WO2006043758A1 - Fluorine ion toothbrush - Google Patents

Abstract

In a handle unit provided with a joining unit joinable with a brush unit that is provided in a normal condition with all respective members including a filament unit (Filament: bristles), a flocking unit to which the filament unit (Filament: bristles) can be planted, an insertion unit joining this flocking unit with the joining unit, and an ion unit called as such when these members are coated with an aqueous solution, respective units are constituted by being formed into fluororesin or a fluorine compound or by forming a thin-film coated layer with fluororesin or a fluorine compound. A fluorine ion (F-) toothbrush and a fluorine ion (F-) electric toothbrush provided with a constitution or its device in which, when the brush unit and the handle unit are formed of a detaching/joining type, a different kind of durable material is selected for the handle unit allowing for environment-friedliness and economy to enable a conductor unit to be formed of fluororesin or a fluorine compound and enable a normal conductive material to be formed with a fluororesin or a fluorine compound thin-film coated layer, or a conductor unit that can be formed of conductive plastics is inserted and fixed into the handle unit in the direction of the brush unit, photo cells are attached to one side and the other side of the handle unit respectively, and the interior of the handle unit is provided with a space capable of storing therein various components electrically connecting respective component elements and a battery or a cell-equipped power supply device, whereby the above problems are removed, and dental carries are improved or prevented by fluorine ions acting on teeth or deposited on teeth tissues when teeth are brushed in daily normal ways.

Description

 Fluorine ion toothbrush technology

 In the present invention, when a toothbrush is used in a normal manner in daily life, fluoride ions act on the (F-) tooth or deposit on the tooth structure, and can improve and prevent dental caries. Or the device clearly

Put on a fluorine ion (F—) toothbrush. book

 Background art

 It has been proven since more than 80 years ago that fluorine is very effective in preventing and improving dental caries. The iontophoresis method using a fluorine ion introducer with high reliability that fluorine works very effectively in the prevention and improvement of dental caries in the world of medicine and science around the world. In addition, the fluorine application method is implemented, or the drinking water method is implemented by fluorinating tap water and school water locally.

 In the conventional fluorine ion introduction method and fluorine coating method, if the (+) and (-) electrodes are put into a fluorine solution and current is applied, electricity flows from the (+) electrode to the (-) electrode, and on the contrary, After grounding an ion tray coated with a fluorine solution using the principle of moving from the (-) pole to the (+) pole, and applying a weak electrostatic force to the patient's body, the fluorine ion GEO Fundamental power deposited in the organization ^ The burden of having to purchase expensive fluorine ion introduction machines and accessory equipment and the tooth surface cleaning process that requires special attention in performing the procedure-tooth separation process → teeth Surface drying process-Solution application to ion tray Implementation and management process → Ion introduction machine operation process → Post-treatment process → Termination process Technology that requires complex and precise processes that require complex and precise processes A.

 In the fluoride drinking method, fluoridation of tap water and school water supply makes fluorine ions effective for teeth, so diluting an appropriate amount of fluorine aqueous solution to drinking water and always drinking it is enormous in equipment and operation. This technology requires financial resources. This technology has its pros and cons due to the problem that fluorine ions are effectively applied only to teeth and teeth if they are injected into the human body and deposited in the organ.

Therefore, in the present invention, the above-mentioned conventional drawbacks are improved, and when a toothbrush is used in a usual and usual manner, fluoride ions act on the teeth or deposit fluoride ions in the tooth structure to improve caries disease. Provided is a fluorine ion toothbrush that can be prevented. Disclosure of the invention

 The present invention belongs to Group 17 (or Group 7B) of the Periodic Table of Elements, and has a molecular formula containing a fluorine element that is usually also referred to as pullulol (Fluorine-element symbol: F atomic number: 9) or a halogen group element. Resins and fluorine compounds are selected with the material according to the invention. This substance works efficiently in an invention that waits for such a property as a substance having the strongest oxidizing power and ionicity and the highest electronegativity among existing substances.

Each member of the fluorine ion (F—) toothbrush referred to in the present invention is formed by a process of injection molding → planting—horizontal cutting of hair—processing of hair → inspection → packaging, which is a usual method using a fluororesin and a fluorine compound. It can also be configured by selecting an existing toothbrush and forming a thin film layer with a fluororesin and a fluorine compound. It is also possible to form a thin film layer with a fluororesin and a fluorine compound after selecting the material of the existing toothbrush and forming only the necessary members. It is sufficient if the thickness of the coating layer is less than lum, and the object can be achieved by the pre-treatment after drying, heating, and plastic working processes using spray coating and powder electrostatic powder coating.

When using a toothbrush that is formed of a filament (toothbrush bristles) and brush part force fluororesin and fluorine compound or a thin film layer is formed of fluororesin and fluorine compound by the above means, the tooth surface and the filament (toothbrush) When triboelectricity is generated due to interfacial friction between the hairs, and charge transfer occurs due to electrostatic attraction, fluorine ions (F ^_ ) are calcium in the teeth.

Physiological bond called fluorinated calcium (CaF ₂ ) is formed by (Ca ⁺⁺ ) component and ionic bond, and it is covered with tooth surface force s and fluorine ion (F-).

