巴西专利BR112013024892B1 ORTHODONTIC WIRE FOR THE CORRECTION OF BIMAXILLARY PROTRUSION AND AORTODODONTIC SYSTEM WITH THE SAME

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专利摘要:
ORTHODONTIC WIRE FOR THE CORRECTION OF BIMAXILLARY PROTRUSION AND ORTHODONTIC SYSTEM WITH THE SAME. An orthodontic wire is revealed to provide orthodontic strength to the anterior teeth in order to correct the bimaxillary protrusion, and an orthodontic system with it. The orthodontic wire for the correction of bimaxillary protrusion includes a lingual arch wire that is curved corresponding to a set of the anterior teeth in order to fit on a lingual side of the anterior teeth; a tensile wire which is provided in the lingual arc wire for connection with a tensile member providing a lingual tensile force; and a pair of support wires that extend behind the lingual arc wire in order to provide the lingual arc wire with reaction to the lingual tensile force. With this configuration, it is possible to avoid an inward-facing tooth when the bimaxillary protrusion is corrected, and it is also possible to correct the aggressive protrusion without surgical intervention since the traction force is transmitted to an alveolar bone.
公开号:BR112013024892B1
申请号:R112013024892-0
申请日:2012-03-29
公开日:2021-02-23
发明作者:Kwon Soon Yong
申请人:Kwon Soon Yong；
IPC主号:

专利说明:

