KR20160069331A - Sanitary towel apparatus using plasma - Google Patents

Abstract

The present invention relates to a cloth sanitary towel washing device using a plasma. The cloth sanitary towel washing device comprises: a front cover having a hydroxyl group electrode plate; a rear cover coupled with the front cover, and constituting a main body by forming an accommodation space; a battery disposed in the accommodation space, and applying driving electricity to the hydroxyl group electrode plate; and a control substrate disposed in the accommodation space, and controlling the operation of the hydroxyl group electrode plate. The hydroxyl group electrode plate emits a hydroxyl group to the outside of the front cover according to the applied driving electricity. According to the present invention, menstruation blood may be rapidly removed and sterilized from a cloth sanitary towel in water, and a hydroxyl group electrode plate may be replaced and semi-permanently used when a plating part thereon is oxidized and removed.

Description

[0001] The present invention relates to a sanitary towel apparatus using plasma,

The present invention relates to a facial sanitary napkin cleaning apparatus using plasma, which can quickly remove menstrual blood from a facial sanitary napkin and allow a user to replace the plating portion of a hydroxylated electrode plate, thereby enabling a semi-permanent use of a facial sanitary napkin ≪ / RTI >

Statistically, women use about 12,000 sanitary napkins during approximately 500 menstrual periods from about 13 to 50 years of age. Such disposable sanitary napkins, which can be directly contacted to the female body for a long time and affect the health of the woman, include chemical absorbents and fluorescent brighteners for absorption of the physiological blood, and are likely to be absorbed into the human body. Or infertility, which can be a cause of female reproductive system diseases.

According to the 2011 Korean Journal of Nursing, the results of a survey of the differences between the users of chemical sanitary napkins and those of alternative sanitary napkins for the dysmenorrhea suffered by 10 to 65% of endometriosis patients, the main cause of infertility, have been presented. According to the journal, the average score of women with dysmenorrhea using the alternative sanitary napkin is 71.8, while the average score of women with dysmenorrhea is only 87.7, and the effect of chemical sanitary napkin affects women's menstrual cramps .

Also, from the viewpoint of deforestation caused by pulp used as a raw material for disposable sanitary napkins, the forest of Yeoido-wide area may disappear in order to produce a disposable sanitary napkin used by a woman for a lifetime. In addition, noxious gases generated during incineration, as well as sanitary napkins containing chemical substances, take up more than 500 years to be decomposed at the time of landfilling, and environmental problems are also serious.

As an alternative, eco-friendly sanitary napkins are attracting attention, but cotton sanitary napkins tend not to be universally used due to the inconvenience of washing and care. To clean the sanitary napkin, it is necessary to rinse the sanitary napkin cleanly with a shower or the like until the menstrual blood is removed, and then apply it to the sanitary napkin using a liquid detergent or the like. It is necessary to remove the physiological blood through this process and dry it in the sun to be sterilized, but it is difficult to remove the clean physiological blood and it is difficult to obtain a sufficient sterilizing power.

In contrast, Korean Utility Model No. 2001-0034018 has proposed a washing device capable of obtaining sufficient sterilizing power and a clean washing effect.

Korean Utility Model Utility 2001-0034018 proposes a washing device which can treat washing and disinfection together with ozone using a built-in ozone generating device when the laundry is washed. However, Korean Utility Model Application 2001-0034018 can remove sterilization and menstrual blood of the sanitary napkin using ozone, but ozone generated during washing may be harmful to the human body. Therefore, the ozone generating washing machine is difficult to use at home.

Accordingly, there is a demand for a cleaning device for a sanitary napkin that is harmless to the human body and capable of sterilizing at the same time as cleaning of menstrual blood.

An object of the present invention is to provide a cleaning device for a surface sanitary napkin using plasma, which is capable of rapidly removing and sterilizing menses of a sanitary napkin in water and is provided with a replaceable electrode plate for a permanent use.

It is another object of the present invention to provide a facial sanitary napping device using plasma, which can easily operate the facial skin cleaning device in the water using a Bluetooth communication module from the outside.

 In order to accomplish the above object, a surface napkin cleaning apparatus using plasma according to an embodiment of the present invention includes a front cover having a hydroxyl electrode plate, a rear cover coupled to the front cover to form a storage space, A battery for applying driving power to the hydroxyl-electrode plate, and a control board disposed in the storage space for controlling the driving of the hydroxyl-electrode plate, and the hydroxyl-electrode plate emits a hydroxyl group to the outside of the front cover according to the applied driving power .