More specifically, fluorine ions (F—) are constituents of calcium carbonate (CaCO ₃ ) and hydroxyapatite (Ca ₁₀ (PO ₄ ) 6 (OH) ₂ ), which are the main components of the enamel of the tooth surface layer. Calcium (CaCO ₃ ) is ionized with acid-resistant fluorinated calcium (CaF ₂ ) and simultaneously apatite hydroxide

By ionizing (Ca ₁₀ (PO ₄ ) ₆ (OH) 2) with hydroxylated gas (OH—) with apatite fluoride (Ca ₁₀ (PO ₄ ) ₆ F ₂ ), the resistance of enamel to acid is improved. Not only does it increase the bacterial film formation and bacterial adhesion on the tooth surface, but also remineralize minerals (calcium, phosphorus) in the saliva on the tooth surface decalcified in the early stages of dental caries. It promotes the current state of calcification and suppresses the activity of bacterial acid-generating enzymes to improve dental health efficiently. The mechanism of the present invention is to form a toothbrush by forming a thin film layer of a fluororesin on a normal nylon filament (Filament: toothbrush bristles) or by forming a filament (Filament) or brush part of a toothbrush with a fluorine resin. If it is used, the reciprocating motion of the filament (Filament: toothbrush bristles) will cause charge transfer in the current state of triboelectric charging between the teeth and at the interface between the irregular parts of the tooth surface and the filament (Filament: toothbrush bristles). Considering more, the tooth surface is made of salivary thin film (Salivarypellicle) with protein and glycoprotein mucus, which are saliva components, and covered with filament (Filament) + salivary thin film (Salivarypellicle teeth) Electrostatic arch between the surfaces (as a result of the force-induced chemical bonding, fluorine ions (F—) are adsorbed to the salivary thin film (Salivary Pellicle) or enamel (Enamel) of the tooth surface) Enamel) acts as the main ingredient of force nose shim (Ca ⁺⁺ ) and calcium carbonate (CaC0 ₃ ) is replaced by fluorinated calcium (CaF ₂ ). At the same time, apatite hydroxide (C¾o (PO ₄ ) ₆ ( OH) ₂ ) is replaced by apatite fluoride (Ca ₁₀ (PO4) ₆ F ₂ ), and the mechanism by which fluorine ions (F—) are replaced with the above elements and molecules is a mechanism among existing materials. Because of its strongest electronegativity, oxidizing power and ionicity, the salivary thin film icle), acid, and black bacteria are adsorbed on the tooth surface due to the principle of charge transfer due to electrostatic attraction.

 Another object of the present invention is to provide a fluorine ion equipped with a device that combines the function and efficacy of the fluorine ion introduction method currently practiced in the medical world and always deposits fluorine ion (F-) in the tooth tissue. (F—) Toothbrush and fluoride ion (F—) By providing electric toothbrush, the disadvantages of current fluoride ion introduction treatment and problems caused by fluorination of drinking water are blocked, and at the same time, permanent anti-caries fluoride ion To provide a toothbrush with technology that demonstrates (F—).

In order to achieve the other object according to the present invention, the brush part can be injection-molded with a fluororesin and a fluorine compound, and the thin film layer is formed with the fluororesin and the fluorine compound after the brush part is injection-molded with a normal toothbrush material. At the same time, the entire toothbrush or the brush portion having the flocked portion, the insertion portion, and the bonded portion is injection-molded with an electrically conductive plastic, and a thin film layer is formed with a fluororesin and a fluorine compound to form a filament portion (toothbrush bristles). ) Is provided with a brush portion or an ionic portion which is formed of a fluororesin or is formed by forming a thin film layer with a fluororesin and a fluorine compound on normal nylon hair and then planting it on the flocked portion. The concept of the brush part referred to in the present invention is called the brush part under normal conditions including the filament part (toothbrush hair), the flocked part, the insertion part and the joint part, and when using the toothbrush, the brush part is saliva etc. The state in which the conductor part that has been approved for power supply in the state where it is coated in the liquid is received and joined to the coupling part of the handle part is called the ion part. The conductor part can be formed of a conductive fluorine compound, and can be made of ordinary conductive materials and electrically conductive materials. And selecting the plastic constituting the fluorocarbon resin and the fluorine compound to form a coating layer of the thin film is 1-pole and 2 Gokumata formed by a single wire is conductive portion force ^f configuration equipped with a 3-pole direct current circuit of the brush portion Invented in a power supply device section equipped with a storage battery or a battery installed in the space section, passing through the center of the coupling section in the length direction of the handle section in the length direction and stopping in the space section installed in the handle section. According to the present invention, a conductor part to be electrically connected is provided.

According to the present invention, the handle portion that coincides with the brush portion and the conductive portion is mounted on one side and the other side with a photovoltaic cell exhibiting photovoltaic power, and a pressure-protective frame is formed of a conductive or electrically conductive plastic. The photovoltaic cell was fixed and sealed. A micro-human body contact sensor that is connected to the power supply unit by connecting the photocell on one side of the handle and the photocell on the other side in series or in parallel, and connecting only the poles to each crimped protective frame. Connected to the switch. The power supply unit provided in the space of the handle part is provided with the desired parts and circuit of the present invention, and the desired voltage is approved by the electric circuit desired for the photovoltaic cell pressure-protection frame and the conductor part. If you touch the pressure-protection frame when using the hand, the human body contact switch will operate and the (+) pole will reach the surface of the tooth via the human body, and the (-) pole will pass through the conductor. Fluorine ions (F—) are exerted on the conductor part of the fluorine material and the brush part as a result of acting on the ion part coated with Fluorine ion, and the fluorine ion is applied to the surface layer of the tooth by the polarization action with the (+) pole of the tooth. As a result, the effect of the fluorine ion coating according to the present invention is exhibited.

The above configuration is a configuration in which the voltage and fluorine ion concentration are somewhat low due to the fact that fluoride ions act on the teeth at all times when using a toothbrush in everyday situations. A fluorine ion toothbrush with a correspondingly high voltage and fluoride ion concentration is required. Accordingly, an objective manual fluorine ion toothbrush equipped with an A / C charging device is provided. The voltage and the voltage used in the real施例is fluorine iontophoresis constantly prophylaxis purposes in the present invention with respect to a point which is the voltage required to force ^¾ deteriorates summer was curative of teeth 100-150 Fluorine ion toothbrushes for the purpose of healing dental caries were reduced to 50-100 Μ and the voltage was raised to 100-200 別 に separately. If fluorine ion introduction is not desired, the handle can be used so that the hand does not touch the pressure-sensitive protective frame. It can be seen that the pressure-resistant protective frame also serves as a switch.

