KR101171092B1 - Plasma multi-jet tooth bleaching apparatus which has adjustable position or angle - Google Patents

Abstract

PURPOSE: A plasma multi-jet tooth bleaching device is provided to simultaneously spray plasma gas and to bleach a plurality of teeth. CONSTITUTION: A plasma multi-jet tooth bleaching device comprises a plasma generator(100) and a support member(200). The plasma generator comprises gas induction pipes(110) which are fixed in the support member in a row, and a plasma head which is combined with the lower part of the gas induction pipe and discharges plasma. The support member is able to be formed in the shape of a bar or a plate connecting the plasma generators.

Description

Plasma multi-jet tooth bleaching apparatus which has adjustable position or angle}

The present invention relates to a tooth whitening apparatus using plasma, and more particularly, to a multi-jet plasma tooth whitening apparatus capable of adjusting height or angle to achieve a whitening effect by spraying a plasma gas at low temperature under normal pressure on a tooth. .

In the field of beauty, teeth whitening has been the subject of human attention for many years and is a service area that is getting more and more attention as the standard of living of today's people increases. These teeth whitening can be largely divided into self-whitening at home and expert whitening at the dental hospital.

Self-whitening is applied to teeth with a relatively low concentration of whitening material, mainly through the use of a separate device during the time of sleep, in which case the whitening effect can be achieved only after a steady use for at least two weeks.

On the other hand, tooth whitening in hospitals is a whitening agent, which can produce high whitening effect in a relatively short time by combining high concentration of hydrogen peroxide with heat or light source of 28-35%. However, when heat is applied together with a concentration of hydrogen peroxide or using a laser light source, a problem may occur in the teeth exposed to heat, and the high fever may cause discomfort to the patient.

In this case, too, in order to obtain an effect of a proper level of teeth whitening, a number of treatments must be followed, resulting in inconvenience such as a patient having to visit a hospital several times, thereby increasing the cost.

In addition, various light sources such as halogen photopolymerizers, lasers, or light emitting diodes, which have been used together with the whitening agent in conventional professional whitening, are known to increase the temperature of the whitening agent to increase the whitening speed, but there is not enough data to prove the effect. It is necessary to confirm the effectiveness itself.

In order to solve this problem, Patent Publication No. 2010-58715 (published on Jun. 04, 2010) generates a plasma gas under normal pressure and stably supplies a low-temperature plasma even in a continuous operation for a long time, so that the patient's teeth The present invention discloses a plasma apparatus and a tooth whitening method using the same.

However, conventionally, since tooth whitening is performed using one plasma apparatus, it takes a lot of time to treat teeth whitening, causing a fatigue of the treated patient and lowering the treatment efficiency. In order to solve this problem, when the therapist uses a plurality of plasma apparatuses, there is a limit on the number of plasma apparatuses that can be handled with one hand and whitening because the nozzles and teeth of the plasma apparatus are difficult to maintain at an exact angle of 90 degrees. The effect is remarkably lowered and there is no practical use.

The present invention is to solve the above problems, the object of the present invention is to stably support a plurality of plasma generators at a time by spraying plasma gas at the same time multi-level height or angle adjustable that can whiten the plurality of teeth A jet plasma tooth whitening apparatus is provided.

Another object of the present invention is to provide a multi-jet plasma teeth whitening apparatus capable of adjusting the height or angle to improve the whitening effect by being able to vary the nozzle position of the plurality of plasma generators according to the oral structure of the subject.

In order to achieve the above object, the present invention is connected to an inert gas source and connected to an external power source to plasma the inert gas supplied from the inert gas source to generate a plasma gas, and to generate the generated plasma gas. A plurality of plasma generators having nozzles discharged to the ends; It provides a multi-jet plasma teeth whitening apparatus comprising a support member for simultaneously supporting the plurality of plasma generators so that the nozzles of the plurality of plasma generators to form an arch arrangement.

Here, the plasma generators are slidable in the axial direction with respect to the support member or movable in the left and right directions so that the position of the nozzles of the respective plasma generators can be adjusted.

According to the present invention, since the nozzles of the plurality of plasma generators that emit plasma gas have an arcuate arrangement according to the oral structure of the subject, the plasma whitening procedure for the plurality of teeth can be performed at once. This can greatly reduce the time.