The front cover of the surface napkin cleaning apparatus using plasma according to an embodiment of the present invention may have a groove formed therein to accommodate a hydroxyl electrode plate and at least one through hole may be formed in the groove.

The hydroxyl group electrode plate of the surface napkin cleaning apparatus using plasma according to an embodiment of the present invention may be formed as a plate-shaped mesh electrode, and the mesh electrode may be electrically connected through the through-hole.

The front cover of the surface napkin cleaning apparatus using plasma according to the embodiment of the present invention is formed in a mesh shape so that the hydroxyl groups generated from the hydroxyl electrode plate are discharged to the front of the front cover, and is detachably connected to the front cover, A protective cover for protecting the hydroxyl electrode plate may be included.

The control board of the surface napkin cleaning apparatus using plasma according to the embodiment of the present invention may further include a Bluetooth communication module for controlling the control board.

The surface napkin cleaning apparatus using plasma according to an embodiment of the present invention includes a mounting portion formed to surround one region of an outer circumference where a front cover and a rear cover are fastened and a fixing portion extending in one direction from the mounting portion, And a hook portion formed with a fixing portion for fixing the front cover and the rear cover to the outside.

The cleaning device of the surface napkin using the plasma according to the present invention can rapidly remove and sterilize the menstrual blood of the sanitary napkin in water and can be used semi-permanently when the plating part of the hydroxyl electrode plate is oxidized and disappears.

Further, the cleaning device of the facial cloths using the plasma according to the present invention can be operated from the outside by using the Bluetooth communication module, so that it is easy to use, and it is easy to know whether the sanitization is completed or not, can do.

1 is an exploded perspective view of a surface sanitary napkin cleaning apparatus using plasma according to an embodiment of the present invention.
2 is a detailed view of a hydroxyl group electrode plate according to an embodiment of the present invention.
FIG. 3 is a block diagram of a configuration of a surface sanitary napkin cleaning apparatus using plasma according to an embodiment of the present invention.
FIG. 4 is a view showing a state of charge of a surface napkin cleaning apparatus using plasma according to an embodiment of the present invention.
FIG. 5 is a state in which a hook is attached to a surface napkin cleaning apparatus using plasma according to an embodiment of the present invention.
6 is a photograph showing that a hydroxyl group is generated in a surface sanitary napkin cleaning apparatus using plasma according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 1 is an exploded perspective view of a surface napkin cleaning apparatus using plasma according to an embodiment of the present invention. FIG. 2 is a detailed view of a hydroxyl electrode plate according to an embodiment of the present invention. FIG. FIG. 4 is a diagram illustrating a state of charge of a surface sanitary napkin cleaning apparatus using plasma according to an embodiment of the present invention. Referring to FIG.

1 to 4, a surface napkin cleaning apparatus using plasma according to an embodiment of the present invention includes a front cover 100, a rear cover 200, a battery 300, and a control board 400 .

The front cover 100 is formed with grooves 120 to form a storage area 114 and a storage electrode area 121 to accommodate the hydroxyl electrode plate 110 in a detachable manner. At least one through hole 121 or 122 is formed in the groove 120 and a metal material may be plated or a metal material may be inserted to be electrically connected to the outer circumferential surface of the through holes 121 and 122.

The hydroxyl group electrode plate 110 is formed of a mesh electrode and plated with platinum Pt . At this time, it is preferable that the hydroxyl electrode plate 110, which is woven into a mesh shape before platinum is plated, is made of titanium which is harmless to human body and excellent in corrosion resistance, acid resistance, heat resistance and mechanical strength. Plate-shaped mesh electrodes are formed by plating platinum on the hydroxyl-group electrode plate 110 woven with the titanium material prepared as described above.

Although the mesh shape of the hydroxyl group electrode plate 110 is formed in a rhombus shape in the present embodiment, it may be formed in various other shapes such as a square shape and a triangle shape.

The hydroxyl electrode plate 110 is formed with bolt holes 111 and 112 to be connected to the through holes 121 and 122. The bolt holes 111 and 112 serve as a positive electrode or a negative electrode, respectively, and fastening bolts 113 and 114 are connected to the bolt holes 111 and 112, respectively. At this time, the hydroxyl group electrode plate 110 is powered by a driving power source 300, which will be described later, and the driving is controlled by the control board 400 to emit a hydroxyl group. At this time, it is preferable that the hydroxyl electrode plate 110 connected to the through holes 121 and 122 is waterproofed so that water is not penetrated.