Another object of the present invention is that the brush part and the handle part are made of different materials and are configured separately from each other in consideration of environmental friendliness and economy. In this case, in contrast to the point where the handle part is repeatedly reused for several years, the brush part must be replaced if the toothbrush bristles are worn, so the handle part is connected to the brush part for several years due to the friction of the brush part. A metallic lining can be formed on the handle joints as a means to prevent wear, and only arc caps made of sheet metal are coated or adhered to the arc to prevent wear. A handle that does not shake when combined with the brush Provide a joint between the hand part and the brush part. If necessary, the entire handle can be plated with gold, silver, nickel or the like to an appropriate thickness that prevents wear of the joint.

The fluorine ions (F—) exerted in accordance with the present invention are infinite and the occurrence of caries disease is infinitesimal. As long as there is light and brushing, fluorine ions (F—) are exhibited. The light required for the photovoltaic power is sufficient if it is usually bright in room conditions, regardless of natural light such as the sun or artificial light such as a light bulb. A fluorine ion (F—) electric toothbrush that is more desirable to exhibit fluoride ions (F—) and aims at efficient deposition is provided. The formation and configuration of the brush portion and the conductor portion according to this embodiment are different from the embodiments implemented for the purpose of the present invention and other purposes, and the configuration of the handle portion is the same as the other purpose of the present invention and rotates at high speed. By configuring an electric motor and A / C charging device or battery interior connection device in the handle space, the power necessary for introducing fluorine ions is obtained with a photovoltaic cell and passed through the power supply device as desired. The power source required for driving the motor that is approved is obtained from the charger and other devices. The electric motor selected in this example has a high-speed rotation of 5,400 times per minute, and is expressed in fine vibrations at this rotational speed force ion part. When using a toothbrush, this high-speed micro-electric motor instantaneously removes the salivary thin film that coats the teeth, increasing the efficiency of adsorption of fluorine ions (F-) and greatly increasing the amount of interfacial friction, resulting in an increase in static electricity. As a result, a very interesting and excellent mechanism is formed in which a large amount of fluorine ions (F—) are exerted in a short period of time due to the large electric force. When using a toothbrush, if the hand touches the pressure-protection frame, the human body sensor switch is activated and the power supply device installed in the space is approved with the desired force f. The power supply is blocked if it is separated, and it also serves as a crimp protection frame switch.

 The coating layer of the thin film of each member referred to in the present invention is a concept including plating and coating. Brief Description of Drawings

FIG. 1 is a front view showing a first embodiment of the present invention.

FIG. 2 is a front view showing a second embodiment of the present invention.

FIG. 3 is a front view showing a third embodiment of the present invention.

FIG. 4 is a schematic conceptual diagram showing the function of electrostatic action according to the object of the present invention.

FIG. 5 is a partially cut front view showing a fourth embodiment of the present invention.

G in Fig. 5 is a longitudinal sectional view taken along line AA.

H and W in FIG. 5 are an enlarged view of a plan view and a rear view in which a photovoltaic cell and a pressure-sensitive protective frame are attached. FIG. 6 is a schematic configuration diagram showing the coupling relationship of the components according to the fourth embodiment. FIG. 7 is a partially cut front view showing a fifth embodiment of the present invention.

FIG. 8 is a partially cut front view showing a sixth embodiment of the present invention.

FIG. 9 is a schematic configuration diagram showing the coupling relationship of components according to the sixth embodiment.

FIG. 10 is a partially cut front view showing a seventh embodiment of the present invention.

FIG. 11 is a perspective view showing an eighth embodiment of the present invention.

N in FIG. 11 is a perspective view showing a coupling portion of the toothbrush portion according to the eighth embodiment.

FIG. 11C is an enlarged view showing the coupling portion of the handle portion according to the eighth embodiment.

FIG. 11 is an enlarged view showing the coupling portion of the toothbrush portion according to the eighth embodiment.

M in FIG. 11 is a development view of the KK line according to the eighth embodiment.

R in FIG. 11 is a longitudinal sectional view taken along line Q-Q according to the eighth embodiment.

E in FIG. 11 is a longitudinal sectional view taken along line BB according to the eighth embodiment.

Y in FIG. 11 is a conceptual diagram of the structure of the handle coupling portion according to the eighth embodiment. BEST MODE FOR CARRYING OUT THE INVENTION

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

FIG. 1 shows a first embodiment of the present invention, and a brush part (2) having a handle part (1), a insertion part (4), a flocking part (3) and a filament part (Filament-toothbrush: 5) is shown. A fluorine ion toothbrush was formed by injection molding with a fluororesin or a fluorine compound, and planting a filament part (Filament-toothbrush bristles: 5) formed with a fluororesin or a fluorine compound into the flocked part (3).

In this example, the filament part (Filament-toothbrush hair: 5) made of a fluororesin or a fluorine compound planted in the hair transplant part (3) together with the enlarged view (6) of the filament (Filament-toothbrush hair: 5). ) The tip (toe top) of the filament part (Filament-toothbrush bristles: 5) is processed as a roundish (Roundish) but as a means to remove fine foreign matter by promoting the penetration of fluorine ions between the teeth and gums It is also possible to plant the hair by processing the tip (toe top) with a needle.

FIG. 2 shows a second embodiment of the present invention and will be described with reference to 10.

In this embodiment, a fluorine ion toothbrush in which a fluororesin or a fluorine compound is coated to a thickness of 1 im on an ordinary toothbrush on the market is provided. Current conventional toothbrush in commercial nylon filament (Filament - toothbrush bristles) 99.5% natural hair is other force ^s' 0.5% of composition ratio, fluorocarbon filaments resin or is formed of a fluorine compound (Filament - Toothbrush Hair) had other strengths. Toothbrush handles are mainly in the form of ABS resin, AS resin, PP resin, Cellulose, Polycarbonate, etc., and toothbrushes made of fluororesin or fluorine compound are also used. Lashi handle could not be searched. In consideration of the high cost of fluororesin or fluorine compound, in this example, a conventional or existing normal toothbrush is selected and the thin film layer (17) is formed with fluororesin or fluorine compound. This can save the production cost and provide a fluorine ion toothbrush that exhibits fluorine ions. For this purpose, a normal toothbrush that is commercially available is selected and the brush part (12), handle part (11), flocking part (13), insertion part (14), filament part (Filament-toothbrush hair: 15) (12) In other words, all the toothbrushes are formed into a thin film layer (17) of fluororesin or fluorine, and the filament part (Filament-toothbrush hair: 15), flocked part (13), insertion part ( Only the brush part (12) with 14) forms a thin film layer (Γ7), or only the filament part (Filament-toothbrush: 15) forms a thin film layer (17) with fluorine. An ion (F—) toothbrush was constructed. In this example as well, the shape of the coating is enlarged regardless of whether the tip (toetop) of the filament (Filament-tooth brush hair: 15) is processed into a round shape or a needle shape as shown in the enlarged view of the filament (18). Referenced by the coating layer (17) of (18).

