KR101538902B1 - Device for hair curling producing far infrared ray and negative ion - Google Patents

Abstract

The present invention relates to a hair curling device producing far-infrared rays and negative ions, capable of promoting blood circulation and cell activation of a scalp by including a heat generation means which generates far-infrared LED and negative ions for radiating far-infrared radiation inside a rod. To solve the problem as described above, the hair curling device producing far-infrared rays and negative ions in accordance with the present invention comprises: an internal rod which is formed in a cylindrical shape and has a long hole in the longitudinal direction; a heat generation means which is installed in the longitudinal direction on the outer circumferential surface of the internal rod and generates heat in accordance with power supply; an LED substrate installed inside the internal rod; a far-infrared LED which is provided on the LED substrate, emits far-infrared rays in accordance with power supply, and is arranged corresponding to the long hole provided in the internal rod; a connection terminal which is provided in one end portion of the internal rod and is connected to an external power supply by being electrically connected to the heat generation means and the LED substrate; and an external rod into which the internal rod is inserted and installed and a locking projection is formed on both end portions and which is formed in an arc shape of which the diameter of a central portion is reduced than the both end portions, wherein the internal rod includes a light emitting means which projects far-infrared rays generated by the far-infrared LED so as to be emitted to the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hair curling apparatus capable of generating far-infrared rays and negative ions,

The present invention relates to a hair curling apparatus in which far infrared rays and negative ions are generated. More specifically, the present invention relates to a hair curling apparatus in which a far infrared ray LED emitting a far infrared ray and a heat generating means generating anion are provided inside a rod, To a hair curling apparatus capable of generating far-infrared rays and anions capable of promoting cell activation.

Generally, as a method of forming a wave on a hair, a method using a cylindrical rod and a method using a hair iron are mainly used.

In the method of using the rod, a permanent solution is applied to the hair of a predetermined width and thickness with a predetermined width and a thickness, the permanent is put on the end of the hair, and then wound around the outer surface of the rod with the rubber band. And then the rod is loosened after a suitable period of time has elapsed after the application of the neutralizing agent in the state that the circular ring-shaped hair wound on the rod is stretched in the form of a spring to form a wave curl in a continuous repetitive S-line shape.

On the other hand, such load permers are classified into a heating type and a non-heating type.

The conventional rod permanent is a non-heating type, which has been practiced for a long time, and the shape of the hair is shaped into a wave pattern of a constant pattern by the action of the permanent liquid using the sectional shape of the rod.

However, the loader using such a common permanent liquid can form curls freely, but it takes a lot of time to perform the pouring operation, and the pouring state can not be maintained for a long time, .

In order to solve this problem, in recent years, a heat of a predetermined temperature has been applied to hair by using a heating rod having an electric or non-electric heating element, for example, a heater or a heat accumulating member inside, By facilitating, a number of setting permers have been practiced to allow the permanent state to be maintained for a long period of time.

As a technique for generating heat from a rod, a hair curling apparatus using a far-infrared ray LED is disclosed in Patent Publication No. 10-1480724.

The above-described technique includes a far-infrared LED emitting far-infrared rays, a LED board having a far-infrared LED mounted thereon, and a connector provided at one end of the LED board, A time switch control unit for controlling the far-infrared emission time of the far-infrared LED; And a cable for connecting the connector and the time switch control unit by wire, wherein the temperature of the beauty device into which the heating unit is inserted can be gradually increased.

The above-mentioned prior art discloses that the rod is provided with a heating part and an LED (Light Emitting Diode) emitting far-infrared rays to facilitate activation of scalp blood vessels by far-infrared rays.

However, the above-described technique has a problem that the far-infrared LED emitting far-infrared rays is disposed inside the rod, and the far-infrared rays generated from the far-infrared LED can not be diverted to the outside of the rod.

KR 10-1480724 B1 2015. 01.05.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and it is an object of the present invention to provide a method of manufacturing a light emitting device, which is provided in a rod and generates far infrared rays and anions, And to provide a hair curling apparatus.

Another problem to be solved by the present invention is to provide a hair curling apparatus having heat generating means for generating heat and capable of promoting the action of a permanent liquid by heat and generating far infrared rays and negative ions capable of emitting negative ions There is.