 The front cover 100 may have a protective cover 130 for protecting the hydroxyl electrode plate 110. The front cover 130 may be detached from the front cover 100 to replace the hydroxyl electrode plate 110 when the hydroxyl electrode plate 110 is replaced as well as to protect the hydroxyl electrode plate 110, 110 may have a mesh shape so that the hydroxyl groups released from the water can be emitted forward in the water.

The rear cover 200 is coupled to the front cover 100 to form a storage space therein to house the battery 300 and the control board 400 described below. Although the rear cover 200 is formed in a hemispherical shape in cross section to secure a storage space, the shape of the rear cover 200 is not limited thereto.

When the rear cover 200 and the front cover 100 are fastened together, the sealing member 210 may be provided along the coupling surface to prevent water from penetrating into the storage space. The sealing member 210 is preferably made of a urethane material that is not deformed when pressed and can maintain elasticity even in water for a long time. A charging terminal may be formed on a surface where the rear cover 200 or the front cover 100 and the charging stand 320 described below are in contact with each other. At this time, the charging terminal is formed of a magnet sensor and can start charging when the rear cover 200 or the front cover 100 is seated in the charging stand 320.

The battery 300 is housed in a storage space formed by fastening the front cover 100 and the rear cover 200 together. At this time, the battery 300 may be provided with a battery housing 310 to be fixed to the storage space. The battery housing 310 is formed to surround the outer periphery of the battery 300 and is fixed to the storage space. Therefore, it is possible to prevent the battery 300 from wobbling in the storage space. The battery 300 may be a nickel ion battery, a nickel metal hydride battery, a lithium ion battery, or the like, and various kinds of rechargeable batteries may be selectively used.

At this time, the battery 300 can be charged by the charging stand 320. In this embodiment, the charging terminal 220 is provided on the outer periphery of the rear cover 200, but may be provided on the front cover 100. [ The charging cradle 320 may include a magnet sensor to sense charging and start charging when the rear cover 200 or the front cover 100 touches the charging cradle 320.

The charging stand 320 may be provided with an indicator light 321 for indicating the completion of charging. At this time, a red color is displayed in the charging state, and a blue color can be displayed when the charging is completed. All of the embodiments can be performed by displaying the charging state and the charging completion state in different colors.

The control board 400 is disposed in a storage space formed by fastening the front cover 100 and the rear cover 200 together. At this time, the control board 400 is disposed between the other side of the front cover 100 where the grooves are formed and the battery 300, but the position of the control board 400 is not limited thereto.

The control board 400 includes a Bluetooth communication module 410 and can control the operations of the hydroxyl electrode plate 110 and the battery 300. It is preferable that the control board 400 is waterproof coated so as to be protected against moisture that can penetrate into the storage space.

The control board 400 can control the operation of the hydroxyl electrode plate 110 by a power source applied from the battery 300. The control board 400 can control the operation of the hydroxyl-electrode plate 110 by the built-in Bluetooth communication module 410. At this time, a smartphone can be used as an external communication device. Accordingly, the control board 400 can operate the operation time and operation interval of the hydroxyl electrode plate 110 through the external communication module. When the cleaning of the cotton sanitary napkin is completed, the control board 400 notifies the smart phone of a notification sound , The sanitary napkin cleaning device can be prevented from being in the water for a long time, and the oxidation of the hydroxyl electrode plate 110 can be prevented, thereby preventing malfunction. In the present embodiment, a communication device used externally is described as a smartphone, but a remote control may be applied.

The control substrate 400 can continuously change the flow direction of the current so that the power source applied to the hydroxyl-electrode plate 110 becomes an alternating current. The current flows in the direction from the cathode to the anode, and underwater discharge occurs. In the cathode, oxygen ions are generated in the bubble state. As a result, the negative electrode can be used semi-permanently, but the lifetime of the positive electrode can be shortened. Therefore, if the power supply to the electrode plate 110 is controlled so as to alternately change the flow direction of the current so that the alternating current is applied to the electrode plate 110, both the electrodes and the positive electrode are alternately used, And the replacement time of the hydroxyl group electrode plate 110 is delayed.

In addition, the control board 400 can prevent the battery 300 from being overcharged. That is, when the charging of the battery 300 is completed, the control board 400 can prevent the current from flowing continuously to the battery 300, thereby reducing the electricity cost.

As described above, the surface napkin washing apparatus using plasma according to an embodiment of the present invention is driven as follows.

First, the sanitary napkin cleaning device of the present invention should be in a state of being settled in water. When the sanitary napkin washing apparatus receives driving power from the driving power source 300, the hydroxyl electrode plate 110 induces a discharge between the negative electrode and the positive electrode to generate a low temperature plasma with electrical energy. That is, water molecules (H ₂ O) are decomposed into the ionic states of hydrogen (H) and oxygen (O) while generating a low-temperature plasma with strong electrical energy due to low voltage discharge in water. And spread in water.