The formation of the thin film layer according to each embodiment of the present invention includes the concept of a conventional plating method and a coating method.

FIG. 3 shows a third embodiment of the present invention and will be described with the addition of 20.

In this embodiment, a fluorine ion (F-) toothbrush that is environmentally friendly and greatly reduces production costs is provided. +

The brush part (22) made of a fluororesin or having a thin film layer (28) made of a fluorine compound has a coupling part (26), and is a handle part that is eco-friendly and saves production costs and is economical. (21) can be made of non-metals such as aluminum and nickel, or select normal plastic materials and show aesthetic elements by using gold, silver, alloy, nickel, etc. The handle portion (21) provided with the coupling portion (26) that can be integrated with the support shaft (27) of the left and right and vertical vibration preventing means is joined by injection molding with the brush portion (22).

In this example, the brush part (22) is refilled, and when the filament (Filament-toothbrush hair: 25) is worn, only the brush part (22) is replaced. The handle (21) that can be used saves production costs and is economical to meet consumer preferences. In this embodiment, there is provided a fluorine ion (F −) toothbrush characterized in that the brush part (22) and the handle part (21) are formed of different materials.

Fig. 4 is a schematic diagram for understanding the adhesion and adhesion of bacterial tooth surfaces by electrostatic action and the function and efficacy of the present invention. The tooth surface is composed of enamel mainly composed of hydroxyapatite and calcium carbonate, and the surface layer of this enamel is coated with a salivary pellicle. (Coating) The salivary pellicle disappears when the food is bitten or when there is friction between the teeth and the enamel is exposed, but if it stops biting the food, it is instantly reformed. Without this action, our teeth will wear rapidly. Very rarely when bacterial cells adhere to the exposed enamel, the bacterial cells adhere to the salivary pellicles in the first stage of pullulk formation. The plaque is composed of about 80-90% of bacteria, which ferment sugar to form lactic acid, make the acid acidic and eventually corrode the mineral and organic matter of the teeth in turn. In the process, fluorine ions (F-) combine with factors that increase the pH of calcium, phosphorus, and salivary pellicles at the time of acid formation, reducing the solubility of enamel in acids. Inhibits bacterial sugar metabolism and exerts anti-cariogenic activity. The fact that fluorine is usually beneficial to teeth is due to the action of fluorine ions (F-).

The mechanism by which salivary thin film (salivary pellicle) is coated on enamel and the mechanism by which cells adhere to salivary thin film (salivary pellicle) is a kind of covalent bond due to electrostatic ion action between different species. to cause. As shown in Fig. 4, the (-) pole on one side of the salivary pellicle is charged and attached to the enamel calcium ion (Ca ⁺⁺ ), and other salivary pellicles are attached. The (−) pole of the cell membrane is charged and attached to the (+) pole on one side. Based on the above principle, when the toothbrush is used according to the first, second, and third embodiments, the movement of the charge due to the interfacial friction occurs, and as a result, fluorine ions (F-) are conducted and the following formulas 1 and 2 are used. It can effectively prevent and improve dental caries according to the chemical reaction formula.

The efficacy of the fluorine ion introduction method currently being carried out in the community dentistry is being demonstrated by the toothbrush according to the present invention.

_{CaCOs + 2F- → CaF 2 + CO} 3 one ²

Caio (PO4) ₆ (OH) ₂ + 2F → Caio (PO4) ₆ F ₂ + 2OH

FIG. 5 shows a fourth embodiment according to the present invention, which is a fluorine ion introducing device that conducts and deposits fluorine ions in a tooth structure based on the chemical reaction formulas of the first formula or the second formula. Provide a fluorine ion (F-) toothbrush with a function.

In the present embodiment, description will be made with 30 added. After attaching the photovoltaic cells (38, 38a) on one side and the other side of the handle (31), the conductive material is selected to form a crimp protection frame (37, 37a). 38a) was crimped and sealed. A power supply unit (39) that can authorize photovoltaic power is installed inside the handle (31) and is electrically connected to each photovoltaic cell (38, 38a). 37, 37a) is connected to each (+) only and at the same time metal fluorinated along the length of the brush (32) The compound was selected to form a conductor part (41) and connected to the (-) pole of the power supply unit (39). A thin film formed of a fluorocarbon resin or fluorocarbon resin that receives the flocked portion (33), the insertion portion (34), the filament portion (toothbrush hair: 35), and the joint portion (36). In the configuration in which the brush part (32) having the layer (40) and the handle part (31) are joined by the joint part (36), if the photo energy touches the photovoltaic cell (38, 38a), the photovoltaic power is When using this toothbrush in the electrical circuit authorizing the proper voltage to the conductor part (41) and the crimping protection frame (37, 37a) via the (39), the handle part (31) will wait naturally. It is in a place where hands can touch.

The (+) pole of the crimping protection frame (37, 37a) is charged to the teeth via the human body, and the conductor part (41) with the (-) pole approved from the power supply unit (39) is fluorine. It is exhibited in the brush part (32) composed of the compound and the ion part (42) composed of the fluorine physical properties coated with an aqueous liquid such as saliva. Fluorine ion (F 1) Force ^s ' (-) The electrode is charged in the pole and deposited in the tooth structure. The fluoride ion introduction method is effective in the fluorine toothbrush of the present invention. As the material of the fluoride conductor portion (42) constructed in this example, the tin oxide fluoride (Stannous Fluoride: SnF2) is considered to have a good antibacterial effect. (SnF2) was selected and molded by a known powder metallurgy method.

