KR101722710B1 - Skin waste removal apparatus and method - Google Patents

Abstract

A method for removing dirt waste from skin such as acne caused by pores of the epidermis or dermis in the present invention is characterized in that the skin around the pores in which acne occurs is contained in the suction space and the skin around the pores A preparation step of sucking up the skin and expanding the pore mouth by expanding the skin; and a step of instantly supplying a positive pressure through the extrusion space formed near the pore opening of the suction space, It consists of a removal step to extrude acne waste.

Description

[0001] The present invention relates to a skin waste removal apparatus and a skin waste removal apparatus,

More particularly, the present invention relates to a device for removing wastes in pores without damaging the skin tissue through a positive pressure and a negative pressure, and a method for removing the wastes.

Acne is defined as a chronic inflammatory disease that occurs in the fur branch. In general, younger than 22 years of age acne and 25 years of age or older are classified as adult acne. It is generally known that men are 16 to 19 years old and women are 14 to 16 years old. It usually starts in puberty and disappears in the mid-twenties, but it is also observed in adulthood due to stress and nutrient imbalance in modern times .

The mechanism by which the acne begins is that the male hormone, androgens, stimulates the sebaceous glands of the hair follicle to increase secretion of sebum. The thick stratum corneum causes the sebum to escape from the pores and the bacteria will develop into inflammation . Sometimes it disappears spontaneously, but there are many misunderstandings about the cause, and it is likely that it will become worse with severe symptoms, or there will be signs of keloids and permanent scars.

The precise cause of acne is typically abnormal abnormal hair follicle wall overgrowth and abnormal removal, increased secretion of sebum, proliferation of acne bacteria (Propionibacterium acnes), and inflammation.

First, sebaceous glands are the most common cause of acne. The sebaceous glands play a role in preventing the loss of the natural moisturizing factor of the dermis by applying a film of oil on the surface of the skin, but when excessively secreted, the balance between production and discharge collapses and sebum accumulates in the hair follicle.

Second, the stratum corneum of the skin functions by balancing moisture, lipids, and natural moisturizing factors. Thus, the increase in sebum secretion due to the stimulation of male hormones dilutes the cholesterol and cholesterol sulfates, the lipid components of the hair follicle epithelium, preventing the constituents of the stratum corneum from being balanced. This imbalance, as a result, improves the binding of keratinocyte cells near the hair follicle, preventing the keratin from falling off normally, resulting in abnormal growth of keratin within the hair follicle. When the thick stratum corneum is peeled off in the hair follicle or the hair follicle entrance is blocked, normal sebum discharge is stagnated and the cotton is formed. The resultant cottonseed can be considered as an early stage of acne formation because it provides an environment in which acne bacillus can grow in closed hair follicles and causes inflammation.

Third, when microfilaments are formed due to overgrowth of sebaceous glands and exaggerated follicular wall, sebum discharge and circulation of air become unreliable, thereby creating an environment in which acne bacteria can multiply within the closed follicles. The increase of acne bacteria and staphylococci that reside in the hair follicles breaks down triglycerides, which are constituents of sebum, and converts them into free fatty acids. Various enzymes produced by free fatty acids stimulate the inner wall of the hair follicle to cause white blood cells to collect . Furthermore, when the inner wall of the hair follicle is destroyed by the stimulation of leukocytes and free fatty acids, the content of the hair follicles occluded from the outside of the skin is injected into the skin, that is, the dermis, which is the main factor of producing acne accompanied with inflammation.

The above-mentioned management forms of acne are largely classified into self management including acne extrusion, cleansing, and diet management, skin care including exfoliation and lymph drainage, moisture supply, and medicines or lasers Medical skin care including peeling and eating or applying remedies.

The general acne management method as described above is an acne extrusion method.

First, the acne extrusion method is to open the blocked pores with a steam towel, etc. Then, after disinfecting two cotton swabs by pressing them slightly on the acne area, disinfect the affected area by putting a cotton swab on ethanol or disinfecting lotion for oily skin.

Thereafter, a hole is made in the direction of the main stream using a sterilized needle or a carbon dioxide gas laser, and then extracted with a cotton bud extractor. At this time, the method of extruding acne varies depending on the symptom of the lesion. In case of cotton pouch and small pustule, the punch is punched out through the center. In the case of nodule and cyst, the pancreas is cut and the contents are discharged.

However, conventional acne extrusion self-management methods can not be used to disinfect the site or to adjust the cut depth and size when using a needle, which can lead to unwanted bleeding and skin damage.

In addition, when a needle is used to break the tip of an acne to wring the pus, the probability of contamination of the needle is increased, which may be accompanied by infection, inflammatory pigmentation and scarring.

