KR102102473B1 - Chromium cobalt alloy tooth holding device and manufacturing method - Google Patents

Abstract

The present invention relates to a tooth retention device used for the correction and retention of teeth in the oral cavity. More particularly, the present invention relates to a chromium cobalt alloy tooth retention device and a method for manufacturing the same. The present invention increases convenience and productivity in the manufacturing process through improvement of a support plate; minimizes foreign body sensation in the oral cavity and improves durability by reducing thickness of the support plate and strengthening rigidity; stably supports and corrects teeth stabilized through structural improvement of an orthodontic wire supporting an anterior portion of the tooth; and minimizes the sense of exposure in appearance.

Description

Chromium cobalt alloy tooth holding device and manufacturing method

The present invention relates to a tooth retention device used for the correction and maintenance of teeth in the oral cavity, and more specifically, through improvement of the support plate and the orthodontic wire, it is possible to improve structural convenience and durability as well as improve appearance. It relates to a chromium cobalt alloy tooth retaining device and a manufacturing method thereof.

In general, the cause of uneven dentition or malocclusion of the teeth is due to the teeth not being able to grow properly in place due to the development of the teeth themselves, development of the jaw bones, bad habits such as sucking fingers when young, or bad eating habits. come.

If the teeth are non-uniform or non-occlusal, they will not be able to lead a smooth social life by not only being able to lead a smooth social life by covering their mouths or losing confidence in their interpersonal relations when they talk to others or laugh. Inability to uniformly crush foods or food residues get stuck in the gap between teeth and teeth, which can lead to various dental diseases or diseases of the digestive system, and disrupt the overall balance of the body due to uneven dentition or malocclusion. There was a problem afflicted.

Therefore, in order to solve such a problem, a correction technique of a principle of applying a constant force to the tooth to cause the movement of the tooth to occur along with the remodeling of the alveolar bone surrounding the tooth is largely divided into a fixed holding device and a removable holding device.

Among them, the removable retaining device is formed of a metal wire, and is inserted between the teeth and the teeth to form a bend-type adjustment part and a correction part to correct the teeth, and is formed inside the orthodontic part to be adhered to the ceiling or the tongue surface in the oral cavity. It is composed of a support plate formed of plastic resin, and the wire that the user puts on and off is passed, so the force that maintains the teeth as a whole is stable, and while keeping the teeth neat, the upper and lower teeth fit more naturally. It can serve as a guideline. This is detachable, so it is possible to remove the device if there is an important thing, and it was possible to clean the teeth and device by removing the device during brushing.

However, the removable retaining device as described above is that the support plate is formed of an injection-forming structure using plastic resin, and the manufacturing cost is high and the thickness of the support plate is inevitably increased, thereby increasing the foreign body sensation in the oral cavity and reducing the rigidity of the support plate. There is a problem in that the support force is lowered and the wearer avoids wearing because it is easily exposed in appearance while the adhesion force of the teeth is reduced due to the orthodontic wire made of metal.

Republic of Korea Patent Publication No. 10-2012-0040628.

The present invention was devised to solve the above-mentioned problems, and improves convenience and productivity in the manufacturing process through improvement of the support plate, and also minimizes foreign body sensation in the oral cavity by reducing the thickness of the support plate and strengthening rigidity. And it is an object of the present invention to provide a chromium cobalt alloy tooth retaining device and a manufacturing method for bringing about an improvement in durability.

In addition, the objective of the present invention is to provide a chromium cobalt alloy tooth holding device and a method for manufacturing the stable support of the stable teeth through structural improvement of the orthodontic wire supporting the anterior teeth of the teeth, as well as to minimize the impression of appearance. There is this.

As a specific means for achieving the above object, in the tooth retaining device,

A support plate closely supported to the ceiling surface or the tongue surface of the oral cavity; And

Both ends are formed to be connected to both sides of the support plate, between the support plate and form an orthodontic support groove, comprising a correction wire for supporting and correcting the outside of the teeth,

The support plate,

It is composed of a mixture of chromium and cobalt, and is composed of 0.5 to 0.6 mm thick.