A large amount of hydroxide ions (OH-) generated in the process generate a hydroxyl group by the catalytic reaction of the oxygen-containing active species, and the hydroxyl group generated at this time can sterilize bacteria, bacteria and viruses of the cotton sanitary napkin have.

Hydroxyl group is a kind of oxygen anion material made in plasma state called solid material, liquid, gas and the fourth substance. It is a kind of oxygen anion material in which hydrogen atoms (H +) are separated in the course of separation of water (H2O) . The hydroxyl group (OH-) combines with the hydrogen atom (H +) located on the surface of the microorganism to produce water (H2O), thereby allowing the cell of the pathogenic microorganism to be destroyed. In addition, the hydroxyl group has a characteristic of decomposing pollutants into water (H2O) and carbon dioxide (CO2) by bonding with most contaminants, and has an advantage of having an oxidation rate of 2000 times higher than ozone and 180 times higher than ultraviolet rays.

FIG. 5 is a state in which a hook is attached to a surface napkin cleaning apparatus using plasma according to an embodiment of the present invention, and FIG. 6 is a view illustrating a state in which a hydroxyl group is generated in a surface napkin cleaning apparatus using plasma according to an embodiment of the present invention It is a photograph which shows.

A sanitary napkin cleaning apparatus according to an embodiment of the present invention may include a hook portion 500. The hanging part 500 may include a mounting part 510 connected to the surface sanitary napkin cleaning device to mount the sanitary napkin and a fixing part 520 extended from the mounting part 510 and fixed to the outside.

The mounting portion 510 may be fixedly mounted on the fixing groove 220 formed in the rear cover 200. At this time, the mounting portion 510 may be fixed to the fixing groove 220 to fix the surface sanitary napkin cleaning device while forming the outer surface of the front cover 100 and the rear cover 200 to be enclosed. The fixing part 520 is formed to extend in the opposite direction to be immersed in the water in the mounting part 510, and the end part is formed in a ring shape so as to be fixed to the outside. Therefore, the surface sanitary napkin device mounted on the mounting portion 510 can be simply fixed to the outside.

As shown in FIG. 6, the surface sanitary napkin washing device is fixed in water through the hook portion 500 in a state that the tub having a predetermined size such as a water tank is filled with water and mounted therein.

The cotton sanitary napkin washing device immersed in water is operated by the Bluetooth communication module. When a current is applied to the hydroxyl group electrode plate by the Bluetooth communication module, a hydroxyl group is generated through the hydroxyl group electrode plate 110.

The hydroxyl group forms fine bubbles, generates minute vibration, removes the menstrual blood of the sanitary napkin, and sterilizes bacteria, bacteria and viruses of the sanitary napkin.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate description of the present invention and to facilitate understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: front cover 110: hydroxyl group electrode plate
120: storage groove 130: protective cover
200: rear cover 210: sealing material
220: charging terminal 300: battery
310: Battery housing 320: Battery holder
400: control board 410: Bluetooth communication module
500: hook portion 510: mounting portion
520:

Claims (6)

A front cover having a hydroxyl group electrode plate;
A rear cover coupled to the front cover to form a storage space;
A battery disposed in the storage space for applying driving power to the hydroxyl electrode plate; And
And a control board disposed in the storage space for controlling driving of the hydroxyl electrode plate,
The above-mentioned hydroxyl-
And discharging a hydroxyl group to the outside of the front cover according to the applied driving power. The method according to claim 1,
Wherein the front cover comprises:
Wherein at least one through-hole is formed in the groove, the groove being formed to receive the hydroxyl electrode plate. 3. The method of claim 2,
The above-mentioned hydroxyl-
Wherein the mesh electrode is formed of a plate-shaped mesh electrode, and the mesh electrode is electrically connected through the through-hole. 3. The method of claim 2,
Wherein the front cover comprises:
And a protection cover formed in a mesh shape so that hydroxyl groups generated in the hydroxyl electrode plate are discharged to the front of the front cover and being detachably connected to the front cover to protect the hydroxyl electrode plate mounted on the groove A facial sanitary napkin cleaning device using plasma. The method according to claim 1,
The control board includes:
And a Bluetooth communication module for controlling the external of the control board. The method according to claim 1,
A mounting part formed to surround one side of the outer periphery of the front cover and the rear cover,
And a hanger part extending from the mounting part in one direction and having a fixing part for fixing the front cover and the rear cover to the outside fixed to the mounting part.

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