Korea Public Utility Model 2009-0008760, (2009.09.01) Korean Patent Publication No. 2013-0061321, (2013.06.11)

In order to solve the above-mentioned problems, the apparatus for removing dirt waste of the present invention and the method for removing the dirt waste of the present invention generate negative pressure around the pores around the pores to enlarge the surface area of the skin to expand the pore mouth, And then the positive pressure is directly applied to the skin to extrude waste matter in the pore.

It is also an object of the present invention to improve the therapeutic effect of a skin disease by introducing a drug having a functional ingredient into the air having pressure and allowing the drug to flow into the pore after extrusion of the waste.

In order to accomplish the above object, the present invention provides a method for removing dirt waste such as acne, which occurs in pores of epidermis or dermis, comprising the steps of: A preparation step of sucking the skin around the pore by the negative pressure to expand the pore mouth by the skin expansion; and a step of supplying the positive pressure instantly through the extrusion space formed near the pore mouth of the suction space other than the suction space, And removing the acne waste from the pores through which the entrance is expanded.

According to the present invention, the positive pressure can be applied as a fluid with air having pressure or air having pressure.

According to the present invention, in the preparing step, the end of the suction space inlet where the negative pressure is generated is brought into close contact with the skin around the pore, so that the sound pressure is not lost.

According to the present invention, in the removing step, the pushing force of the positive pressure is transmitted to the inside of the pore such that the extrusion space in which the part of the outer circumferential part of the suction space is located in the groove paired to the pore opening is brought close to the pore opening.

According to the present invention, the waste material extruded from the pores after the removing step is further sucked into the suction space by the negative pressure.

According to the present invention, the fluid allows a drug having a functional function to be applied.

According to the present invention, the fluid is joined to the positive pressure supplied to the extruding space to inject the high-pressure fluid at a high pressure.

According to the present invention, in the sucking step, the waste material extruded from the pores is sucked into the suction space by the negative pressure, and at the same time, the space in which the skin is densely dented by the pressure of the positive pressure is generated and the suction space and the extrusion space are instantaneously Make sure that the positive pressure is sucked into the suction space while communicating.

The apparatus for removing dirt waste of the present invention comprises sound pressure means for providing negative pressure through a duct having a suction space therein to expand the skin around the pores where waste materials accommodated in the suction space inlet are generated to expand the pore inlet, And a positive pressure means for connecting the pipeline having the separated extrusion space to the suction space to provide a positive pressure through the pipeline to momentarily hit the skin around the pore to extrude the acne waste matter from the pores by the impact force.

According to the present invention, the suction space is formed with a groove in which a part of the circumference of the outer circumference is deflected in the direction of the center of the suction space, and a positive pressure means is placed in the groove, .

According to the present invention, the piping of the negative pressure means and the positive pressure means are integrated into one.

According to the present invention, the suction space has a length, and the peripheral diameter of the suction space on the other side is smaller than the inner peripheral diameter of the inlet formed on one side of the suction space.

According to the present invention, the extrusion space has a length, and a peripheral diameter of the suction space on the other side is formed to be larger than an inner peripheral diameter of an inlet formed on one side of the extrusion space.

According to the present invention, a fluid supply line is formed in the other side of the extrusion space to join the fluid to the positive pressure to inject the high-pressure fluid at high pressure.

According to the present invention, the fluid supply line includes an injection unit formed inside the extrusion space and provided with a positive pressure from the outside, a sub merging unit in which the fluid injecting unit is connected to the inlet of the injection unit and the fluid and the air are merged, A high pressure section which is communicated and formed so as to gradually decrease in diameter in the longitudinal direction to increase the pressure and increase the flow velocity; a jetting section communicating with the high pressure section to gradually increase the diameter to inject a positive pressure in which the fluid is merged; And an overflow portion which is formed between the jet portion and the overpressure generated when the positive pressure and the fluid move to the jet portion side flows to the merging portion.

As described above, the device for removing dirt waste of the present invention and the method of removing the dirt waste according to the present invention are capable of absorbing the skin around the pore where the acne has occurred and sucking the skin around the pore by the negative pressure to expand the pore opening by skin inflation. And a removing step of instantly supplying a positive pressure through an extrusion space formed at a position close to a pore opening of the suction space other than the suction space to extrude the acne waste from the pore extending through the mouth through an impact force transmitted to the pore, It expands the surface area of the skin to enlarge the surface area of the pores and directly presses the positive pressure on the skin close to the pore opening to extrude the waste in the pore to the outside, There is an effect to remove.