Technical Field
The present invention relates to an appliance, and more particularly to an orthodontic wire used for the correction of bimaxillary protrusion due to dental protrusion and / or protrusion of the alveolar bone and an orthodontic system with it. Prior Art
For most people today, appearance, in particular, has been established as one of the standards for judging a person in job interviews, admission to school, etc., and acts as a very important factor in social life, for example, a large part of interpersonal relationships, etc. In particular, appearance generally depends on the teeth and a set of teeth. Thus, orthodontics has prevailed at present for dental correction, of a set of teeth or of the skeletal part of the face, together with surgical plastic operations.
Orthodontics is a concept that refers to a treatment for the correction of malocclusion, for example, the narrow orthodontics of simply reinforcing irregular teeth in a beautiful set of teeth. Orthodontics can correct various skeletal irregularities that can occur during a growth process, thus contributing to a healthy oral organization and still making a beautiful facial line to obtain a beautiful impression.
Orthodontics can be divided into an orthodontic treatment to gradually move a set of teeth to correct misaligned teeth or a similar method for ax, and jaw correction surgery for skeletal correction can through the application of a surgical intervention to the jaw bones.
In other words, if the misalignment between the upper and lower teeth or the presence of an abnormal facial skeleton is too severe to be treated by orthodontics alone, jaw correction surgery may be applied in conjunction with orthodontics, so that the abnormality of the facial skeleton itself can be corrected by surgery in order to provide a beautiful and functional face.
For example, growing children can avoid jaw correction surgery through skeletal correction or a similar method of using orthodontic treatment, but only orthodontic treatment may be insufficient for an adult who is already grown. In this case, surgery to correct the jaw can be performed together with orthodontic treatment.
Orthodontic treatment can be broadly classified into lip orthodontics and lingual orthodontics. Here, lip orthodontics refers to a method of straightening teeth by attaching an appliance to the surface of a tooth on one side of the lip, and lingual orthodontics refers to a method of straightening teeth * by attaching an appliance to the surface. of a tooth on a lingual side.
As an example of the appliance, there is an orthodontic wire (usually called an 'arc wire), a clamp for supporting the orthodontic wire, etc. The cuff is a surface on the labial side and / or a surface on the lingual side of the tooth. A plurality of clamps are provided along a direction of the tooth arrangement, and connected by the orthodontic wire, thus transmitting the orthodontic force of the orthodontic wire to a set of teeth.
Orthodontic treatment includes a plurality of orthodontic steps performed in sequence and over a long period of time. As an example of orthodontic treatment, there is a surgical or similar intervention that employs the arc wire and the clamp to straighten irregular teeth of a patient who has teeth that accumulate in the anterior teeth or a patient who has a large gap between the teeth of one of the front teeth.
Meanwhile, the correction for the movement of the teeth towards the lingual side during orthodontic treatment is called lingual traction. In the case of a dental protrusion in which the patient's teeth protrude abnormally forward, there is a bimaxillary protrusion that causes the mouth to protrude abnormally forward and, therefore, the lingual traction above is proposed as a method for the correction bimaxillary protrusion.
In a normal mouth, the lower lip meets a line that connects the tip of the nose and the jaw, and the upper lip is positioned a little inward as the line shown in (a) of FIGURE 1. On the other hand, the bimaxillary protrusion refers to a way in which the lips protrude out of the line connecting the tip of the nose and the mandible as shown in (b) of FIGURE 1, and is usually caused by the dental protrusion above or by the protrusion of the alveolar bone ( skeletal protrusion).
Dental protrusion is the type of malocclusion, in which the front teeth are tilted in the form of a protrusion relatively excessively forward when compared to the root of the tooth, that is, the tip of a crown when growth of the alveolar bone is insufficient to accommodate the number of total teeth. In severe cases, it is difficult to close the mouth, and dental protrusion can have a bad influence on the overall impression.
To correct the above bimaxillary protrusion, an orthodontic system is installed in the patient's oral cavity. However, there are conventional problems that the root of the tooth becomes shorter while the anterior teeth are drawn back; the anterior teeth are excessively inclined towards a lingual side and thus become teeth turned inward while the teeth are drawn back; transverse inclination occurs when the right and left vertical positions of the anterior teeth are displaced; and in the case of bimaxillary protrusion due to the protrusion of the alveolar bone, the patient is overloaded, the treatment is very time-consuming and has a high cost, due to the surgical intervention that is used to correct the bimaxillary protrusion.
Thus, the present inventor developed an orthodontic wire for bimaxillary protrusion and an orthodontic system with it, which can correct dental protrusion avoiding damage to the root of the tooth and the tooth turned inward, due to the excessive inclination of the tooth; and also to correct the protrusion of a maxillary bone, specifically an A point (that is, a mandibular bone directly inside a part of the prolabulum) in the case of bimaxillary protrusion due to the protrusion of the alveolar bone, that is, the aggressive protrusion. Revelation Technical problem
One aspect of the present invention is to provide an orthodontic wire for the bimaxillary protrusion and an orthodontic system with it, which can prevent the anterior teeth from tipping when the bimaxillary protrusion is corrected by lingual traction. Another aspect of the present invention is to provide an orthodontic wire for bimaxillary protrusion and an orthodontic system with it, which can be used as a mandibular orthopedic equipment for the correction of bimaxillary protrusion due to the protrusion of the alveolar bone (ie, skeletal protrusion) . Technical Solution