In particular, when the plasma generators are configured to be movable to adjust the position of the nozzle, the plasma gas may be applied by adjusting the nozzle position according to the oral structures of various subjects, thereby providing a further improved whitening effect.

1 is a perspective view schematically showing a multi-jet plasma teeth whitening device according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view illustrating a plasma head of the plasma generator separated from the plasma tooth whitening apparatus of FIG. 1.
3 is a longitudinal cross-sectional view of the plasma tooth whitening device of FIG.
4 is a longitudinal cross-sectional view of the plasma tooth whitening device of FIG.
FIG. 5 is a longitudinal cross-sectional view illustrating a main part of the plasma head of the plasma tooth whitening apparatus of FIG. 1.
6 is a bottom view showing another embodiment of a plasma head set applicable to the plasma tooth whitening apparatus of FIG.
7 is a front view of a plasma teeth whitening device according to another embodiment of the present invention.
8 is a front view schematically showing a part of the structure of the plasma teeth whitening device according to another embodiment of the present invention.
9 is a front view schematically showing a part of the structure of the plasma teeth whitening apparatus according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the multi-jet plasma teeth whitening apparatus according to the present invention.

First, referring to FIGS. 1 to 4, the plasma teeth whitening apparatus according to the preferred embodiment of the present invention includes a plurality of plasma generators 100 arranged in a large line and nozzles 121 of the plurality of plasma generators 100. ) Is configured to include a support member 200 for simultaneously supporting a plurality of plasma generators to form an arch-like arrangement.

The plasma generator 100 is fixed to the support member 200 in a line, the gas inlet of the elongated hollow tube structure in which the gas inlet 113 through which the inert gas supplied through the support member 200 is introduced is formed at the upper end The plasma head 120 coupled to the lower side of the pipe 110 and the gas introduction pipe 110 and connected to an external power source 300 to discharge the inert gas into a plasma and discharged to the outside through the nozzle 121 formed at the end thereof. It consists of a configuration including.

The gas introducing pipe 110 preferably has an inner diameter lower than that of the upper part so as to increase the flow rate of the inert gas while flowing downward. In this embodiment, the gas introducing pipe 110 is connected to the support member 200. The upper gas introducing pipe 112 is fixed, and has a smaller inner diameter than the upper gas introducing pipe 112 is composed of a lower gas introducing pipe 111 connected to the lower end of the upper gas introducing pipe 112.

The plasma head 120 may use any structure capable of using a microwave power source of several tens of kilowatts at a low frequency of several kilowatts. In this embodiment, a structure using a low frequency power source is illustrated. That is, in this embodiment, the plasma head 120 is coupled to the gas introducing pipe 110 and the dielectric tube 122 having the nozzle 121 formed at an end thereof, and the outside of the dielectric tube 122. First and second external electrodes 124 and 125 made of a conductive material electrically connected to an external power source and a ground terminal, each of which is installed to be spaced apart from each other at a predetermined interval, and is installed inside the dielectric tube 122. It consists of a configuration including the internal electrode 123 of the material.

The dielectric tube 122 is made of an elongated cylindrical hollow tube structure made of synthetic resin such as Teflon or glass, and may be fixedly coupled to the gas introduction tube 110, but is positioned up and down of the nozzle 121. It is preferable to be slidably coupled to the gas introduction pipe 110 in the axial direction for adjustment.

Each of the plurality of plasma heads 120 may be individually connected to an external power source. Alternatively, the first and second external electrodes 124 and 125 of each of the plasma heads 120 may be connected to each other through a wire, or Preferably, the first and second external electrodes 124 and 125 adjacent to each other are kept in contact with each other so that they are connected to an external power source.

The internal electrode 123 is made of a metal such as aluminum having excellent conductivity, and a gas flow passage 123a through which an inert gas passes into a plasma flows through the axial direction, and a lower end portion of the gas flow passage 123a. Is in communication with the nozzle 121 to inject the plasma gas through the nozzle 121.

The plasma head 120 may be separately mounted to the gas introduction pipes 110, but may be detachably coupled to the gas introduction pipes 110 as necessary by forming a plurality of sets. . For example, the plasma heads 120 having the nozzles 121 having two injection holes may be interchangeably mounted to the gas introduction pipe 110 as shown in FIG. 6 for large area processing.