In addition, the apparatus and method for removing dirt waste from the skin of the present invention can generate sound pressure around the dirt generated in the pores to expand the surface area of the skin, and at the same time, when the functional fluid having pressure on the skin around the dirt penetrating the pores is struck The pores in which the waste material is present are expanded, and the waste material is extruded from the pores. Thereafter, the functional fluid is penetrated into the pores, thereby improving the skin disease treatment effect through the drug having the functional ingredient.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a flow chart showing a method for removing dirt waste from a skin according to the present invention. FIG.
FIG. 2 is a state diagram showing a region of the suction space and the extrusion space in the apparatus for removing dirt waste of the present invention.
3 is a perspective view showing an apparatus for removing dirt waste according to the present invention.
4 is a cross-sectional view of an apparatus for removing waste disposal of a skin of the present invention.
5 is a cross-sectional view of a fluid supply line applied to an apparatus for removing dirt waste of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts have the same reference numerals as much as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

As used herein, the terms " about, " " substantially, " " etc. ", when used to refer to a manufacturing or material tolerance inherent in the stated sense, Accurate or absolute numbers are used to help prevent unauthorized exploitation by unauthorized intruders of the referenced disclosure.

FIG. 1 is a flow chart showing a method for removing dirt waste from the skin of the present invention, FIG. 2 is a state view showing a region of the suction space and the extrusion space in the apparatus for removing dirt waste of the present invention, FIG. FIG. 4 is a cross-sectional view of a device for removing dirt waste of the present invention, and FIG. 5 is a cross-sectional view of a fluid supply line applied to the device for removing dirt waste of the present invention.

First, there are two kinds of holes on our skin surface. One is a thread that is entangled like a bundle of thread on the dermis layer of the dermis. It is a hole through which sweat comes out. The other one is a hole through which oil is produced, which corresponds to a passage where oil is produced outside the skin by attaching an organ which produces and secretes oil called sebaceous gland.

The Hashtyl cholinergic neurotransmitter regulates the secretion of Hashtyl cholinergic hormones, but the sebaceous glands are controlled by male hormones, so they can be found from hormones, the first cause of all troubles in the sebaceous glands that cause acne.

The reason why the sebum, which is excessively produced by the hormone in the human body, can not be discharged out of the epidermis is that the keratinization process in the pore is later than normal and the stratum corneum layer is thickened and the pore opening is filled with waste products such as a bloke head or white head, It is a phenomenon that breaks out. Especially, the bacteria in the pores like sebum, and if they propagate to the sebaceous pores in the pores, they produce and secrete the enzymes for lipolysis, which makes the inside of the pores bored.

The causes of such skin diseases are as follows.

Acne, a typical skin disorder, appears during puberty when sex hormone changes are severe. In the case of females, it can be seen that it is exacerbated before, during and after menstruation, and the increase of hormone secretion by sebum is associated with androgen, which is a male hormone, and other corticosteroids, gonadotropin, thyroid hormone , And steroid drugs are known to be involved in sebum secretion.

In addition, the process of acne due to stress is different from that of men, women are all secreted from the testosterone adrenal gland, so women are more susceptible than men, the stress hormone secreted by the vigorous secretion of sebum production is drastically increased bored face.

In addition, more than 80% of genetically acne skin has a greater number of sebaceous glands, larger sebaceous glands, and genetically promotes keratinization processes naturally, resulting in cells in the hair follicle accumulating on the hair follicle wall, Blocks the entrance to the pore with Fiji.

And pressure friction rubbing habitual touch aggravates skin disease. Pressure and friction stimulate acne seed to promote acne formation and cause follicle wall rupture.

The method for removing the skin disease waste such as the blackhead and the acne including the whitehead from the pores 2 is as follows.

The method for removing dirt waste of the present invention comprises a preparation step and a removal step.

The preparing step and the removing step separate the positive pressure and the negative pressure having the air pressure so that the skin tissue of the pore 10 is expanded in surface area through the negative pressure, and then the waste matter 11 in the pore 10 is extruded through the positive pressure.

Specifically, in the preparation step, the skin around the pore 10 where acne has occurred is contained in the suction space 111, and the skin around the pore 10 is sucked up by the negative pressure to expand the entrance of the pore 10 by skin inflation.

In the removing step, the positive pressure is momentarily supplied through the extrusion space 121 formed near the inlet of the pore 10 other than the suction space 111, and the acne waste matter 11 is extruded from the pore 10 whose inlet is expanded through the impact force transmitted to the pore 10 do.

Here, the positive pressure can be applied as a fluid having pressure or as a fluid having pressure.