In accordance with an aspect of the present invention, an orthodontic wire is provided for the correction of bimaxillary protrusion, which provides orthodontic strength to the anterior teeth for the correction of bimaxyl protrusion, the orthodontic wire comprising, a lingual arc wire which is curved corresponding to a set of the anterior teeth in order to fit a lingual side of the anterior teeth; a tensile wire which is provided in the lingual arc wire for connection with a tensile member providing lingual tensile force; and a pair of support wires that extend behind the lingual arc wire in order to provide the lingual arc wire with reaction to the lingual tensile force.
In accordance with another aspect of the present invention, an orthodontic system is provided for the correction of bimaxyl protrusion, which provides orthodontic strength to the anterior teeth for the correction of bimaxyl protrusion, the orthodontic system comprising: a lingual arch wire that is curved corresponding to a set of anterior teeth in order to fit a lingual side of the anterior teeth; a tensile wire which is provided in the lingual arc wire to provide lingual tensile strength; a pair of support wires that extend behind the lingual arc wire in order to provide the lingual arc wire with reaction to the lingual tensile force; wire supports comprising a guide hole respectively, through which the support wires pass, and fixed to the lingual sides of both molar portions; a pulling member which is connected to the pulling wire and provides lingual pulling force to the lingual arc wire; and a retention that is fixed to the palate in order to support the traction member.
According to an exemplary embodiment of the present invention, it is possible to prevent the anterior teeth from tilting excessively to the lingual side when the lingual traction force is applied to the anterior teeth to correct the bimaxillary protrusion, being possible to correct the bimaxillary protrusion due protrusion of the alveolar bone, thus obtaining a beautiful and functional set of teeth. Advantageous effects
According to one aspect of the present invention, an orthodontic wire for bimaxillary protrusion and an orthodontic system with the same have the following technical effects.
First, according to an exemplary embodiment, when lingual traction is applied to the anterior teeth, the supporting wires can apply a reaction force to the anterior teeth, thus preventing the teeth from turning inward and preventing the root of the tooth from shortening.
Second, according to an exemplary embodiment, the supporting wires apply force in a direction of the tooth axis to the anterior teeth as a reaction to the lingual traction applied to the anterior teeth, so that the alveolar bone together with the teeth can move towards backwards, thus correcting not only the bimaxillary protrusion due to the protrusion of the alveolar bone without a surgical intervention, but also having a rhinosurgical effect (lifting the nose), relieving the burden of a surgical intervention, and reducing the costs of correcting the bimaxillary protrusion.
Third, according to an exemplary embodiment, the supporting wires are bent when lingual traction is applied to the anterior teeth, and thus force is added in the axial direction of the tooth for both the molar part that supports the supporting wires, thus having a effect for the correction of the mandibular bone, that is, having an orthodontic mandibular effect.
Fourth, according to an exemplary realization, the orthodontic wire used for the correction of the bimaxyl protrusion has a simple structure, thus reducing the manufacturing costs of the orthodontic wire for the bimaxyl protrusion and reducing the costs of medical treatment for the correction of the bimaxillary protrusion. . Description of Drawings
FIGURE 1 is an X-ray image showing a normal mouth and bimaxillary protrusion.
FIGURE 2 is a perspective view of an orthodontic wire for bimaxillary protrusion in accordance with an embodiment of the present invention.
FIGURE 3 is a view showing a state that an orthodontic system with the orthodontic wire for the bimaxillary protrusion of FIGURE 2 is installed in an upper intraoral jaw.
FIGURE 4 is a side view showing that the anterior teeth are moved by a lingual orthodontic traction system of FIGURE 3.
FIGURE 5 is a view showing a labial orthodontic wire installed on the anterior teeth.
FIGURE 6 is a view showing another embodiment of the orthodontic wire for bimaxillary protrusion installed in the lower jaw. Best Mode
Hereinafter, the embodiments of the present invention will be described with reference to the accompanying drawings. For the description of the achievements, similar numerals refer to similar elements, and repetitive descriptions will be avoided when necessary.
First, with reference to Figures 2 to 4, an orthodontic wire for the bimaxillary protrusion and an orthodontic system with the same according to an embodiment of the present invention will be described.
Among the accompanying drawings, FIGURE 2 is a perspective view of an orthodontic wire for bimaxillary protrusion according to an embodiment of the present invention, FIGURE 3 is a view showing a state that an orthodontic system with orthodontic wire for protrusion bimaxylar of FIGURE 2 is installed in an intraoral upper jaw, and FIGURE 4 is a lingual orthodontic view of FIGURE 3.
According to one embodiment, orthodontic wire 100 for bimaxyl protrusion correction is an appliance installed on a lingual side of a tooth for bimaxyl protrusion correction and transmits an orthodontic force to the anterior teeth. With reference to Figures 2 to 4, the orthodontic wire 100 for bimaxillary protrusion according to an exemplary embodiment includes a lingual arch wire 110, a tensile wire 120, and a pair of supporting wires 130.