Straightening wire,

Orthodontic unit for supporting and correcting the dentition by supporting the anterior portion of the dentition; And

The extension part is formed on both sides of the orthodontic part, and the support plate is connected, and the length of the orthodontic part is adjusted to include a “U” -shaped bent part and an adjustable part having a molar support protrusion,

Straightening wire,

It is composed of a metal material integrally formed with the calibration part and the adjustment part, or

The correction part is made of transparent synthetic resin material, and the control part is made of metal material,

In the correction department,

It is configured such that a plurality of tooth rest grooves are formed inside the teeth,

A support plate manufacturing step of manufacturing a support plate by laser sintering 3D printing using a powder resin in which chromium and cobalt powder are mixed;

A wire manufacturing step of manufacturing a straightening wire made of an adjusting portion having a molar support protrusion which is formed between the orthodontic portion supporting the anterior portion of the dentition and the bent portion and the molar portion that extends to both ends of the orthodontic portion to adjust the length of the orthodontic portion; And

Performing a wire connection step of connecting a silver solder to both sides of the support plate through the adjusting part end of the correction wire to form an orthodontic support groove through which the teeth are supported through the support plate and the correction wire,

Chromium and cobalt powder are prepared by mixing in a ratio of 1: 1, and the support plate is made to have a thickness of 0.5 to 0.6 mm,

In the wire manufacturing stage,

Straightening wire,

By bending the metal wire, the calibration part and the adjustment part are integrally formed.

Bending and shaping the orthodontic part according to the curvature of the anterior part of the orthodontic teeth, based on the type that left the wearer's dentition, and forming the orthodontic part,

Based on the type of the orthodontic teeth, the bending part and the length of the orthodontic part can be adjusted by bending the molar support protrusion between the two molar teeth and the "U" type bendable part that allows the length of the orthodontic part to be adjusted. Mold wealth,

The calibration part and the control part are each made of different materials,

A transparent synthetic resin material is formed in a wire shape, and the inner part is formed by injecting it according to the curvature of the anterior part so that a plurality of tooth rest grooves in which the anterior part teeth are placed are formed.

By using a metal wire separately from the orthodontic part, bending molding and bending of the "U" type bendable part, which can be adjusted based on the type of the tooth that is corresponding to the posterior teeth of the dentition, and the molars supported between both molar teeth. Bend the support protrusion to form the adjusting part,

It is possible to achieve the adjustment by heat-sealing the adjustment portion to both ends of the calibration unit.

As described above, in the present invention, the chromium cobalt alloy tooth holding device and its manufacturing method are capable of 3D printing production using a resin mixed with chromium and cobalt in manufacturing a support plate. It is increased, in particular, it is possible to manufacture relatively thin, and the rigidity is increased, so that it is possible to obtain an effect of securing a stable support force while minimizing the foreign body feeling when mounted in the oral cavity.

In addition, since the orthodontic portion of the orthodontic wire for supporting and correcting the anterior portion of the tooth is made of a transparent wire made of a plastic material that is bent along the dentition, it is not only easily exposed to the tooth, but also is not easily exposed in appearance. It is possible to obtain an effect of improving and reducing wearer's refusal to wear.

1 is a perspective view of a chromium cobalt alloy tooth retaining device of the present invention.
Figure 2 is a plan view of the present invention chromium cobalt alloy tooth retaining device.
Figure 3 is another embodiment of the present invention chromium cobalt alloy tooth retaining device.
Figure 4 is an overall process diagram showing a method for manufacturing a chromium cobalt alloy tooth retaining device of the present invention.

The terms or words used in the specification and claims should not be interpreted as being limited to ordinary or dictionary meanings, and the inventor can appropriately define the concept of terms in order to best describe his or her invention. Based on the principle that it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in this specification is only one of the most preferred embodiments of the present invention, and does not represent all of the technical spirit of the present invention, and can replace them at the time of this application. It should be understood that there may be various equivalents and variations.

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

1 is a perspective view of the chromium cobalt alloy tooth retaining device of the present invention, and FIG. 2 is a plan view of the chromium cobalt alloy tooth retaining device of the present invention.