That is, the negative pressure refers to a pressure for sucking air and generates a negative pressure in the suction space 111.

The positive pressure discharges the air having the pressure to the extrusion space 121, and the positive pressure mixes the fluid with the air or the pressure air and discharges the high pressure.

Here, the fluid can be applied as a drug having a functional ingredient that helps skin diseases.

In particular, the functional fluid 10 refers to a fluid in which vitamin C powder is dissolved in physiological saline, and in addition, various functional ingredients are mixed with physiological saline.

The skin is elastically expanded into the suction space 111 by the negative pressure so that the inlet end of the suction space 111 where the sound pressure is generated is brought into close contact with the skin around the pore 10 so that the sound pressure is not lost.

Here, the suction space 111 may be formed as a channel having a length, and may have a polygonal shape or a circular shape in cross section. In the present invention, a circular suction space will be described.

In addition, in the removing step, the extrusion space 121 is formed in the groove 112 in which a part of the outer circumferential part of the suction space 111 is pitted near the entrance of the pore 10, so that the extrusion space 121 is located close to the entrance of the pore 10, To the inside of the pore 10, and the waste matter 11 is extruded toward the inlet side of the pore 10. [0054]

This is because when the pore 10 is positioned at the center of the suction space 111, the extrusion space 121 is positioned in the groove 112 which is recessed in any one of the outer circumferences of the suction space, so that the distance between the pore 10 and the extrusion space 121 The impact force of the positive pressure supplied through the extrusion space 121 is transmitted to the inside of the pore, so that the inside of the pore 10 squeezes waste.

Next, after the removing step, the waste matter 11 extruded from the pores 10 through the suction step is sucked into the suction space 111 by the negative pressure, so that the waste matter 11 can be extracted from the pores 10 more easily.

At this time, in the sucking step, the waste material 11 extruded from the pores 10 is sucked into the suction space 111 by the negative pressure, and at the same time, the suction space 111 and the extrusion space 121 The positive pressure is sucked into the suction space 111 while being instantaneously communicated.

When the high pressure fluid supplied to the extrusion space 121 strikes the skin, the abutting skin of the partition wall separating the suction space 111 and the extrusion space 121 is elastically dented by the impact force, Pressure fluid flows into the suction space 111.

Some of the high-pressure fluid is sucked into the suction space 111, and a part of the high-pressure fluid flows into the pores 10 through which the waste material has escaped.

This allows the high-pressure fluid to further improve the treatment of skin disorders in the case of drug ingredients with functional ingredients.

An apparatus for performing the above-described method for removing the waste matter 11 is as follows.

First, the skin disease waste remover 100 is composed of an ejaculation pressure stage and a positive pressure means 120.

The sound pressure means 110 provides sound pressure through a channel having a suction space 111 therein to expand the skin around the pore 10 where the waste material 11 accommodated in the inlet of the suction space 111 is expanded to expand the opening of the pore 10. [

The positive pressure means 120 connects the duct having the extrusion space 121 separated from the suction space 111 to the suction space 111 to provide a positive pressure through the duct to momentarily strike the skin around the pore 10, The acne waste 11 is extruded.

Here, the suction space 111 is formed with a groove 112 in which a part of the outer circumferential periphery is deflected toward the center of the suction space 111, and a channel of the extrusion space 121 is positioned in the groove 112, And an extrusion space 121 is disposed adjacent to the extrusion space 121.

In particular, the ducts of the negative pressure means 110 and the positive pressure means 120 are integrated into one.

In addition, the suction space 111 has a length, and the peripheral diameter of the suction space 111 on the other side is smaller than the inner peripheral diameter of the inlet formed on one side of the suction space 111.

The extrusion space 121 has a length and a peripheral diameter of the suction space 111 on the other side of the inlet formed on one side of the extrusion space 121 is larger than an inner diameter of the inlet.

A fluid supply line 130 is formed in the other side of the extrusion space 121 to join the fluid to the positive pressure to inject the high-pressure fluid at high pressure.

The fluid supply line 130 includes an injection unit 131, a merging unit 132, a high-pressure unit 133, a jetting unit 134, a flow pipe 136, and an overflow unit 135.

The injection unit 131 is formed in the extrusion space and receives a positive pressure from the outside.

In addition, the fluid injecting unit 131 communicates with the inlet of the injection unit 131 to join the fluid and the air.

In addition, the high-pressure portion 133 communicates with the subcomponent 132 and has a function of gradually increasing the diameter in the longitudinal direction, thereby increasing the pressure and increasing the flow velocity.

