates low-frequency stimulation at the front of the sole of a foot during sleep to promote secretion of growth hormone and prevents the device from being removed by rolling over the reverse side, thereby generating continuous low-frequency stimulation.

Further, the present invention is directed to increase the thickness of the mat by forming only the front portion of the bottom surface main body of the growth stimulation device, and to concentrate the body weight on the front portion of the sole so that the mat can be continuously pressed by the stimulation mat formed on the upper surface of the bottom surface main body during walking.

(II) technical scheme

The growth stimulation apparatus of the present invention for solving the above problems includes: a main body including a covering layer having a contact surface contacting only a front portion of a sole of a foot, the contact surface having a plurality of stimulation pads formed thereon, and a cushion layer integrally coupled to a lower portion of the covering layer to form a mat, the cushion layer having an insertion opening formed at one side thereof and having a connection terminal connected to a plurality of stimulation pad wires; a control box detachably installed at the insertion port of the main body, having a battery chamber and a control chamber therein, and generating a low frequency by using the received power, the generated low frequency being transmitted to the stimulation pad through a connection terminal of the insertion port; an upper cover extended from both sides of the upper surface of the main body to wrap the instep; and a band integrally connected to the rear of the upper cover, formed of an elastic material, and engaged with the heel.

The outside of control box is provided with on-off switch to operation control box, when setting up the switch to the conducting mode, accessible repetition rest interval and amazing interval move.

In the present invention, the stimulation pad is formed at four positions, i.e., a yungquan point at the center of the front portion of the sole, a connection portion from the front portion of the sole to the thumb, a connection portion from the front portion of the sole to the little toe, and a portion in contact with the bottom surface of the thumb, in the body cover, and a pressing protrusion is formed on the upper surface of the stimulation pad so as to press the sole in contact therewith.

And, the strap may include a bottom support strap downwardly inclined and extended from a rear of the upper cover to wrap the bottom of the heel, and a rear support strap extended from one side of the bottom support strap to a rear to wrap the rear of the heel.

(III) advantageous effects

The growth stimulator according to the present invention having the above-mentioned technical solution is formed with a strap so that a wearer can be prevented from being rolled over the reverse side and taken off while sleeping, and the stimulation pad is kept in contact with the sole of a foot, so that a low frequency generated in the control box can be maximally transferred to the human body for a predetermined time, thereby maximizing the growth hormone secretion function.

Further, since the heel is spaced apart from the ground by a predetermined height when the growth stimulation device is worn, the heel is naturally lifted to concentrate the body weight on the forefoot when walking, and the stimulation pad positioned on the forefoot where the body weight is concentrated is formed with the pressing protrusion, so that stimulation can be generated by pressing even without operating the control box, thereby having an effect of promoting hormone secretion.

Drawings

Fig. 1 is a perspective view showing a foot-worn growth stimulation device according to an embodiment of the present invention.

Fig. 2a and 2b are side photographs and wearing examples of the foot-worn growth stimulation device of the present invention.

Fig. 3 is a plan view of a foot-worn growth stimulation device of the present invention.

Fig. 4a and 4b are a plan view and a sectional view showing a main body of the foot-worn growth stimulation device of the present invention.

Fig. 5 is a perspective view showing a control box of the foot-worn growth stimulation device of the present invention.

Fig. 6 is a cross-sectional view showing another embodiment of the stimulation pad of the present invention.

Description of the reference numerals

10: growth stimulation device

20: main body

21: cladding 22: cushion layer

23: stimulation pad 24: electric wire

25: connection terminal 26: insertion opening

27: anti-skid part

221: wire insertion grooves 231 to 234: first to fourth stimulation pads

235: pressing protrusion 236: electric wire connecting groove

30: control box

31: the box main body 32: battery chamber

33: low-frequency generation chamber 34: connecting terminal

35: on-off switch 36: illumination indicating unit

331: low frequency generator

40: upper cover

41: first cover unit 42: second cover unit

43: the tightening unit 44: auxiliary cover unit

45: auxiliary cover tape

50: clamping belt

51: bottom support band 52: rear support belt

Best mode for carrying out the invention

The present invention will be described in more detail below with reference to the accompanying drawings.

Fig. 1 is a perspective view showing a foot-worn growth stimulation device according to an embodiment of the present invention, fig. 2a and 2b are a side view and a wearing example of the foot-worn growth stimulation device according to the embodiment of the present invention, fig. 3 is a plan view of the foot-worn growth stimulation device according to the present invention, fig. 4a and 4b are a plan view and a sectional view showing a main body of the foot-worn growth stimulation device according to the present invention, fig. 5 is a perspective view showing a control box of the foot-worn growth stimulation device according to the present invention, and fig. 6 is a sectional view showing another embodiment of the stimulation pad according to the present invention.