1 and 2, the present invention chromium cobalt alloy tooth retaining device 1 is composed of a support plate 100 and an orthodontic wire 200.

First, the support plate 100 is configured to form a plate body that is closely supported to the ceiling surface or the tongue surface of the oral cavity in constructing the chromium cobalt alloy tooth retaining device 1 of the present invention, and is preferably a curvature type that forms a curved curvature. It is configured to be supported in close contact with the upper surface of the maxilla or the lower surface of the lower jaw by forming a plate.

On the other hand, the support plate 100 in the present invention is composed of chromium (Chromium) and cobalt (cobalt) mixed and formed in a ratio of 1: 1, and is configured to have a thickness of 0.5 to 0.6 mm.

At this time, as described above, the support plate 100 is composed of chromium and cobalt, and, as is known, chromium (Chromium) has good corrosion resistance, and is currently widely used in knives, pots, many surgical instruments, building materials, and the like. When applied to the support plate 100, it is possible to obtain a high strength.

In addition, cobalt (cobalt) is important as an alloy, it is used as a magnetic material (磁性材料), such as high-speed steel, permanent magnets, heat-resistant, corrosion-resistant steel. The non-ferrous alloy is excellent in oxidation resistance, corrosion resistance, abrasion resistance, mechanical properties, etc. at high temperature, and it is possible to increase strength when mixed with the chromium.

That is, in the present invention, the support plate 100 is composed of a mixture of chromium and cobalt, in order to realize a relatively thin thickness of 0.5 to 0.6 mm of the support plate 100, it is possible to increase the strength while being thin, such a support plate When worn in the oral cavity, the feeling of wear is minimized due to a decrease in thickness, and the wearing feeling is further improved.

The orthodontic wire 200 is configured to support the chromium cobalt alloy tooth retaining device 1 of the present invention, so that the teeth are supported and the teeth can be corrected.

At this time, the calibration wire 200 in the present invention is composed of a wire having an arc shape protruding forward like a normal dental structure, both ends of which are connected to both front sides of the support plate 100, the support plate 100 Between the front and the orthodontic wire 200 forms an orthodontic support groove (S) through which the dentition is supported, and is configured to be closely supported on the outer circumference of the dentition when worn.

On the other hand, in the present invention, the calibration wire 200 is configured to form the calibration unit 210 and the adjustment unit 220. First, the calibration unit 210 forms the front of the calibration wire 200 and adheres to the outside of the anterior portion of the dentition. Is supported.

In addition, the adjustment unit 220 is formed to extend on both sides of the orthodontic unit 210 to support both the posterior teeth of the dentition, and is configured to be connected to the support plate 100.

In addition, the adjustment unit 220 is configured to bend in the "U" shape to be bent to form a length of the calibration unit 210, it is configured, by the narrowing and widening action of the bending unit 221 The length of the calibration unit 210 can be adjusted.

In addition, the adjustment part 220 is configured to have a molar support protrusion 222 that protrudes inward, and is configured to be hung between the wearer's molar and the molar through the molar support protrusion 222.

On the other hand, in the configuration of the calibration wire 200 in the present invention, the calibration unit 210 and the adjustment unit 220 are not limited, and can be configured in various ways. First, referring to FIGS. 1 and 2 The correction unit 210 and the control unit 220 may be formed of a metal material harmless to the human body formed integrally.

In addition, the calibration wire 200 may be configured with different materials for the calibration unit 210 and the adjustment unit 220 with reference to FIG. 3.

To this end, first, the orthodontic unit 210 may be formed of a transparent synthetic resin material, and a plurality of dental rest grooves 211 in which teeth are placed may be formed inside the orthodontic unit 210.

In addition, the adjustment unit 220 may be made of a metal material.

That is, since the orthodontic unit 210 is made of a transparent synthetic resin material as described above, exposure of the orthodontic unit 210 can be minimized when the chromium cobalt alloy tooth retaining device 1 of the present invention is worn. It will reduce the feeling of atrophy caused by.