The lingual arc wire 110 has a curvature to fit a lingual side of the anterior teeth 1a, 1b and 1c along a set of the anterior teeth. In greater detail, the lingual arch wire 110 can be bent along a set of a patient's teeth in the patient's oral model (not shown) and made in the patient's oral model. In addition, the lingual arch wire 110 is provided with fixing members 111, 112 and 113 to secure the lingual arch wire 110 to the anterior teeth, for example, the lingual surfaces of six anterior teeth (ie, central right and left incisions). left, right and left lateral incisions, left and right canine teeth).
In greater detail, the fastening members 111, 112 and 113 are spaced apart along a longitudinal direction of the lingual arc wire 110 and respectively coupled to the anterior teeth 1a, 1b and 1c. For example, the fastening members 111, 112 and 113 are welded to the lingual arch wire 110, and fixed to the lingual surface of the anterior teeth by a dental adhesive. Here, the welding paste, that is, a welding paste can include, but is not limited to, silver welding.
The lingual arch wire 110 is manufactured to have a predetermined length corresponding to the patient's oral structure, so that both ends can be positioned on the lingual surfaces of the left and right canines (ie, canine teeth) 1c, ie , a pair of teeth that forms both lateral teeth of the anterior teeth 1a, 1b and 1c.
In addition, the pull wire 120 is an element provided in the lingual arc wire 110 so as to exert a pulling force backwards, that is, a pullback force in the lingual arc wire 110. The pull wire 120 is which extends behind the lingual arc wire 110.
More particularly, the tension wire 120 has a first end connected to the lingual arc wire 110, and a second end connected to a tensile member 150 such as a rubber band or a spring that provides lingual tensile strength to the arc wire. lingual 110.
The second end, that is, the rear end of the pull wire 120 is formed by a hooked part 121 as a hook for connection with the pull member 150. In addition, the pull wire 120 in this embodiment tilts in the direction of a plate, that is, an upper rear side, and fixed to the lingual arc wire 110, in particular to the fixing member, so as not to rotate with respect to the lingual arc wire 110 by welding or similar method. Therefore, when the bending action is applied to the tensile wire 120, a moment is generated in the lingual arc wire 110.
The pair of supporting wires 130 is provided so that the reaction to the lingual tensile force can be given to the lingual arc wire 110. The pair of supporting wires 130 extends behind the lingual arc wire 110.
In greater detail, when the lingual traction force that acts in the rear direction of the anterior teeth 1a, 1b and 1c is applied to the anterior teeth, the rear movement force is applied to the anterior teeth 1a, 1b and 1c. Furthermore, if the lingual traction force generates the moment in the anterior teeth 1a, 1b and 1c, the anterior teeth 1a, 1b and 1c are rotated in a certain direction, for example, rotated in the direction of the lingual side, and on the other hand the roots of the anterior teeth 1a, 1b and 1c protrude towards the labial side. Thus, they can become teeth turned inward.
In this embodiment, to avoid the inward tooth, the pull wire 120 is angled towards the upper rear side, a vertical position of the hooked part 121 being positioned on the lingual side of the root part of the anterior teeth 1a, 1b and 1c at the root part of the anterior teeth. According to this realization, a large moment is not generated or a very small moment is generated in the anterior teeth 1a, 1b and 1c since the line of action of the traction force generated by the traction member 150 passes through an alveolar bone and the part of the root of the tooth, called point A, thus moving the anterior teeth 1a, 1b and 1c backwards without excessive rotation.
According to an exemplary embodiment, the traction member 150 is supported by a retention 160 fixed to the palate, so that the lingual traction force can be applied to the orthodontic wire 100 for bimaxillary protrusion. In this embodiment, retention 160 is implanted on the palate in the form of a screw.
Here, the difference in a vertical position between the retention 160 and the hooked part 121 of the pull wire can cause the force in one direction of the tooth root to be applied to the anterior teeth 1a, 1b and 1c, thus having an effect on movement anterior teeth 1a, 1b and 1c towards the root of the tooth, that is, towards the alveolar bone.
Each of the supporting wires 130 receives the bending action due to the lingual tensile force, and applies a reaction force to the lingual arc wire 110 as a reaction to the bending action. The reaction force applied by the support wire 130 is reduced or counterbalances the force or moment applied by the tension wire 120 to the anterior teeth, thus preventing the anterior teeth 1a, 1b and 1c from falling towards the lingual side, avoiding a horizontal position and unbalanced vertical of the anterior teeth (i.e., difference in the vertical position of the left and right sides), and the adjustment of the movement of the anterior teeth by the supporting wire 130.
Also, the support wires 130 respectively extend behind both ends of the lingual arc wire 110, being movable longitudinally inserted in a pair of supports of the wire 140 fixed in both parts of the molars 1d, 1e and 1f, in particular, on the lingual surfaces of both first molar teeth 1e.
Each of the wire supports 140 is formed by a guide hole in a mesodistal direction, that is, a forward and backward direction. If the lingual pulling force due to the pulling member 150 is applied to the pulling wire 120, the supporting wires 130 receive the bending action, i.e., the bending effort as they move along the length of the guide bore.
The bending effort generated in the support wire 130 applies a force in an axial direction of the tooth in the molar part 1 d, 1e and 1f and resists the lingual traction force applied to the anterior teeth 1a, 1b and 1c.
In this embodiment, the pair of tensile wires 120 is provided in the lingual arc wire 110. In addition, the supporting wires 130 are provided outside the tensile wires 120, and fixed to the lingual arc wire 110, that is, in the member fastening by welding or similar method, so as not to rotate in relation to the lingual arc wire 110. Thus, when the bending action is applied to the supporting wire 130, a bending moment is generated in the lingual arc wire 110.