The foot-worn growth stimulation device 10 of the present invention has a pair of left and right symmetrical shapes, and the right growth stimulation device is a main object of the present invention, and will be described in detail with reference to the drawings.

The growth stimulator 10 has a shoe shape, and includes a main body 20 as a bottom surface, a control box 30 detachably coupled to the main body, an upper cover 40 covering an upper portion of the main body, and a band 50 extending rearward from the upper cover.

First, the body 20 has a certain thickness, similar to the outsole of a general footwear, but as shown in the drawings, has a shape to be attached only to the front portion of the user's ball including the toes. The body 20 has a shape in which a rear portion of a heel for receiving a sole of a foot is removed, that is, a shape formed to have a length of 2/3 from a front end portion to a rear portion, and a thickness of 10 to 20mm, compared to an outsole of a general shoe, so that the heel is lifted up to concentrate a body weight to a front portion when standing after wearing. In addition, the part for placing the toes is only formed into the thumb part, and the rest part is removed, so that the load can be concentrated on the thumb part when the user stands. This is to maximize the pressing effect of the stimulation pad described later. Further, a slip prevention part 27 is formed at a front end of the main body for receiving the thumb, so that the thumb is prevented from slipping to the front through an upper surface of the main body, and thus the thumb can be correctly received.

Referring to fig. 4a and 4b, in the body 20 having the above-described shape, a cover 21 made of leather or a soft material is formed on an upper portion which is a contact surface directly contacting with the sole of a user, and a pad 22 having a certain thickness is formed on a lower portion of the cover so as to absorb an impact from the ground when standing.

Referring to fig. 4a and 4b, a plurality of stimulation pads 23 are formed on the cladding 21 on the upper surface of the body 20. The stimulation pad 23 is formed of a conductive material capable of conducting current, a wide surface is formed on the upper surface exposed through the covering layer so as to be in contact with the sole of a user, the lower surface of the stimulation pad is in a long protruding shape so as to penetrate through the covering layer, and one side of the protruding portion is connected with an electric wire 24 to transmit current. The upper surface of the stimulation pad 23 has a diameter ranging from 7 to 11mm so as to provide a sufficient contact surface for the sole of a human foot, and a connection portion protruding toward the lower portion of the stimulation pad 23 may be formed long so that a portion thereof is inserted into the pad layer 22 and fixed, and a loop-shaped wire connection groove 236 is formed at the portion protruding toward the lower portion so as to easily wind and connect the wire. Also, the upper surface of the mat layer 22 is formed with a wire insertion groove 221, and a wire connected to the stimulation mat is inserted therein, so that the wearing feeling can be improved by preventing the coating from protruding due to the wire.

Referring to fig. 4c, the stimulation pad 23 may be formed with a pressing protrusion 235 protruding upward from an upper surface thereof contacting the sole of the human body. The pressing protrusion 235 protruding upward presses the sole of a foot by applying pressure, and the length of the protrusion from the upper surface of the stimulation pad is in a range of 3 to 8mm, so that the pressing effect is provided by the weight of the user when the user stands while wearing the growth stimulation device. In particular, since the heel portion does not have a main body of the growth stimulation device, the user can raise the heel when standing, and the user can concentrate the body weight on the front portion of the sole of the foot, thereby further increasing the pressing effect.

Such a stimulation pad 23 is composed of a first stimulation pad 231, a second stimulation pad 232, a third stimulation pad 233, and a fourth stimulation pad 234 to transmit current, wherein the first stimulation pad 231 is connected to the Yongquan point at the center of the front portion of the user's sole when worn, the second stimulation pad 232 is connected to the connection portion from the front portion of the sole to the thumb, the third stimulation pad 233 is connected to the connection portion from the front portion of the sole to the little toe, and the fourth stimulation pad 234 is connected to the thumb.

When the sole is divided into 3 equal parts in the longitudinal direction, the yongquan point is located at the middle of 1/3 from the front side of the position where the toe head is located, and the nerves which prevail in the yongquan point in the traditional Chinese medicine are associated with the kidney, so if the yongquan point is stimulated, the kidney is stimulated, thereby promoting the growth of height by strengthening the kidney function. Also, the thumb portion of the foot is the reflex zone of the foot corresponding to the pituitary gland, which can promote the secretion of growth hormone by stimulation. Further, the front part of the ball connected to the thumb of the foot is a foot reflex zone corresponding to the parathyroid gland, and the part to which the little toe is connected is a foot reflex zone corresponding to the bronchus and the lung, so that it is possible to maintain comfortable sleep by strengthening each part, thereby providing an environment in which the secretion of growth hormone can be promoted.