G in Fig. 5 is a longitudinal cross-sectional view of the A-A line of the fourth embodiment, and shows a thin film layer (40) and a conductor part (42). H and W are handles (31 ) Photocells (38, 38a) and pressure-protection frames (37, 37a) installed on one side and one side were placed in a position where they could be touched naturally when using a toothbrush. FIG. 6 is a schematic configuration diagram showing the coupling relationship of the components according to the fourth embodiment.

FIG. 7 shows a fifth embodiment according to the present invention and will be described by adding 50. FIG.

In this embodiment, a normal conductive material is formed with fluorinated physical properties to exert fluorine ions. Conductive metal (61), which is a fluorinated conductive metal that is awaiting market competitiveness by reducing manufacturing costs, is now available. This is similar to the configuration of the conductor (61).

For this purpose, in this example, we selected Zhu Tin (Tin: Sn), which has excellent antibacterial adhesion and sugar metabolism inhibitory power, and performed well-known surface cleaning, followed by chemical vapor deposition (CVD). A pillar portion (SnF2) coating layer is formed to form a conductive metal portion (61) that is made of conductive metal. This conductor part (61) is inserted and fixed to the handle part (51) in the direction of the brush part (52).

The power supply unit (59) installed in the handle (51) is connected to one side and the other side of the handle (51) and is connected to the photovoltaic cells (58, 58a) connected in series or in parallel. When supplied, the (+) pole of the appropriate voltage desired for the present invention is approved for the crimping protection frame (57, 57a) and the (-) pole is the fluorine for the conductor part (61) pole. The thin film layer (60) is made of resin or made of fluorine compound. The formed filament part (toothbrush bristles: 55), the flocked part (53) and the insertion part (54) are completed. If the toothbrush is used when the brush part (52) forms the handle part (51) with the handle part (51), it can be touched from the crimping protection frame (57, 57a) where it can be touched naturally. The (+) pole is charged to the teeth via the human body, and the (-) pole is coated with the liquid part (61) and brush part (52), which are fluorinated, with a liquid such as saliva. As a result of charging the ionic part (63), the (+) pole of the tooth and the (-) pole of the ionic part (63) are subjected to an electrochemical reaction to cause fluorine ions (F-) and Fluorine ions (F—) in the ionic part (63) of the physical properties of fluorine are deposited in the tooth structure, so that it is possible to improve and prevent dental caries all the time without taking or drinking fluorine. it can.

The configuration of the fluorine ion toothbrush according to the present invention is a configuration in which the voltage and the concentration of fluorine ions are exerted somewhat lower due to the fact that the fluorine ion constantly acts on the teeth when the toothbrush is used in daily life. If it is bad, the voltage and fluorine ion concentration that can be improved correspondingly will be slightly higher. The A / C charging device (64) is installed in accordance with the need for a fluorine ion toothbrush, and is electrically routed through the power supply unit (59) to the conductor (61) and the crimping protection frame ( Connect to 57, 57a) to provide the desired manual fluorine ion toothbrush. In this embodiment, the voltage obtained from the battery, storage battery or A / C charger (64) installed in the power supply unit (59) is used to obtain the appropriate A / C voltage desired through the power supply unit (59). Can be configured to be approved for the conductor (61). If you do not introduce fluorine ions (F—), use a toothbrush without touching the pressure-sensitive protective frames (57, 57a) to block the electrical circuit.

FIG. 8 shows a sixth embodiment according to the present invention.

In this example, the conductor part (75) is formed of a metallic fluorine compound, or a metallic fluorine compound is coated with a thin film layer to form a three-pole DC circuit on one line, and a multipolar fluorine ion. Electrochemical reaction force ^s ' actually decomposing bacteria at the same time as (F-) is exerted. Fluoride ion (F-) toothbrush is provided.

After forming a conductor (75a) by selecting a safe and non-toxic metallic or amphoteric metal fluorine compound, the insulator (75b) is formed shorter than the conductor (75a) and sandwiched between the conductors (75a) After the body (75c) is formed slightly longer than the insulator (75b) but slightly shorter than the conductor (75a) and sandwiched between the insulators (75b), the insulator (75f) and the conductors (75a) and (75c The insulator (75d) is formed slightly shorter than the conductor (75c) and sandwiched between the conductors (75c), and the conductor (75e) is longer than the insulator (75d), but the conductor (75c ) And is sandwiched between insulators (75d), and then the conductor (75c) and conductor (75e) are hermetically fixed between the conductors (75c) and the conductor (75e), so that a three-pole DC circuit can be formed on one line. The conductor part (75) which can comprise is comprised. The conductors (75a, 75c, 75e) according to this example can be composed of metallic or amphoteric metal fluorine compounds. Alternatively, it can be formed by coating a thin film layer with a metal fluorine compound on a normal conductive metal. When the distance between the terminal conductors hermetically sealed with the insulator (75f) is compression molded with a plastic solution in the injection molding process, the productivity (rate) is further improved.