In general, when the lingual traction force acts on the lingual arc wire 110, a moment is generated in relation to the center of resistance in the anterior teeth 1a, 1b and 1c, so that the end of the tooth can be turned excessively inward on the side lingual. However, according to an exemplary embodiment, the tensile wires 120 and the support wires 130 minimize or prevent this excessive deformation. Here, the center of resistance refers to a certain position of the anterior teeth, in which the anterior teeth can move horizontally without falling when the anterior teeth receive the lingual traction force.
Below, the movement of the anterior teeth through the orthodontic wire 100 for the bimaxillary protrusion and the orthodontic system with it, according to an exemplary embodiment, will be described with reference to FIGURE 4.
With reference to FIGURE 4, when the lingual pull force (i.e., the arrow Φ) caused by the pull member 150 is applied to the lingual arc wire 110 by the pull wire 120, the front teeth 1a, 1b and 1c are moved in the direction of the arrow ®, and another force in the direction of the arrow ® can be applied to the anterior teeth by the difference in the vertical position between the hook part 121 and the retention 160.
On that occasion, as the line of action of the lingual traction force passes through the root parts of the teeth in the anterior teeth 1a, 1b and 1c, the alveolar bone, in particular point A, is also moved backwards in the direction of the arrow ®, reducing thus the projected height of the alveolar bone reflectively elevating the nose.
However, the support wire 130 gradually moves in the length direction while receiving the flexing action due to the lingual traction force transmitted by the lingual arch wire 110, and resists the rotation of the anterior teeth by applying a reaction force to the wire. lingual arch as a reaction to the lingual traction force.
Also, the support wire 130 receives the bending force due to the lingual pulling force, and applies the force to the molar part, for example, the first molar tooth 1e towards the root of the tooth, for example, towards the arrow Φ by means of support of the wire 140 so that the molar area Id, 1e and 1f can be raised in relation to the vertical position, thus moving a jaw joint and obtaining its correction, and correcting the excessive exposure of the gums.
According to the present invention, it is possible to prevent the anterior teeth from turning excessively in the direction of the lingual side (that is, in a clockwise direction with respect to FIGURE 4) and falling, while the anterior teeth 1a, 1b and 1c retract in the direction of the lingual side, and it is also possible to correct the bimaxillary protrusion due to the protrusion of the alveolar bone and the dental protrusion avoiding the tooth facing inward since the alveolar bone can move backwards by applying a rear traction force to the alveolar bone of the anterior teeth 1a, 1b and 1c.
Also, the support wire 130 can resist rotation of the anterior teeth even if the tension wire 120 varies at an inclined angle or the actuation position of the lingual tensile force varies to apply the moment due to the lingual tensile force on the anterior teeth. .
In general, the first premolar tooth is usually extracted to provide space for the movement of the anterior teeth and labial orthodontic wire 10, and the anterior tooth clamps 20 and molar tooth clamps 30 that support the orthodontic wire 10 are installed on the labial side of the teeth as shown in FIGURE 5, thus carrying out the correction of dental protrusion together with orthodontics for the correction of the set of teeth.
Then, FIGURE 6 shows an exemplary realization of the orthodontic wire for the correction of bimaxillary protrusion, which is installed in the lower jaw, which includes a lingual arch wire 210 attached to the lingual side along the anterior teeth 2a, 2b and 2c of the mandible. bottom, and a pair of support wires 220 extends from the lingual arc wire 210.
However, in the event that the orthodontic wire for bimaxillary protrusion is installed in the lower jaw as shown in FIGURE 6, it is difficult to install the retention to provide the lingual traction force due to the tongue T. Therefore, the traction member 230 to give the lingual tensile force is supported by the wire support 240, and the tensile wire described in the above embodiment can be omitted. In addition, the lingual arc wire 210 is provided with a plurality of fixing members 211, 212 and 213.
The wire support 240 is attached to both molar parts 2d, 2e and 2f of the lower jaw, for example, to the lingual surface of the first molar tooth 2e, and supports the support wire 220, and a fastener 250 and a connecting wire 260 can be used to make the molar part 2d, 2e and 2f as a single body. In addition, this can also be applied to the upper jaw.
In addition, the pulling member 230 has a first end supported by the lingual arc wire 210 and a second end that penetrates the wire support 240 and hooked by a rear end of the support wire 220 exposed to the rear of the wire support 240, thus providing lingual traction force to the anterior teeth of the mandible. Here, support wire 220 can perform the same function as described in the above embodiment.
Although some achievements have been described herein with reference to accompanying drawings, it will be understood by those skilled in the art that these achievements are provided as illustrations only, and various modifications, changes and alterations and equivalent achievements can be made without departing from the scope of this invention.
Therefore, the scope and spirit of the present invention should be defined only by the accompanying claims and their equivalents. Industrial Applicability
The present invention relates to an orthodontic appliance or instrument, and more particularly to an orthodontic wire used for the correction of bimaxillary protrusion, and has industrial applicability in the field of the manufacture of the device, thus correcting not only the bimaxillary protrusion due to bone protrusion. alveolar without a surgical intervention, as well as having a rhinosurgical effect (for lifting the nose), relieving the burden of a surgical intervention, and reducing costs for the correction of bimaxillary protrusion.