According to an aspect of the present invention, there is provided a hair curling apparatus for generating far infrared rays and negative ions according to the present invention comprises: an inner rod having a cylindrical shape and having a long hole in a longitudinal direction; Heat generating means installed longitudinally on an outer circumferential surface of the inner rod and generating heat according to power supply; An LED substrate mounted inside the inner rod; A far-infrared LED provided on the LED substrate and radiating a far-infrared ray according to power supply, the far-infrared LED being disposed in correspondence with a slot provided in the inner rod; A connection terminal provided at one end of the inner rod and electrically connected to the heat generating means and the LED substrate to be connected to an external power source; And an outer rod having an inner rod inserted into the outer rod and having an arc shape formed at both ends of the outer rod and having a diameter smaller than a diameter of the central portion of the outer rod, wherein the outer rod has far infrared rays generated by the far- And light emitting means for emitting light to the outside.

At this time, a plurality of light diverging means are provided in the longitudinal direction corresponding to the long holes, and are formed of optical fibers.

The outer shape of the light diverging means is formed to be convex.

According to the present invention, the far-infrared rays generated inside the rod are emitted to the outside through the light diverting means, and the advantage of being able to provide the scalp with warming, wetting, neutralization and resonance by far- have.

In addition, the far infrared rays and anions generated by the heat generating means are transferred to the scalp, thereby enhancing the effect of far infrared rays, the activation of scalp cells by anion, and the immunity resistance.

Thus, damage to the hair can be minimized, and hair loss can be prevented.

1 is a perspective view of a rod in a hair curling apparatus in which far-infrared rays and anions are generated according to the present invention.
2 is an exploded perspective view of a rod in a hair curling apparatus in which far-infrared rays and anions are generated according to the present invention.
3 is a sectional view of a hair curling apparatus in which far-infrared rays and anions are generated according to the present invention.
FIG. 3A is a sectional view taken along line A-A 'in FIG. 1; FIG.
4 is a cross-sectional perspective view of a hair curling apparatus in which far-infrared rays and anions are generated according to the present invention.
FIG. 5 is a view schematically showing a configuration of a control unit in a hair curling apparatus in which far-infrared rays and negative ions are generated according to the present invention. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a hair curling apparatus having a far infrared ray LED emitting a far infrared ray inside a rod and a heat generating means generating an anion to generate far infrared rays and anions capable of promoting blood circulation and cell activation of the scalp.

FIG. 1 is a perspective view of a rod in a hair culling apparatus in which far-infrared rays and anions are generated according to the present invention, FIG. 2 is an exploded perspective view of a rod in a hair culling apparatus in which far-infrared rays and anions are generated according to the present invention, Sectional view of a hair curling apparatus in which far-infrared rays and anions are generated according to the invention.

1 and 2, in the hair culling apparatus according to the present invention, the rod 1 includes an inner rod 10, a heat generating means 20, an LED substrate 30, A far infrared LED 40, a connection terminal 50 and an external rod 60. The control unit 70 supplies power to the rod 1. [

The inner rod 10 has a cylindrical shape and a long hole 11 is provided in the longitudinal direction. At this time, the inner rod 10 may be made of a synthetic resin or a non-conductive material.

Both ends of the inner rod 10 can be formed in a closed state, and at least one end thereof is finished.

The inner rod 10 may have a plurality of elongated holes 11 formed along the circumferential direction and extending along the longitudinal direction of the inner rod 10. According to design conditions, two or more of the long holes 11 may be arranged in the longitudinal direction. Accordingly, ribs 12 are provided between the long holes 11.

The heat generating means 20 is installed in the longitudinal direction on the outer circumferential surface of the inner rod 10 and generates heat according to the power supply. That is, the heat generating means 20 is attached to the outer surface of the rib 12.

The heat generating means 20 uses a principle that a heating element (carbon) is provided between the insulating sheets to apply heat to the heating element and the heating element generates heat by the heating resistance. At this time, in the present invention, the heat generating means 20 may be constituted by using, for example, a film heater.

In order to radiate the far-infrared rays by the operation of the heat generating means 20, the heat generating means 20 is provided with a resistance heating element, for example, a surface treatment of a metal thin plate or a metal oxide, Type carbon black, and a carbon fiber type is applied to radiate (radiate) far-infrared rays from a radiator heated by the heat of conduction of the heating element.

In addition, the resistance heating body applied to release the negative ion generates an alkoxysilanol group through reaction between alkoxysilane and pH-adjusted water, and then silica sol is added to the silane compound in which the silanol group is continuously condensed. The mixture was prepared by mixing 70 to 90 wt% of the inorganic binder solution prepared by mixing and stirring with 2 to 15 wt% of a ceramic powder having a content ratio of far-infrared radiation ceramic and anion emission ceramic of 5 to 15: 1 to 3 and 8 to 15 wt% Coating agents may be used. The inorganic binder solution is prepared by mixing methyltrimethoxysilane and tetraethoxysilane at a ratio of 2: 1, stirring the mixed solution at 60 to 70 wt% with 30 to 40 wt% of silica sol, And the silicon oxide sol obtained by the above method.