The support member 200 may be formed in a simple bar or plate form that connects the plasma generators 100 to each other, but simultaneously connects the plurality of plasma generators 100 to an inert gas supply source (not shown) to provide inert gas. It can also be configured as a chamber structure to be supplied. For example, as shown in FIGS. 3 and 4, the support member 200 includes a holder 210 to which one end (upper end portion in the drawing) of the plurality of plasma generators 100 is fixed, and the holder portion. The chamber housing 220 is mounted on the 210 to form a closed chamber 221 together with the holder 210 and one end thereof is connected to the inert gas supply pipe 230 of the inert gas supply source (not shown). It can be configured as a structure.

The holder part 210 may be made of a rigid synthetic resin plate or a metal plate, but may be made of a flexible synthetic resin material such as silicone or rubber.

The chamber housing 220 has a rectangular box shape. The chamber 221 has a partition wall so that the inert gas introduced into the chamber 221 can be uniformly supplied into each of the gas introduction pipes 110. 222 is divided into a plurality of (two in this embodiment), it is preferable that the inert gas supply pipe 230 is connected to the upper end of each chamber (221).

In addition, as shown in FIG. 4, the width D _L of the lower portion of the chamber 221 is smaller than the width D _{U of the} upper portion so that the flow rate increases as the inert gas introduced into the chamber 221 goes downward. It is preferably formed.

The plasma tooth whitening device configured as described above operates as follows.

Plasma heads 120 are placed up and down with respect to the gas introduction pipe 110 while the plasma head 120 is mounted by inserting the dielectric pipes 122 of the plasma heads 120 into the lower portion of the gas introduction pipe 110. To adjust the position of the nozzle 121. At this time, the nozzles 121 of the plurality of plasma heads 120 are arranged in an arch shape so as to be suitable for the oral structure of the subject.

As such, the nozzles 121 of the plasma generator 100 are arranged in an arcuate state, and the nozzles 121 are disposed in front of the teeth of the subject, and an inert gas supply source (not shown) and an external power source are operated.

Inert gas (for example, argon, helium, oxygen, nitrogen, etc.) supplied from the inert gas supply source (not shown) is introduced into the chamber housing 220 of the support member 200 through the inert gas supply pipe 230.

The inert gas introduced into the chamber 221 of the chamber housing 220 flows into the gas introducing pipes 110 arranged at the lower side, and then the plasma head 120 connected to the respective gas introducing pipes 110. ) Flows into. At this time, a low frequency power is applied to the first external electrode 124 of the plasma head 120, and inert gases passing through the gas flow passage 123a of the internal electrode 123 are converted into plasma.

Gas that has been plasma-formed while passing through the internal electrode 123 is sprayed through the nozzle 121 to be supplied to the tooth of the subject to be whitened. In this case, the plasma gas alone may provide an excellent whitening effect, but the vaporized hydrogen peroxide vapor or water vapor is supplied to the plasma generator 100 by being mixed with an inert singer, and the mixed gas is injected together with the plasma gas. In this case, it is possible to generate a large amount of OH radicals, which have a significant effect on the teeth whitening, which results in better tooth whitening. Alternatively, the whitening agent such as hydrogen peroxide (H ₂ O ₂ ), carbamide peroxide, and water may be supplied to the teeth before or during the plasma gas injection, thereby further improving the whitening effect.

Although not shown, the plasma tooth whitening apparatus of the present invention includes a hydrogen peroxide supply unit for automatically supplying a hydrogen peroxide (H ₂ O ₂ ) solution or a hydrogen peroxide (H ₂ O ₂ ) gas to a user's teeth during a whitening procedure. It may be further configured on one side of the).

As described above, in the plasma tooth whitening apparatus according to the embodiment of the present invention, since the nozzles 121 of the plurality of plasma generators 100 have an arcuate arrangement structure according to the oral structure of the subject, the plasma whitening apparatus for the plurality of teeth at once. The procedure can be performed, thereby greatly reducing the procedure time.