权利要求:
Claims (6)
[0001]
1. ORTHODONTIC WIRE (100) FOR CORRECTING THE BIMAXILLARY PROJECTION, which provides orthodontic force to the anterior teeth to correct the bimaxillary projection, the orthodontic wire comprising: a lingual arch wire (110) that is curved corresponding to a set of the anterior portion of the teeth, so as to be fitted on the lingual side of the anterior teeth; fasteners (111, 112, 113) provided on the lingual arch wire (110) to secure the lingual arch wire to the anterior teeth, spaced apart from each other along a longitudinal direction of the lingual arch wire and integrated with the lingual arch wire (110) as a body, so as to be fixed respectively to the anterior teeth; a traction wire (120) provided in the lingual arch wire (110) for connection with a traction member (150), giving lingual traction force; and a pair of support wires (130) extended backwards from the lingual arc wire (110), so as to provide the lingual arc wire (110) with reaction to the lingual tensile force, characterized by the pair of support wires (130) be formed as a body with the lingual arch wire (110), in order to receive bending action due to the lingual traction force and movable inserted in a pair of wire supports (140) for sliding fixation the pair of supporting wires (130) on the two molar teeth.
[0002]
2. ORTHODONTIC WIRE, according to claim 1, characterized in that the support wire pair (130) is coupled to the two ends of the lingual arc wire (110) by welding.
[0003]
3. ORTHODONTIC WIRE, according to claim 1, characterized in that the pair of support wires (130) respectively extend behind both ends of the lingual arc wire (110) so as to be supported by a pair of wire supports (111 , 112, 113).
[0004]
4. ORTHODONTIC WIRE, according to claim 1, characterized in that the pair of support wires (130) and the lingual arc wire (110) are formed by a wire as a simple body.
[0005]
5. ORTHODONTIC WIRE, according to claim 1, characterized in that the tension wire comprises a first end fixed to the lingual arc wire, and a second end formed by a hooked part for connection with the tension member; and the hook part is positioned at the same height as the root part of the anterior teeth.
[0006]
6. ORTHODONTIC SYSTEM FOR CORRECTION OF THE BIMAXILLARY PROJECTION, which provides orthodontic force to the anterior teeth to correct the bimaxillary projection, the orthodontic system comprising: a lingual arch wire (110) that is curved, corresponding to a set of the anterior teeth, so to be fitted on the lingual side of the anterior teeth; fasteners (111, 112, 113) provided on the lingual arch wire (110) to secure the lingual arch wire to the anterior teeth, spaced apart from each other along a longitudinal direction of the lingual arch wire and integrated with the lingual arch wire (110) as a body, so as to be fixed respectively to the anterior teeth; a tensile wire (120) which is provided in the lingual arc wire (110) to provide lingual tensile strength; a pair of support wires (130) which is extended backwards from the lingual arc wire (110), so as to provide the lingual arc wire (110) with reaction to the lingual tensile force; a pair of wire supports (140) for slidingly securing the pair of support wires (130) to the two molar teeth, each of the wire supports (140) comprising a guide hole through which the support wire (130) passes and attached to the lingual sides of both molar parts; a traction member (150) which is connected to the traction wire (120) and provides lingual traction force to the lingual arch wire (110); and an anchor (160) attached to a palate, in order to support the traction member (150), characterized by the pair of support wires (130) being formed as a body with the lingual arch wire (110), in order to receive a flexing action due to the lingual traction force and movable inserted in the pair of wire supports (140).