The ceramics powder is a material which generates negative ions together with the far-infrared ray emission, for example, selected from among tourmaline, loess, sericite, amethyst, ore, bamboo, quartz, It can be composed of one or more natural stone materials.

In the hair curling apparatus according to the present invention, far-infrared rays and negative ions are emitted according to the operation of the heat generating means 20, and far-infrared rays and negative ions generated by the heat generating means are transmitted to the scalp Thereby enhancing the effect of far-infrared rays and activation of the anion-induced scalp cells, and enhancing immunity resistance.

The LED substrate 30 is installed inside the inner rod 10, and a plurality of far-infrared LEDs 40 are installed. The LED substrate 30 may be formed of a metal PCB to effectively dissipate the heat generated by the far-infrared LED 40 according to design conditions.

The far-infrared LED 40 means an LED emitting far-infrared ray, and the far-infrared ray means light having a wavelength range of 3 to 1,000 μm. At this time, a plurality of the far-infrared LEDs 40 may be provided in the longitudinal direction of the LED substrate 30, and the far-infrared LEDs 40 may be installed along the longitudinal direction of the LED substrate 30, depending on the shape of the LED substrate 30. That is, as shown in FIGS. 2 and 3, the LED substrate 30 is formed in a rectangular parallelepiped shape, and the far-infrared LEDs 40 are arranged on the longitudinal sides of the rectangular parallelepipeds.

Such far-infrared rays are known to have a thermal effect, a drying effect, a biological effect, water activation, aging / growth promotion, penetration and radiation. Therefore, it is possible to provide far-infrared rays effect to scalp and hair in the process of performing permanent by the far-infrared LED 40.

According to design conditions, the LED substrate 30 may be further provided with a red LED to which not only the far-infrared LED 40 but also visible light is irradiated. For example, the far infrared LED 40 and the red LED may be installed at a ratio of 4: 1 to 3: 2.

It is known that the red LED can heal wounds and improve the surface tension. Accordingly, when the far-infrared LED 40 and the red LED are installed in a mixed manner, it is possible to provide the effect of both LEDs on the scalp and hair There are advantages.

The connection terminal 50 is provided at one end of the inner rod 10 and is electrically connected to the heat generating means 20 and the LED substrate 30 and is connected to an external power source. And a male terminal. That is, the connection terminal 50 receives power and supplies power to the heat generating means 20 and the LED substrate 30.

At this time, a fuse for blocking an abnormal current may be installed in the connection terminal 50 according to a short circuit of the heat generating means 20 and an electrical defect of the LED substrate 30. [

The inner rod 10 is inserted into the outer rod 60. The outer rod 60 has an engagement protrusion 61 formed at both ends thereof and has an arc shape having a reduced diameter at the central portion than at both ends.

4 is a cross-sectional perspective view of a hair curling apparatus in which far-infrared rays and anions are generated according to the present invention. Referring to FIG. 4, the inner rod 10 is disposed inside the outer rod 60, At one end of the rod 10, a fixed disk 15 coupled to the inner diameter of the outer rod 60 is provided. At this time, the inner rod 10 of the inner rod 10 is coupled to the inner rod of the outer rod 60 by interference fit, so that the inner rod 10 is coupled to the outer rod 60.

The external rod 60 is provided with a plurality of light diverting means 63 for emitting far infrared rays generated by the far-infrared LED 40 and emitting the far-infrared rays to the outside.

For example, the light diverging unit 63 may be formed of an optical fiber so as to minimize the loss of incident infrared rays, and the outer shape may be convex so that the incident far-infrared rays may be diffused and emitted.

The long rod 11 of the inner rod 10 can be positioned directly below the light diverting means 63 to minimize the loss of the far-infrared rays generated by the far-infrared LED 40, 63, respectively. That is, a plurality of the light diverting means 63 are arranged at the upper portion in the longitudinal direction of the long hole 11.

Here, since the ribs 12 are formed between the long holes 11, the far-infrared rays incident on the inside of the ribs 12 may be lost. Therefore, the reflector 14 may be formed on the inner surface of the rib 12 to minimize the loss of the far-infrared rays generated in the far-infrared LED 40.