The first stimulation pad 231 has a diameter of about 10mm and the second to fourth stimulation pads 232 and 234 have a diameter of about 7mm, so that the human body can be stimulated by receiving the low frequency signal, and the low frequency polarities applied to the first stimulation pad 231 and the second to fourth stimulation pads 232 and 234 are different from each other, so that the human body can be maximally maintained in balance by applying the current. For example, a low frequency of "+" polarity is applied to the first stimulation pad 231, and a low frequency of "-" polarity is applied to the second to fourth stimulation pads 232 and 234.

An insertion opening 26 is formed at one side of the cushion 22 of the main body 20. The insertion opening 26 is used for inserting a control box 30 described later, and an inner wall thereof is made of a high-strength plastic or metal material, so that the control box inserted inside can be prevented from being pressurized by an external load. The insertion opening 26 having the high-strength inner wall may be formed in the mat, or may have a shape in which a groove is formed from the upper surface to the lower portion of the mat 22 to receive the insertion opening 26 having the high-strength inner portion, and then the envelope 21 is laminated on the upper portion thereof to form the main body.

And, the inner surface of the insertion port 26 is formed with a connection terminal 25 connected with the control box 30, and the connection terminal 25 is connected with the first to fourth stimulation pads 231 and 234 through the electric wire 24, respectively, thereby transmitting the low frequency signal transmitted from the control box inserted into the insertion port to each stimulation pad to stimulate the human body.

Next, referring to fig. 5, the control box 30 inserted into the body insertion opening is constituted by a box-shaped box main body 31, and the box main body is internally divided into a battery chamber 32 in which a battery is mounted and a low frequency generation chamber 33 in which a low frequency generator is built.

Also, a connection terminal 34 is formed on the outer surface of the box body, when the control box is inserted into the body insertion opening, the connection terminal 25 of the body insertion opening is in contact with the connection terminal 34 to transmit a low frequency signal, an on-off switch 35 is formed on the surface exposed to the outside to perform operation and stop by clicking a button, and an illumination indication unit 36 including an LED lamp for indicating whether or not the operation is performed is formed in a portion close to the on-off switch.

The low frequency generator 331 of the control box includes a control unit for performing various controls, converts a power received from a battery into a low frequency signal and transmits the low frequency signal to the connection terminal 34 when receiving an operation signal of the on-off switch 35, and transmits the low frequency transmitted to the connection terminal to the first to fourth stimulation pads 231 to 234 through the connection terminal 25 of the body insertion port connected to the connection terminal and the electric wire 24 connected to the connection terminal, thereby applying an electrical stimulation to the sole of the body.

The control box 30 may generate the low frequency signal when the on/off switch 35 is in the on mode, or generate the low frequency signal according to a pre-stored pattern (pattern) when the on/off switch is in the on mode. In this case, the pattern can be divided into a stimulation interval for generating a low frequency and a rest interval for not generating a low frequency, and the time of the stimulation interval and the rest interval can be adjusted, so that the output intensity of the low frequency applied in the stimulation interval can be changed, and the left and right feet can be stimulated at the same time or with a time difference. If the left and right feet are stimulated at different times, the low-frequency stimulation is generated in sequence, and therefore, when the low-frequency stimulation is generated only on one side, the stimulation effect by the concentration can be further improved.

That is, when the on-off switch 35 is in the on mode, the operation interval may be divided into a first rest interval, a first stimulation interval, a second rest interval, a second stimulation interval, a third rest interval, and a third stimulation interval, and each stimulation interval may generate a low frequency of 20 minutes. The first rest interval is set to 60-80 minutes, and the interval is an interval which is not stimulated and is used for enabling the user to rapidly enter the non-rapid eye movement sleep state after sleeping. The time intervals of the first rest intervals of the left and right feet are set differently from each other, so that low-frequency stimulation can be generated to both feet with a time difference. For example, in each of the above-described intervals, the total of 6 hours or 6 hours and 20 minutes is set as one pattern by setting the first rest interval to 60 minutes or 80 minutes, the first stimulation interval to 20 minutes, the second rest interval to 120 minutes, the second stimulation interval to 20 minutes, the third stimulation interval to 120 minutes, and the third stimulation interval to 20 minutes. In this way, stimulation and rest are repeated so that the body continuously secretes growth hormone by stimulation, and when secretion of growth hormone is reduced, secretion of growth hormone is promoted by re-stimulation, and the purpose is to minimize disturbance of sleep by stimulation and to prevent poor low-frequency stimulation effect caused by decreased sensation by continuous stimulation.