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US4038754A|1976-02-27|1977-08-02|Northwest Orthodontics, Inc.|Orthodontic appliance guard|

US4455137A|1981-11-17|1984-06-19|Diamond Michael K|Dental instrument and method for positioning a lingual orthodontic bracket|

US4412819A|1982-09-15|1983-11-01|Cannon James L|Orthodontic arch wire|

US6033217A|1997-05-16|2000-03-07|Shofu Inc.|Orthodontic device|

KR200196064Y1|2000-04-17|2000-09-15|정규림|The brace for the orthodontic treatment after the corticotomy|

CN2492204Y|2001-08-16|2002-05-22|武汉市江岸区人民医院|Screw propelling molar orthopedic instrument|

KR100479967B1|2003-04-02|2005-04-07|임갑선|Orthodontics materials|

KR200395570Y1|2005-06-21|2005-09-13|정택빈|Wire ponit cap for correction of irregularities of the teeth|

KR100737442B1|2006-09-18|2007-07-10|임승민|A hook for molar of orthodontic|

US20080108008A1|2006-11-08|2008-05-08|Kun Sung Chung|Systems and methods for orthodontic treatments|

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KR101723674B1|2016-12-09|2017-04-05|정유미|Lingual orthodontic system|

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RU2684527C1|2018-01-15|2019-04-09|Федеральное государственное бюджетное образовательное учреждение высшего образования "Рязанский государственный медицинский университет имени академика И.П. Павлова" Министерства здравоохранения Российской Федерации|Method for normalizing the position of a lateral maxillary incisor having a palatine position and located in a reverse overlapping|

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DE102019133914A1|2019-12-11|2021-06-17|Accurec Recycling GmbH|Process for unlocking electro-chemical energy storage systems and thermal treatment systems|

JP6989904B2|2020-06-22|2022-01-12|中部医療有限会社|Orthodontic appliance|

法律状态:
2019-03-19| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2020-03-17| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2021-02-02| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2021-02-23| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 29/03/2012, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

KR1020110028467A|KR101200379B1|2011-03-29|2011-03-29|Orthodontic Wire for Mouth Protrusion Using Lingual Retractor And Orthodontic System Having The Same|

KR10-2011-0028467|2011-03-29|

PCT/KR2012/002299|WO2012134183A2|2011-03-29|2012-03-29|Wire for correcting bimaxillary protrusion, and bimaxillary protrusion correction system comprising same|

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