When using the toothbrush according to the present embodiment, the hand naturally touches the crimping protection frame (73, 73a) installed on the handle (71) (+) of the photovoltaic power approved by the photovoltaic cell (72, 72a) (+ ) Pole current reaches the tooth tissue through the human body via the power supply unit (74), and is approved for the conductor (75) (+) electrode and photocell (72, 72a) force (-) electrode The current is conducted to the metallic (fluorine) compound by passing through the power supply unit (74) to the two (-) poles of the conductor (75) composed of the fluorine compound. As a result of the following formula 1 or 3 electrochemical reaction formula in the flow circuit, the formula 4 or formula 5 fluorine ion reaction is exhibited. The dental tissue is charged with a fluorine-containing thin film layer (78) that is coated with an aqueous solution such as saliva, or a block made of fluororesin. As a result of the polarity of the aqueous solution and the ionic part (77), fluorine ions are exerted on the ionic part (76), and the benefits of fluorine for oral hygiene are demonstrated by the fluorine ion toothbrush according to the present invention. A fluoride ion (F-) toothbrush is provided in which the hazards are severely blocked by the fluoride ion toothbrush according to the present invention. Negative electrode reaction: 2H + 2e— → H2 † [1] Positive electrode reaction: ¾0 → ½0 ₂ + 2e [2] Total reaction: H ₂ O → H2 + ½O ₂ [3] Tooth surface reaction: CaCO ₃ + 2F— → CaF ₂ + CO ₃ ^-2 [4]

Cai ₀ (PO ₄ ) 6 (OH) 2 + 2F "→ Cai ₀ (PO ₄ ) 6F ₂ + 2OH" [5] FIG. 9 is a schematic configuration diagram showing the coupling relationship among the components according to the sixth embodiment.

FIG. 10 shows a seventh embodiment according to the present invention, and a fluorine ion (F −) electric toothbrush that exhibits fluorine ions (F—) more desirably and aims at efficient deposition is provided. In the present embodiment, description will be made with 80 added.

Install the photovoltaic cells (82, 82a) on one side and the other side of the handle (81), and form the crimp protection frame (83, 83a) with conductive material to mount the photovoltaic cells (82, 82a). Each was connected in series or in parallel and fixed and sealed, and at the same time, the desired electrical connection was made to the power supply unit (86) equipped with a human body contact sensor switch. A space part (84) is formed inside the handle part (81) to provide a power supply unit (86), an electric motor (85), a storage battery (87), and a charging unit (88). Equipped with a three-pole DC circuit constructed from the sixth embodiment. The conductor part (90) to be carried was installed in the handle part (81) in the length direction of the brush part (89).

The brush part (89) formed into a fluororesin or a fluorine compound or having a thin film layer of these materials receives the conductor part (90) and is bonded to the handle part (81) for the first time that the present invention desires Is made. In this embodiment, the voltage required for driving the electric motor (85) is obtained from the A / C charger unit (88) and passes through the storage battery (87) and the power supply unit (86). The motor motor (85) and the conductor part (90) with the (+) and (-) poles as desired and approved by the crimp protection frame (83, 83a). The voltage required for ion introduction and fluoride ion acquisition is obtained from the photovoltaic power of the photovoltaic cell (82, 82a), and after passing through the power supply unit (86), the (+) electrode of the conductor (90) In this implementation, the (-) pole is connected to the pressure protection frame (83, 83a) as desired and only the (+) pole forms an electrical circuit with the human body contact sensor switch and has a dual electrical circuit. When using a fluorine ion electric toothbrush by hand, if the hand naturally touches the pressure-protection frame (83, 83a) and the human body sensor switch is activated, the photovoltaic force will bind to the handle part (81) and saliva etc. Coat with water solution Approved up to the brushed part (89), an electrolytic chemical reaction due to ionic action by oxidation / reduction reaction is exerted, photovoltaic cell (82, 82a) → crimping protection frame (83, 83a) → human body-tooth (+) Fluorine (F 1) with very good oxidizing power and ionicity due to the (+) pole and electrification is deposited in the tooth tissue.

When the iontophoresis method is used but the photovoltaic power is weak, the power supply unit (86) operates to activate the power supply unit (86), and the power supply unit (86) is approved for the power supply.

The high-speed rotational vibrations exhibited by the electric motor (85) are expressed as fine vibrations at the ion section (89). This high-speed fine electric motor removes the salivary thin film that coats the teeth when using a toothbrush to increase the efficiency of adsorption of fluorine ions (F-) and greatly increase the amount of interfacial friction. of fluorine ions largest amount to the action a short time electric power is increased in proportion to the amount of static electricity is large (F-) very interesting excellent mechanism force ^s to be exhibited deposited is of being constituted. When using a toothbrush, if the hand touches the pressure-protection frame, the human body sensor switch is activated and the power supply device installed in the space is approved as desired and released. Crimp protection with a configuration that shuts off the power supply.

FIG. 11 shows an eighth embodiment according to the present invention, which is a combination of the configuration of the coupling portion and the configuration of the brush portion.

While using the toothbrush, the handle (101) and the brush (102) maintain a firm structure that does not separate arbitrarily, but if necessary, they can be separated and swung left and right and up and down and back and forth if appropriate force is applied. At the same time, many water-liquid movement passageways (116) are formed in the insertion section (115) to facilitate removal of foreign substances such as gargle after use of the toothbrush, and the conductor section (103) is placed in the middle of the insertion section (115). Shape the seizure part (117) to be seized. Provided is a fluorine ion toothbrush in which the coupling portion (104) of the synthetic handle portion (101) and the coupling portion (105) of the brush portion (102) do not shake.

The coupling portion (104) of the handle portion (101) configured symmetrically with respect to the center line at the portion of the handle portion (101) where the conductor portion (103) is mounted in the length direction of the brush portion (102) ) Is a convex shape and a concave shape that are mutually connectable with the coupling portion (105) of the brush portion (102).

As shown in FIG. 11, the support base (106) for supporting the conductor part (103) is formed in a thin strip shape at the center line, and the handle part (101) is provided on one side and the other side of the support base (106). The height and width of the handle (101) is appropriately lower than the vertical and horizontal center lines of the handle. From (107) to the rigid part (107), an arc part (arc: 108) is projected with the same width in the length direction of the brush part (102). Set the 1/3 point in the length direction of the brush part (102) with the split handle part (101), and the handle part (101) side has a steep slope and the brush part (102) side has a gentle slope. The maximum point of this arc is suitably lower than the height of the handle (101) and appropriately higher than the height of the rigid part (107), and is terminated at a gentle slope at the tip of the support (106). In other words, when the arc length is divided into three equal parts, the arc is continuously inclined at the rigid part (107). ) The remaining two-thirds of the arc is continued up to the tip, so an arc part (arc: 108) is formed where a gentle slope is formed. Therefore, the overall shape of the coupling portion (104) of the handle portion (101) is a convex shape.