On the other hand, in order to more easily adjust the position of the nozzle 121 by the vertical movement of the plasma head 120, as shown in Figure 7, the lower portion of the plasma head 120 of the support member 200 A guide member 240 for guiding the axial movement (up and down direction) may be further installed. In this embodiment, the guide member 240 is a 'c'-shaped fixed plate 241 fixed to the lower rear portion of the support member 200, and is installed in front of the fixed plate 241 and each plasma A guide plate 242 having a guide slit 243 formed to extend in a vertical direction at a position corresponding to the head 120, and one side of the dielectric tube 122 of the plasma head 120 (see FIG. 5). It is coupled to the outer surface and the other side is made of a configuration including an operation knob 244 which protrudes to the outside through the guide slit 243 to move along the guide slit 243 by the user's operation.

Therefore, when the user grasps the operation knob 244 connected to each plasma head 120 by hand and moves up and down along the guide slit 243, the plasma heads 120 slide along the gas introduction pipe 110. The position is adjusted.

The plasma tooth whitening apparatus of the above-described embodiments may vary the arcuate arrangement of the nozzle 121 by adjusting the height of the plasma generator 100. However, differently, each plasma generator 100 is configured to be relatively movable in the left and right lateral directions, but a portion farther from the nozzle 121 moves relatively more than close to the nozzle 121, thereby forming an overall fan-shaped arrangement. It may also be able to cope with the oral structure of various subjects.

For example, as illustrated in FIG. 8, the support member 200 includes an arc-shaped first guide bar 251 and a second guide bar 252, and nozzles of the respective plasma generators 100. A portion far from 121 is connected to the first guide bar 251 so as to be relatively movable, and a portion close to the nozzle 121 of the plasma generators 100 is relatively movable to the second guide bar 252. In connection, the plasma generators 100 are moved along the first and second guide bars 251 and 252 to be spread out in a fan shape, and then retracted so that the arrangement of the nozzles 121 is suitable for the oral structure of the subject. Can be variable.

In addition, as shown in another embodiment in FIG. 9, a plurality of first folds including a pair of links 262 and 267 for rotating the support member 200 about the hinge pins 261 and 266 in the center thereof. Comprising the support 260 and the second fold support 265, connecting the nozzle 121 and the remote portion of each of the plasma generator 100 to the first fold support 260, the plasma generator 100 The nozzle 121 of the plasma heads 120 is positioned while the first and second folding supports 260 and 265 are folded and unfolded by connecting a portion close to the nozzle 121 of the first and second folding supports 265. You might be able to adjust it.

8 and 9, the plasma generators 100 are slidable in the axial direction even when the plasma generators 100 are changed into a fan shape to further refine the position of the nozzle 121. Can be adjusted.

In addition, when the structure illustrated in FIGS. 8 and 9 is applied to the structure illustrated in FIGS. 1 to 4, the holder unit 210 of the support member 200 to which the plasma generators 100 are fixed (FIG. 3) is illustrated. By configuring a gasket made of a flexible rubber material, etc., the plasma generators 100 may be smoothly moved in left and right directions while preventing the leakage of inert gas.

On the other hand, the plasma tooth whitening apparatus according to the first embodiment described above adjusts the position of the nozzle 121 by sliding the plasma head 120 in the axial direction with respect to the gas introduction pipe 110, but the gas introduction pipe 110 ) Is integrally fixed to the plasma head 120 and the gas introduction pipe 110 is configured to be slidable in the axial direction with respect to the holder portion 210 (see FIGS. 1 to 4) of the support member 200. The position of 121 may be adjusted.

In the plasma apparatus of the above-described embodiments, the user adjusts the position of the nozzle by varying the position of the plasma generator by hand. Alternatively, a motor is installed in the support member 200, and each of the plasma generators 100 is geared, The position may be adjusted by automatically moving the plasma generators 100 to the motor by connecting to the motor using a power transmission device such as a belt.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is apparent that any person having ordinary knowledge in the technical field to which the present invention belongs may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

100: plasma generator 110: gas introduction pipe
113 gas inlet 120 plasma head
121: nozzle 122: dielectric tube
123: internal electrode 123a: gas flow path
124, 125: first and second external electrodes 200: support member
210: holder portion 220: chamber housing
221 chamber 222 partition wall
230: inert gas supply pipe 240: guide member
241: fixed plate 242: guide plate
243: guide slit 244: operation knob
251, 252: 1st and 2nd guide bar 260, 265: 1st and 2nd fold support
261, 266: Hinge pins 262, 267: Link
300: power