Figure 3a shows a cross-sectional view taken along line A-A 'in Figure 1;

Referring to FIG. 3A, the reflector 14 reflects the far-infrared rays to induce emission of the far-infrared rays to the outside. The reflector 14 has an arc shape as it is provided inside the ribs 12. The arc-shaped reflector 14 has an advantage of minimizing loss of the generated far-infrared rays and emitting it to the outside.

As the reflector 14 is provided, the light beam diverging unit 63 provided in the outer rod 60 may have a greater number of arrangements. For example, light diffusing means 63 may be arranged on the ribs 12 between the slots 12, so that efficient external emission of the generated far-infrared rays can be achieved.

A rubber band for preventing unwinding of the curled hair is fastened to the engaging jaws 61 formed at both ends of the outer rod 60 in the course of perming.

Meanwhile, a control unit 70 for supplying power to the rod 1 constructed as described above is provided.

The control unit 70 converts external commercial power into a power suitable for driving the far infrared LED 40 and the heat generating unit 20 and supplies the power to the far infrared ray LED 40 and the heat generating unit 20. FIG. Fig. 3 is a schematic view showing a configuration of a control unit in a curling apparatus; Fig.

Referring to FIG. 5, the controller 70 includes a noise filter 71 for removing noise from an applied AC power source, an AC / DC converter 73 for converting noise-canceled AC power to DC power, A correction circuit module 75 for correcting the voltage output from the AC / DC converter 73 to a set voltage, a time position module 77 for outputting the voltage output from the AC / DC converter 73 for a predetermined time only And a connector 79 for connecting and supplying the power output from the time position module 77 to the connection terminal 50.

Here, the time set in the time position module 77 may be set to be divided into a heating time according to the first input, a heating holding time after the heating time, and a total progress time.

The heating time is the operation of the hair curling apparatus, that is, the heating time of the heat generating means 20 with the start of the permer. During the heating time, the power is continuously supplied. Accordingly, the heat generating means 20 gradually raises the temperature by the supplied power source, and the far-infrared LED 40 also emits the far-infrared rays through continuous light emission.

The heating holding time period is a period for switching the supply of the power supply, and is intended to prevent the rise of the heating temperature due to the continuous power supply. That is, it is possible to prevent the heat generating means 20 from overheating by applying and interrupting the power supply at regular intervals.

At this time, as the time for supplying power is longer and the time for shutting off power is shorter in the heating and holding time, the temperature due to heat generation is kept higher.

The entire process time is set to set the total time that the permer is performed, and when the set time has elapsed, the power is turned off to complete the permer.

Taking the set time as an example, if the total time for performing the pouring is 20 minutes, the heating time may be set to 5 to 10 minutes after the power is turned on. .

By setting such time settings in detail, it is possible to prevent overheat of the heat generating means 20 and to secure the safety of the user.

According to the present invention, the far-infrared rays generated inside the rod are diverted to the outside through the light diverting means, so that they can provide the scalp with heat, moisturizing, neutralizing and resonating action by far- Far infrared rays and anions generated by the means for generating are transmitted to the scalp, thereby promoting the effect of far infrared rays, the activation of scalp cells by anion, and the immunity resistance.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1: Load 10: Internal load
11: long hole 12: rib
14: reflector 15: fixed disk
20: heat generating means 30: LED substrate
40: far-infrared LED 50: connection terminal
60: external load 61: latching jaw
63: Light diverting means 70:
71: Noise filter 73: AC / DC converter
75: correction circuit module 77: time position module
79: Connector

Claims (3)

An inner rod made of a cylindrical shape and having a long hole in the longitudinal direction;
Heat generating means installed longitudinally on an outer circumferential surface of the inner rod and generating heat according to power supply;
An LED substrate mounted inside the inner rod;
A far-infrared LED provided on the LED substrate and radiating a far-infrared ray according to power supply, the far-infrared LED being disposed in correspondence with a slot provided in the inner rod;
A connection terminal provided at one end of the inner rod and electrically connected to the heat generating means and the LED substrate to be connected to an external power source; And
An outer rod inserted and installed with the inner rod, formed at both ends thereof with an engagement step, and having an arc shape whose diameter at the central portion is smaller than that at both ends;
/ RTI >
Wherein the outer rod is provided with a light diverging means for emitting far infrared rays generated by the far-infrared LED to radiate to the outside.
The method according to claim 1,
Wherein the light diverting means comprises a plurality of optical fibers arranged in the longitudinal direction corresponding to the elongated holes, and the far-infrared rays and the negative ions are generated.
The method according to claim 1,
Wherein the outer shape of the light diverging means is formed convexly.

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