And, the first to third stimulation sections may generate different low frequency output stimuli from each other. That is, the stimulus can be generated by different outputs from each other as compared with the stimulus based on the same low frequency output, so that the stimulus of the body can be generated according to various output ranges. For example, the first stimulation interval may repeatedly output 50 μ a and 150 μ a at intervals of 30 seconds, the second stimulation interval may repeatedly output 75 μ a and 125 μ a at intervals of 30 seconds, and the third stimulation interval may output 100 μ a. Since the sensation becomes dull when a stimulus is applied with one output pulse and the stimulation effect may be reduced, the purpose of changing the low frequency output is to continuously deliver the stimulus by changing the output range, thereby continuously generating growth hormone, and to confirm whether the growth hormone is increased by the way. Further, since the low frequency output range may be larger than the setting range in which sleep is not disturbed and the stimulus to the human body is weak in the case of 50 μ a or less, it is preferable to output the low frequency in the range of 50 μ a to 200 μ a and generate the stimulus.

Referring to fig. 1 to 3, the upper cover 40 of the present invention is formed to extend from both sides of the upper surface of the main body, thereby wrapping the instep of the human body such that the sole of the foot is in surface contact with the upper surface of the main body.

Also, it is preferable that the upper cover 40 has a telescopic structure corresponding to various instep sizes. For example, a portion connected to one side of the main body may be extended longer and the other side may be extended shorter and detached by a buckle or a hook and loop fastener, whereby the size of the inner space for putting the foot may be adjusted by adjusting the length, as shown in the drawings, the first cover unit 41 and the second cover unit 42 are respectively extended from both sides of the main body so as to be able to cover the instep, and the interval between the extended ends of the first cover unit 41 and the second cover unit 42 may be adjusted by the tightening unit 43.

The tightening unit 43 can adjust the interval between the ends of the first and second cover units 41 and 42 by means of a general lace, or connect the first and second cover units with a wire (wire) crossing each other, according to which the wire is wound around a nip roller) The upper degree shortens or lengthens the length of the wire so that the interval between the ends of the first cover unit and the second cover unit can be adjusted.

Also, an auxiliary cover unit 44 is further provided between the first cover unit 41 and the second cover unit 42 and is seated on the instep, so that the string of the tightening unit can be prevented from directly pressing the foot through a gap between the first cover unit and the second cover unit.

Also, the portion for receiving the thumb of the foot also forms a supplementary cover tape 45 having both ends adhered to the main body to place the thumb of the foot at a correct position so that the bottom surface of the thumb of the foot is continuously maintained in surface contact with the fourth stimulation pad 234, thereby generating low frequency stimulation through the fourth stimulation pad.

Referring to fig. 2a and 2b, the clip 50 is integrally coupled to the rear of the upper cover 40, is formed of an elastic material, and is clipped to the heel.

Such a clip 50 has an effect of preventing the growth stimulation device from being separated from the foot due to the rolling-over side when the growth stimulation device is worn for sleeping, and thus can transmit low-frequency stimulation to an important part of the foot when sleeping.

The strap 50 is formed in a Y-shape by a bottom support strap 51 downwardly extended from the rear of the upper cover 40 to wrap the bottom of the heel and a rear support strap 52 rearwardly extended from one side of the bottom support strap to wrap the rear of the heel, so as to be caught on the heel and fixed.

The purpose of dividing the locking portion of the clip 50 into the "Y" shape in this way is to fix the clip to the heel at a constant position with a constant pitch without changing the position of the clip on the foot of the human body. For example, when the fastening band is located only behind the heel or the ankle of the back of the human foot, the fastening band 50 can be moved in the up-down direction with the portion to which the upper cover is attached as a hinge point. The movement of the locking position of the clip can change the direction of the pulling force, thereby changing the space of the insertion leg between the upper cover and the main body. That is, when the growth stimulating device is worn, the tightening unit of the upper cover is adjusted according to the position of the strap 50 so that the main body is brought into contact with the sole surface, and if the locking position of the subsequent strap is changed, the direction in which the strap pulls the upper cover is changed, which may cause the space between the upper cover and the main body to become large, and if the space is increased, the contact between the sole and the main body surface is decreased, which may cause the low frequency transmission rate to be decreased. Accordingly, by forming the band 50 to have the bottom support band 51 and the rear support band 52 separated in a "Y" shape, the variation of the locking position is minimized, and thus the contact of the main body with the sole can be improved.