The coupling part (105) of the brush part (102) that matches the shape of the coupling part (104) of the handle part (101) which is a convex shape is a concave part, and the coupling part of the handle part (101) at the top, bottom, left and right and front and back. It is a shape that welcomes the convex shape of (104).

N in FIG. 11 represents the coupling portion (105) of the brush portion (102), and the T-T line will be described in detail in the plane perspective direction. The depth (width) of the U-shaped valley (110) welcomes the support (106). The width and width of the U-shaped valley (110) are very different from the depth (width) of the support (106). The recess (111), which welcomes the rigid part (107), is symmetrical with respect to the center line of the U-shaped valley (110) with a slight difference from the height 'depth' 'width' width of the rigid part (107). It is. The concave portion (111) that welcomes the rigid portion (107) is connected in the length direction of the brush portion (102) in the width of the concave portion (111). A welcome arc part (112) that welcomes the arc part (108) is formed, and the shape and inclination of the welcome arc part (112) coincide with the arc part (108) with a very small difference.

When the joint (105) of the brush part is joined to the joint (104) of the handle part (101) in a horizontal motion in accordance with the above configuration, there is a resistance force on the side of the arc part (108) that has a slack and force ^ inclination. The coupling part (105) of the brush part (105) joined at the same time is not easy because it is not large, and the arc part (108) and the welcome arc part (112) which are in contact with the rigid part (107) and are steeply inclined. The contact surface between the Separation is possible only when force is applied. According to this embodiment, the brush portion (102) is strictly blocked from swinging back and forth by the coupling portion (104) of the handle portion (101).

Then, the rigid part (107) of the handle part (101) and the wall (109) on one side of the arc part (108) and the other side wall (109a) and the concave part (111) of the brush part (105) and the welcome arc Between the coupling part (104) of the handle part (101) and the coupling part (105) of the brush part (105) by coupling the deep wall (113) on one side of the part (112) and the other one of the depth walls (113a). As described above, one side and the other side of the support base (106) receive the rigid part (107) and the arc part (108) in the center, and brushes on both sides. In the length direction of the section (102), own the appropriate guide section (114), and the height of this guide section (114) 'depth' width 'width force U-shaped valley (110) height .depth. As a result of matching and tight coupling with a difference between width and width, the current vibration in the vertical direction is reliably controlled.

C in FIG. 11 is an enlarged view of the coupling portion (104) of the handle portion (101). The contents of the above configuration will become clearer with reference to this drawing.

FIG. 11D is an enlarged view of the coupling portion (105) of the brush portion (102). With reference to this drawing, it is possible to understand the characteristics of the technology corresponding to the coupling of the coupling portion (104) of the handle portion (101) and the coupling portion (105) of the brush portion (102).

M in FIG. 11 is a developed view in which the insertion portion (115) is cut along the line K-K.

The insertion part (115) is cylindrical in the longitudinal direction of the horizontal axis, the equilateral triangle of the temporary phase is placed in the longitudinal section of the KK line, and the water-liquid movement passageway (116) is centered on the horizontal axis at the three apexes of the regular triangle. Perforated at equal intervals and width on both sides with reference to the line. The plurality of water-liquid transfer paths (116) are intended for inflow of a large amount of water, which can instantaneously remove foreign substances such as brushing liquid coated on the conductor (103) when cleaning with a toothbrush. It is a water-liquid movement passageway (116).

R in Fig. 11 can understand the configuration of the water-liquid transfer passage (116) in the longitudinal section of the QQ line, and E in Fig. 11 is in the longitudinal section of the BB line in the middle of the insertion part (115). A function of controlling the shaking of the brush portion (102) by forming the pressing portion (117) for pressing the conductor portion (103) is exhibited.

It is natural that the configuration according to this embodiment is not arbitrarily separated, and the attachment / detachment type toothbrush between the handle part and the brush part is not separated in the unlikely event, but it shakes from side to side, up and down and back and forth while using the toothbrush. If this happens, you will not be able to apply appropriate force and you will not be able to brush your teeth, and you will not be able to use the toothbrush. This is because the desired irrigation water in the vibration interval starts to loosen and jumps to the face, mirror, etc. and clogs the surrounding area by collision contact. Provided in this example by the present invention. Fluorine ion (F_) toothbrushes are made of materials and structures that sway from side to side, up and down, and back and forth while using the toothbrush. Y in FIG. 11 is a conceptual diagram that forms a lining (Lining: 118) on the coupling portion (104) or an arc cap (119) on the arc portion (108) as wear prevention means of the handle portion (101) coupling portion (104). It is.

If the handle portion (101) and the brush portion (102) have separate structures as desired according to the present invention, the brush portion (102) is worn by toothbrush bristle power, whereas the handle portion (101) is repeatedly used for several years. If the handle (102) has to be replaced, the handle (102) will become a handle due to friction with the brush (102) for several years.

(101) A metallic lining (Lining: 118) can be formed on the handle (101) joint (104) as a means to prevent wear of the joint (104), and the hook (108) Only the arc cap (119) made of plate-shaped metal is coated or bonded to prevent wear and at the same time, the handle (101) and the brush (102 ) Is provided (105). If necessary, the entire handle part (101) can be made of metal, such as gold, silver, nickel, or non-metal to prevent wear, and at the same time, an aesthetic element can be exhibited. Industrial applicability

 As described in detail in the above-mentioned "Disclosure of the Invention" and "Best Mode for Carrying Out the Invention", each member of the fluorine ion toothbrush according to the present invention can be procured and configured in each technical field of the modern industrial society. .