Hereinafter, a manufacturing method for manufacturing the chromium cobalt alloy tooth holding device of the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

The method for manufacturing a chromium cobalt alloy tooth retaining device of the present invention as shown in FIG. 4 with reference to FIGS. 1 to 3 is performed by performing a support plate manufacturing step (S100), a wire manufacturing step (S200), and a wire connecting step (S300). do.

First, the support plate manufacturing step (S100),

As described above, a support plate 100 supported on the ceiling surface or the snow surface of the oral cavity is manufactured, and a powder resin in which chromium and cobalt powder is mixed is used. It becomes possible to manufacture by 3D printing of laser sintering method.

At this time, the applied chromium and cobalt are preferably mixed in a ratio of 1: 1 to form a powder resin, and when 3D printing, it is preferable to form a 0.5 to 0.6mm thick.

At this time, forming the support plate 100 to have a thickness of 0.5 to 0.6 mm as described above, if molding to 0.5 or less, it may become too thin, so that the rigidity of the support plate 100 may deteriorate. When it is worn by the thickness, it creates a foreign body sensation in the oral cavity, and it is most preferable to manufacture the thickness to be 0.5 to 0.6 mm.

Then, the wire manufacturing step (S200),

As described above, the orthodontic wire 200 capable of correcting orthodontic teeth by the support of the orthodontic teeth and its supporting force is manufactured. Preferably, the orthodontic unit 210 and the orthodontic teeth supporting and orthodontic unit 210 are supported. ) Is made of a calibration wire 200 made of a control unit 220 capable of adjusting the length.

On the other hand, in the present invention, the calibration wire 200 is not limited, but can be manufactured in various ways. First, the calibration wire 200 is formed by bending and bending a metal wire with reference to FIGS. 1 and 2. And the adjustment unit 220 may be molded to form an integrated calibration wire 200.

To this end, first, the orthodontic portion 210 is molded, and the orthodontic portion 210 can be formed by bending and molding to fit the curvature of the anterior portion of the dentition, based on the shape in which the wearer's dentition is removed.

In addition, the adjusting unit 220 is a "U" shape of the bent portion 221, which is capable of adjusting the length of the orthodontic unit 210, on the basis of the type of the teeth corresponding to the posterior teeth of the orthodontic teeth on both sides of the orthodontic unit 210. It can be formed by bending.

In addition, the molar support protrusion 222 that can be supported and fixed between the molars and the molars of the posterior teeth is bent and molded at positions adjacent to the bent portions 221 and the end.

That is, the calibration wire 200 may be manufactured of the calibration wire 200 in which the calibration unit 210 and the adjustment unit 220 are integrated by bending a single metal wire.

In addition, the calibration wire 200 may be manufactured with different materials for the calibration unit 210 and the adjustment unit 220 with reference to FIG. 3.

To this end, first, the orthodontic unit 210 is capable of manufacturing a transparent synthetic resin material through injection molding, and the orthodontic unit 210 manufactured at this time is molded to correspond to the curvature of the anterior teeth.

At this time, during the injection molding of the orthodontic unit 210 as described above, the inner surface of the orthodontic unit 210 is molded to form a plurality of tooth recess grooves 211 in which the teeth of the anterior teeth are placed, so that the teeth closely adhere to the teeth. Support becomes possible.

In addition, the adjustment unit 220 is manufactured by bending and forming a metal wire to be separated from the correction unit 210 made of the transparent synthetic resin material. The bending portion 221, which is capable of adjusting the length of 210, may be bent to form a “U” shape.

In addition, the molar support protrusion 222 that can be supported and fixed between the molars and the molars of the posterior teeth is bent and molded at positions adjacent to the bent portions 221 and the end.

And, as described above, the calibration unit 210 and the adjustment unit 220 configured separately from each material may be connected to the adjustment unit 220 through thermal welding of the calibration unit 210.

That is, the orthodontic wire 200 is made of a transparent synthetic resin material of the orthodontic portion 210, and thus can be manufactured to minimize exposure of the orthodontic wire by visibility of the teeth when worn.