The wearing state of the growth stimulation apparatus having the above-described structure will be described below.

The foot is inserted into the space between the main body 20 of the growth stimulating device 10 and the upper cover 40, the clip 50 is fixed to the heel, and then the growth stimulating device is attached to the foot of the human body by adjusting the tightening unit 43 of the upper cover.

After wearing the growth stimulation device, the on/off switch 35 of the control box 30 is operated to sleep, and at this time, the control box generates a low frequency according to a set interval to apply stimulation to the soles of the human body connected to the first to fourth stimulation pads 231 to 234. During operation of the growth stimulation device, the growth stimulation device can be prevented from being removed by the tightening unit 43 and the strap 50 even if the wearer rolls over the reverse side.

Further, when the growth stimulation device having the pressing protrusions 235 formed on the first to fourth stimulation pads 231 and 234 is worn to walk, the wearer lifts the heel of the foot and walks because the growth stimulation device does not have a cushion layer for supporting the heel of the foot. As described above, when the wearer walks with the heel lifted, the weight of the human body is concentrated on the front portion of the foot, and the pressing protrusions 235 of the first to fourth stimulation pads 231 to 234 are continuously pressed, so that the wearer can receive not only stimulation due to low frequency but also maximum stimulation due to the pressing protrusions.

The drawings described above are merely examples for the purpose of facilitating the explanation of the content and scope of the technical idea of the present invention, and the technical scope of the present invention is not limited to or modified by the above examples. Further, within the scope of the technical idea of the present invention, a person of ordinary skill in the art to which the present invention belongs can make various modifications and alterations based on these examples.

Claims (6)

1. A foot-worn growth stimulation device, comprising:

a main body including a covering layer having a contact surface contacting only a front portion of a sole of a foot, the contact surface having a plurality of stimulation pads formed thereon, and a cushion layer integrally coupled to a lower portion of the covering layer to form a mat, the cushion layer having an insertion opening formed at one side thereof and having a connection terminal connected to a plurality of stimulation pad wires;

a control box detachably installed at the insertion port of the main body, having a battery chamber and a control chamber therein, and generating a low frequency by using the received power, the generated low frequency being transmitted to the stimulation pad through a connection terminal of the insertion port;

an upper cover extended from both sides of the upper surface of the main body to wrap the instep;

and a band integrally connected to the rear of the upper cover, formed of an elastic material, and engaged with the heel.

2. The foot-worn growth stimulation device according to claim 1, wherein an on-off switch is provided outside the control box to operate the control box,

when the switch is set to the on mode, the operation is performed by repeating the rest interval and the stimulation interval.

3. The foot-worn growth stimulation device according to claim 2, wherein when the on-off switch is in the on mode, the operation interval is divided into a first rest interval, a first stimulation interval, a second rest interval, a second stimulation interval, a third rest interval, and a third stimulation interval, and each stimulation interval generates a low frequency of 20 minutes;

wherein the low frequency repeatedly outputs 50 μ A and 150 μ A at intervals of 30 seconds in the first stimulation interval, 75 μ A and 125 μ A at intervals of 30 seconds in the second stimulation interval, and 100 μ A in the third stimulation interval.

4. The footwearable growth stimulator according to claim 1, wherein the stimulation pad is formed at four positions of a Yongquan point at the center of a front portion of the ball of the foot, a connection portion from the front portion of the ball of the foot to the thumb of the foot, a connection portion from the front portion of the ball of the foot to the little toe, and a portion in contact with the bottom surface of the thumb of the foot in the body covering,

a pressing protrusion is formed on an upper surface of the stimulation pad so as to press a ball of a foot connected thereto.

5. The foot-worn growth stimulation device according to claim 1, wherein the upper cover includes first and second cover units extended from both sides of the upper surface of the main body, and a tightening unit adjusting a space between the upper cover and the main body by connecting the first and second cover units.

6. The foot-worn growth stimulating device of claim 1, wherein the strap comprises a bottom support strap downwardly inclined and extended from the rear of the upper cover to wrap the bottom of the heel, and a rear support strap rearwardly extended from one side of the bottom support strap to wrap the rear of the heel.