Claims (16)

A plurality of nozzles are connected to an inert gas source and connected to an external power source to generate plasma gas by plasmalizing the inert gas supplied from the inert gas source, and discharge nozzles are discharged to the outside. Plasma generators 100;
A support member (200) for simultaneously supporting the plurality of plasma generators such that the nozzles (121) of the plurality of plasma generators (100) form an arched arrangement;
The plasma generator 100 is slidably installed in the axial direction with respect to the support member 200 so that the position of the nozzle 121 of each plasma generator 100 can be adjusted. Device.
delete The chamber of claim 1, wherein the support member 200 is mounted on a holder portion 210 to which one end of the plurality of plasma generators is fixed, and is mounted on the holder portion 210 and closed together with the holder portion 210. And a chamber housing (220) having one end thereof connected to the inert gas supply source and receiving the inert gas (221). The multi-jet plasma tooth whitening apparatus of claim 3, wherein the chamber (221) in the chamber housing (220) is partitioned into a plurality of spaces by partition walls (222). The multi-jet plasma tooth of claim 3 or 4, wherein the chamber 221 has a narrower width D than a portion connected to the inert gas supply source than the portion connected to the inert gas supply source. Whitening device. The gas inlet pipe of claim 1 or 3, wherein the plasma generator 100 is fixed to the support member 200 and has a gas inlet 113 through which an inert gas supplied from the inert gas supply source is introduced. And a plasma head 120 coupled to the gas introduction pipe 110 and connected to an external power source to discharge the inert gas to the outside through a nozzle 121 formed at an end thereof. Multi-Jet plasma teeth whitening device. The multi-jet plasma teeth whitening apparatus according to claim 6, wherein the plurality of plasma heads 120 are set in one set and detachably coupled to the gas introduction pipes 110 of the plurality of plasma generators 100. . The multi-jet plasma teeth whitening apparatus of claim 6, further comprising a guide member (240) for guiding movement of the plasma head (120) relative to the gas introduction pipe (110). The dielectric tube 122 of claim 6, wherein the plasma head 120 is slidably installed in the gas introduction pipe 110 in the axial direction when the low frequency power is used, and the nozzle 121 is formed at an end thereof. And first and second external electrodes 124 and 125 which are installed to be spaced apart from each other at a predetermined interval on the outside of the dielectric tube 122 and are electrically connected to an external power source and a ground terminal, respectively, and the dielectric tube 122. Multi-jet plasma teeth whitening device, characterized in that it comprises an internal electrode (123) installed in the interior. The multi-jet plasma teeth whitening apparatus of claim 6, wherein the plasma heads of the plasma generators are connected to each other by electric wires to be supplied with power. The multi-jet plasma tooth whitening apparatus of claim 6, wherein the plasma head (120) generates plasma gas by applying a microwave power of several tens of kilowatts at a low frequency of several kilowatts. The multi-jet plasma teeth whitening apparatus of claim 1, wherein the plurality of plasma generators (100) are installed so as to be movable relative to the support member (200) in a lateral direction. The multi-jet plasma tooth whitening apparatus of claim 12, wherein the plasma generator 100 moves a portion farther from the nozzle 121 to move relatively more than close to the nozzle 121, so that the distance between the plasma generators 100 is adjusted in a fan shape. . The method of claim 12, wherein the support member 200 is the first guide bar 251 of the arc shape in which a portion far from the nozzle of the plasma generator is connected to the relative movement, and the portion close to the nozzle of the plasma generator is a relative Multi-jet plasma teeth whitening device comprising a second guide bar (252) of the arc-type is movably connected. The pair of links 262 of claim 12, wherein the support member 200 is rotatably connected to a center portion by a hinge pin 261 and both ends thereof are connected to a part far from a nozzle of two plasma generators adjacent to each other. A pair of links 267 having a plurality of first folding support 260 and the central portion is rotatably connected via a hinge pin 266, and both ends are connected to a portion close to the nozzles of two adjacent plasma generators. Multi-jet plasma teeth whitening device comprising a plurality of second folding support 265 made of. The power transmission device of claim 1, further comprising a motor installed in the support member 200 and a plasma generator 100 connected to the motor to automatically move the plasma generator by operation of the motor. Multi-jet plasma teeth whitening apparatus further comprising.

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