In addition, the jetting portion 134 is communicated with the high-pressure portion 133 to gradually increase its diameter, thereby injecting a positive pressure in which the fluids are combined.

The flow pipe 136 provides externally supplied fluid to the confluent portion.

The overflow portion 135 is formed between the high pressure portion 133 and the jetting portion 134 so that the overpressure generated when the positive pressure and the fluid move toward the jetting portion 134 flows to the merging portion 132.

The fluid supply line 130 configured as described above is performed based on the venturi effect.

That is, when a positive pressure, which is air having pressure, is regularly provided through the injection part 131 of the fluid supply line 130, if the positive pressure flows into the merged part 132 which is wider than the injection part, the flow pipe 136 communicated with the merging part 132 The fluid is supplied to the confluent portion 132 through the through-

And flows into the high-pressure portion 133 after the fluid having the pressure is mixed with the fluid in the merging portion 132.

At this time, the high-pressure portion 133 has a shape in which the space of the high-pressure portion 133 is narrowed to a portion where the high-pressure portion 133 is connected to the overflow portion 135 at a portion connected to the merging portion 132, so that the pressure of the fluid is low and the flow rate is fast in the narrow passage.

Here, the overflow portion formed at one side of the high pressure portion 133 is connected to the merging portion, and when an overpressure occurs due to a pressure difference of the high pressure portion 133, the overflow portion 135 flows to the merging portion 132 to prevent overpressure.

At the same time, the fluid having a higher velocity as the pressure through the high-pressure portion 133 is lowered is injected outside the extrusion space through the injection portion.

As a result, the present invention generates negative pressure around the pore around the pore to enlarge the surface area of the skin to enlarge the pore opening, and directly suctions the positive pressure against the skin near the pore opening so that waste matter in the pore can be extruded It has the effect of removing the waste matter in pores without damaging the skin tissue.

In addition, when the functional fluid having pressure on the skin around the waste material penetrating into the pores is blown by expanding the surface area of the skin by generating negative pressure around the waste material generated in the pores, the pores in which the waste material is present are instantly expanded and the waste material is extruded from the pores Thereafter, the functional fluid is infiltrated into the pores, thereby improving the therapeutic effect of the skin disease through the drug having the functional ingredient.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be clear to those who have knowledge of.

10: pores 11: wastes
100: waste material removing device 110: sound pressure means
111: Suction space 112: Home
120: positive pressure means 121: extrusion space
130: fluid supply line 131: injection part
132: Booster 133: High voltage
134: jetting section 135: overflow section
136: Flow tube

Claims (15)

delete delete delete delete delete delete delete delete A negative pressure means for providing negative pressure through a channel having a suction space therein to expand the skin around the pore where the waste contained in the suction space inlet is generated to expand the pore inlet,
And a positive pressure means for sucking the acne waste from the pores by impact force by momentarily hitting the skin around the pores by supplying a positive pressure through a channel by connecting a duct having an extrusion space separated from the suction space to the suction space, ,
Wherein the negative pressure means and the positive pressure means are integrated into one.
10. The method of claim 9,
Wherein the suction space is formed with a groove in which a part of the outer circumference is deflected in the direction of the center of the suction space and a pressure means is disposed in the groove and an extrusion space is disposed adjacent to the pores received in the suction space A skin disease waste remover.
delete 10. The method of claim 9,
The suction space has a length,
Wherein a peripheral diameter of the suction space on the other side of the inlet formed on one side of the suction space is smaller than an inner diameter of the inlet formed on the other side of the suction space.
10. The method of claim 9,
The extrusion space has a length,
Wherein a peripheral diameter of the suction space formed on the other side of the inlet formed on one side of the extrusion space is larger than an inner peripheral diameter of the inlet formed on one side of the extrusion space.
10. The method of claim 9,
Wherein a fluid supply line is formed in the other side of the extrusion space to join the fluid to the positive pressure to inject the high pressure fluid at high pressure.
15. The method of claim 14,
Wherein the fluid supply line includes:
An injection unit formed inside the extrusion space and being supplied with positive pressure from the outside,
A sub merging section in which the fluid injecting section is connected to the inlet of the injection section and the air and the fluid are merged,
A high pressure portion communicating with the sub merging portion and formed to gradually decrease its diameter in the longitudinal direction to increase the pressure and increase the flow velocity,
A jetting portion communicating with the high-pressure portion to gradually increase the diameter of the jetting portion,
A flow pipe for supplying an externally provided fluid to the merging portion,
And an overflow portion formed between the high pressure portion and the jetting portion so that the positive pressure and the overpressure generated when the fluid moves to the jetting portion side flow to the merging portion.

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