Claims

The scope of the claims 1.A toothbrush consisting of a handle, filament part (toothbrush bristles), flocked part, insertion part, ion part or brush part with a binding part, each part is named as a whole, or the handle part and the brush part are separated. The whole or at least one part force ^s 'composed of a fluororesin or a fluorine compound; the whole toothbrush or at least one part force ^s ' a thin film layer made of a fluororesin or fluorine compound on a normal toothbrush In this case, each photovoltaic cell provided on the other side of the handle portion is connected in series or in parallel, and is electrically connected to a power supply device portion including a storage battery, a battery, and a human body contact sensor switch, and is crimped. The protective frame and the power supply unit are twisted only at the (+) pole, passing through the joint of the handle from the brush direction to the handle, Fluorine I ON, wherein a thin film layer of a fluorine resin or a fluorine compound or a conductive material is composed of the connected conductor portions force ^s' fluororesin or a fluorine compound is formed on the (F —) Tooth, 'Lashi. 2. A fluorine ion (F—) toothbrush characterized in that the toe top of the filament part (toothbrush bristles) is formed in a ring shape or a needle shape in item 1. 3. A fluorine ion (F-) toothbrush characterized in that the toothbrush integral or brush part is formed of an electrically conductive plastic and a thin film layer is formed of a fluorine resin or a fluorine compound. 4. A fluorine ion ( ^F_ ) toothbrush characterized in that the support shaft protrudes from the handle portion in the length direction of the brush portion and is configured separately from the brush portion. 5. A fluorine ion (F—) toothbrush characterized in that the handle and brush are made of different materials in item 3. 6. fluoride ion (F ^_) Toothbrush 1-pole and 2 Gokumata conductive portions force ^s, the l one line in the first term, characterized in that it is composed of three poles. 7. Appropriate A / C for the voltage obtained from the battery, storage battery or A / C charger (64) installed in the power supply unit (59) in paragraph 1 through the power supply unit (59) Approve voltage to conductor (61) Fluorine ion (F—) toothbrush equipped with an A / C charger that features the following configuration. 8. After the conductor (75a) forms the conductor (75a) in paragraph 1, the insulator (75b) is formed shorter than the conductor (75a) and is sandwiched between the conductors (75a) to insulate the conductor (75c). It is slightly longer than the body (75b) but shorter than the conductor (75a) and is sandwiched between the insulators (75b), and then the insulator (75f) is hermetically fixed between the conductors (75a) and (75c). The insulator (75d) is formed shorter than the conductor (75c) and sandwiched between the conductors (75c), and the conductor (75e) is longer than the insulator (75d) but shorter than the conductor (75c). A three-pole DC circuit is formed on one wire by sealing between the conductor (75c) and conductor (75e) with the insulator (75f) after being sandwiched between the insulator (75d). Fluoride ion (F1) toothbrush. 9. In paragraph 1, a power supply unit comprising a photovoltaic cell and a pressure-sensitive protective frame on one side and the other side of the handle part, and a human body contact sensor switch and a storage battery in the space part is provided. - -A power supply unit, a conductor unit, and an A / C charger, which are electrically connected from the power supply unit to the photovoltaic cell and the conductor unit, and are connected to the crimp protection frame only by the (+) pole. At the same time, the A / C charging device is replaced with the power supply device, and the photovoltaic power is authorized by the operation of the power supply device, or the power acquired from the A / C charging device is authorized from the storage battery to the conductor 2 Fluorine ion (F—) electric toothbrush with an original electrical approval circuit. 10. The support base (106) in which the coupling part (104) of the handle part (101) supports the conductor part (103) in the first paragraph is formed in a thin strip shape at the center line, and is connected to one side of the support base (106). The other side is appropriately lower than the height and width of the handle (101) with respect to the longitudinal direction and the longitudinal center line of the handle (101)-a narrow, short, tetrahedral solid part ( 107) protrudes and the arc portion (108) that extends from the rigid portion (107) to the rigid portion (107) and continues in the length direction of the brush portion (102) protrudes the highest. For the point, divide the length of the arc into three equal parts, and set the handle part (101) to one third in the length direction of the brush part (102), and the handle part (101) side is steeply inclined to form a brush. A force that forms a gentle slope on the side of the part (102) The highest point of this arc is a little lower than the height of the handle part (101) << A little higher than the height of the rigid part (107) The end of the support base (106) is terminated at a gentle slope. In other words, the length of the arc is divided into three equal parts, for example, 3/3 of the length of the arc connected by the rigid part (107) is formed steeply and the support joint (106) Fluorine ion (F—) toothbrush characterized by the fact that the arc part (108) with a gentle slope is formed because it continues with the remaining two-thirds arc length to the tip. 11. In the first paragraph, only the arc cap (119) made of a metallic lining (Lining: 118) is formed on the coupling part (104) of the handle part or the plate part metal is formed on the arc member (08). Fluoride ion (F—) tooth, characterized by attachment or gripping of the entire handle part (101) to a metallic or one of these means, 'Lashi. 12. The coupling part (105) of the brush part (102) welcomes the support base (106) in paragraph 1. Depth / width / width of the U-shaped valley (110) is the depth of the support base (106) The recess (111) that welcomes the rigid part (107) has a difference in width, width, and subtle. The height (depth, width, width, and pole) of the concave part (111) that welcomes the rigid part (107) has a U-shaped valley. Arc part that is continuous with the length of the brush part (102) in the same width as the concave part (111) from the concave part (111) that welcomes the rigid part (107), and is generally referred to with respect to the center line of (110) The welcome arc (112) is formed to welcome (108), but the shape of the welcome arc (112) and the inclination of the deep walls (113, 113a) and the welcome arc (112) are the arc (108). Fluorine ion (F—) toothbrush characterized by a slight difference between 13. In section 1, the insertion part (115) has a virtual equilateral triangle in the longitudinal section of the K-K line from the cylindrical shape in the longitudinal direction of the horizontal axis, and the water-liquid movement passage (116) at three points of the equilateral triangle. Equally spaced on both sides with reference to the middle interval of the length of the horizontal axis. Fluorine ion (F1) toothbrush. 14. Fluorine ion (F—), characterized in that a pressing part (117) for pressing the conductor part (103) is projected inside the intermediate interval of the insertion part (115) in paragraph 1 toothbrush.