Then, the wire connection step (S300),

Orthodontic support groove (S) in which the dentition is penetrated between the front of the support plate 100 and the orthodontic wire 200 when the support plate 100 and the orthodontic wire 200 manufactured as described above are connected to each other. To achieve

To this end, the calibration wire 200 is connected to the support plate 100 through the ends of both side adjustment parts 220, but may be connected through a silver solder (silver soldering) harmless to the human body.

As described above, the method for manufacturing a chromium cobalt alloy tooth retaining device of the present invention is composed of a metal material in which chromium and cobalt are mixed through a series of processes as described above, but 0.5 ~ through the stiffness of the chromium and cobalt. Since it is possible to realize a thin thickness of 0.6mm, it is possible to minimize foreign body sensation when worn on the oral cavity, and in particular, when the correction part of the orthodontic wire is made of transparent synthetic resin material, exposure is minimized to reduce wearer's feeling of atrophy. It becomes possible.

In addition, in manufacturing the support plate, it is possible to increase productivity, such as a simpler and more robust manufacturing possible through laser sintering 3D printing production.

100: support plate
200: calibration wire 210: calibration unit
211: tooth rest groove 220: Adjuster
221: bend 222: molar support protrusion
S100: Support plate manufacturing step S200: Wire manufacturing step
S300: wire connection step

Claims (6)

In the tooth retaining device,
A support plate 100 closely supported to the ceiling surface or the tongue surface of the oral cavity; And
Both ends are formed to be connected to both sides of the support plate 100, between the support plate 100 and form an orthodontic support groove (S), and comprises a calibration wire 200 to support and correct the outside of the dentition,
The support plate 100,
Chromium (cobium) and cobalt (cobalt) is composed by mixing in a ratio of 1: 1, 0.5 ~ 0.6mm thickness is composed,
The calibration wire 200,
A correction unit 210 for supporting and correcting the dentition by supporting the anterior portion of the dentition; And
Forming on both sides of the orthodontic unit 210 and connecting the support plate 100, having a "U" -shaped bent portion 221 capable of adjusting the length of the orthodontic unit 210 and a molar support protrusion 222 protruding inward It includes an adjustment unit 220,
The correction unit 210 is made of a transparent synthetic resin material,
The adjustment unit 220 is composed of a metal material,
Chromium cobalt alloy tooth retaining device, characterized in that the orthodontic unit 210 has a plurality of tooth rest grooves 211 in which teeth are placed inside.
delete delete Support plate manufacturing step (S100) of manufacturing a support plate 100 by laser sintering 3D printing using a powder resin in which chromium and cobalt powders are mixed;
The orthodontic part 210 supporting the anterior portion of the dentition and the extension part of both ends of the orthodontic part 210 are formed to extend between the bent part 221 and the molar to adjust the length of the orthodontic part 210 and the molar support protrusion 222 supported between the molar teeth. A wire manufacturing step (S200) for manufacturing the calibration wire 200 made of the adjusting unit 220 having a; And
Between the support plate 100 and the orthodontic wire 200, through the adjustment part 220 end of the orthodontic wire 200 to form an orthodontic support groove (S) through which the orthodontics are penetrated is connected to the support plate 100 with silver solder. To perform the wire connection step (S300),
Chromium and cobalt powder are prepared by mixing in a ratio of 1: 1, and the support plate 100 is manufactured to have a thickness of 0.5 to 0.6 mm,
In the wire manufacturing step (S200),
The calibration wire 200,
Each of the calibration unit 210 and the adjustment unit 220 are manufactured of different materials,
The transparent synthetic resin material is formed in a wire shape, and the inner part is formed with a plurality of tooth rest grooves 211 in which the teeth of the anterior teeth are placed, so that the orthodontic curvature 210 is molded by injecting it in accordance with the curvature of the anterior teeth,
Bending of the "U" -shaped bent portion 221, which is capable of bending forming and adjusting the length of the orthodontic portion 210, based on a mold that corresponds to the posterior portion of the dentition using a metal wire separately from the orthodontic portion 210 Molding and bending the molar support protrusions 222 supported between both molar teeth to form the adjusting unit 220,
Method for manufacturing a chromium cobalt alloy tooth retaining device, characterized in that the adjustment unit 220 is heat-sealed connected to both ends of the orthodontic unit 210. delete delete

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