JP3133861U - Orthodontic bracket - Google Patents

Abstract

An orthodontic bracket with reduced frictional resistance between an archwire and a bracket during mounting.
A bracket has a joint surface 5 to a tooth surface 6 at a lower portion, a groove portion 2 for inserting an arch wire 4 in a central portion of a main body, and a bracket for locking the arch wire 4 to the groove portion 2. . The bottom surface 9 of the groove portion 2 of the bracket has a curved shape that draws a gentle curve. As a result, the archwire 4 does not come into contact with the bracket, and the concentrated frictional resistance force during tightening is reduced.
[Selection] Figure 2

Description

  The present invention relates to an orthodontic bracket used for orthodontic treatment. More specifically, the present invention relates to an orthodontic bracket in which a bottom surface shape of a groove portion is formed into a curved surface shape.

  The use of brackets in orthodontic treatment for dentition is well known and well known. In orthodontics, a bracket is attached to the tooth, and the physical tension of the archwire attached to the bracket is applied to the tooth, that is, restoring force such as pressing, pulling back, twisting, etc., and the position of the tooth is gradually changed. The dentition is corrected by going. In normal use, the bracket is formed with a groove for stopping the archwire in the center of the main body, and a wing is provided on the outer side of the main body. After the arch wire is attached to the groove, the ligating means is locked to the arch wire via the wing to fix the arch wire.

  As for the material of such a bracket, when importance is attached to aesthetics, many of those made of metal are not used recently, and are made of plastic or ceramics. The arch wire is made of a material that does not rust, such as titanium alloy or stainless steel. Such orthodontic brackets are known to have various improvements, but most of them have straight grooves.

  The conventional known example will be described. Although the material is mainly made of polycarbonate plastic or composite, an example of an improved bracket such as forming an undercut on the joint surface is known (see, for example, Patent Document 1). ). Further, as shown in Patent Documents 2 to 5, the shape of the main body varies depending on the tooth to be attached, and although there are individual differences, improvements such as adhesion to the tooth surface and attachment of the archwire have been made. In addition, an example of a method of forming the bottom of the slot with a curvature by matching the archwire is also known (see, for example, Patent Document 6).

JP 2003-290251 A JP 2007-202 A Japanese Patent Laid-Open No. 11-206783 Japanese Utility Model Publication No. 6-44518 Japanese Utility Model Publication No. 5-63517 JP-A-8-168498

  As described above, in the conventional bracket, the bottom surface of the groove is often linear. Since a plurality of these brackets are used and attached along the tooth surface, the archwire is attached across the plurality of brackets even if the bottom surface of the groove is a straight line. However, at the time of attachment, the arch wire comes into contact with the bottom surface in a straight line shape, and the bracket can be suppressed at both ends of the groove. Therefore, the archwire is in a state of strong pressing against the bracket at the moment.

  For this reason, when it will be in the tightened state after attachment, an arch wire will raise | generate a frictional resistance between a bottom face part, especially the edge part bottom face of a groove | channel. This causes damage to the archwire and the bracket, and places a heavy burden on the tooth surface depending on the attachment state. The dentition composed of a plurality of teeth draws an arc along the dental arch, and each tooth is not neatly aligned. The archwire will also draw a gentle curve along this dentition. The arrangement of the teeth is slightly different depending on the individual in the vertical direction, the longitudinal direction, and the horizontal direction.

  Therefore, it is ideal that the groove of the bracket into which the arch wire is originally inserted also follows the installation shape of the arch wire. It is desirable that the predetermined groove shape is formed by a simple method without requiring a special or complicated method. As described above, it is required that the frictional resistance with the bracket accompanying the attachment of the arch wire be as small as possible. The present invention solves such conventional problems and achieves the following objects. An object of the present invention is to provide an orthodontic bracket that eliminates frictional resistance associated with archwire attachment.

In order to achieve the above object, the present invention is achieved by the following means. That is,
The orthodontic bracket of the present invention 1 has a joint surface (5) to the tooth surface at the lower part, a groove part (2) is provided at the center part of the main body, and the orthodontic part that locks the archwire (4) is used. The groove portion (2) is characterized in that the bottom surface portion (9) has a curved shape along the longitudinal direction of the archwire (4).
The orthodontic bracket of the present invention 2 is characterized in that, in the present invention 1, the periphery of the end of the groove (2) is chamfered (11) having a curved shape.

The orthodontic bracket of the present invention 3 is characterized in that, in the present invention 1, a taper-shaped chamfer (11) is made around the end of the groove (2).
In the orthodontic bracket according to the present invention 4, in the present invention 1, the side wall (13) of the groove (2) is expanded from the central portion (14) of the groove (2) along both end portions (15). It is characterized by a gently sloping surface shape.

The orthodontic bracket of the present invention 5 is characterized in that, in the present invention 1, the material of the bracket (1) is made of ceramics.
The orthodontic bracket of the present invention 6 is characterized in that, in the present invention 5, the bottom surface portion (9) of the groove (2) has a curved surface shape having a curvature smaller than the archwire curvature of the archwire. To do.

In the orthodontic bracket of the present invention 7, in the present invention 6, the bottom surface portion (9) of the groove portion (2) has a curved surface shape with a different curvature for each group of dental rows having a plurality of teeth. It is characterized by.
The orthodontic bracket according to the present invention 8 is the orthodontic bracket according to the present invention 7, wherein the side wall (16) of the groove (2) is depressed on both side surfaces of the central portion of the groove (2). The groove width is widened by the concave portion (17) having a shape.

  The orthodontic bracket according to the present invention has a curved bottom surface of the groove portion, and after inserting the archwire into the groove of the bracket, the archwire extends along the longitudinal direction of the insertion along the insertion longitudinal direction when orthodontic is performed. It became possible to maintain the contact state throughout. In addition, since both ends are chamfered in a curved shape, the archwire is pressed against the tooth surface evenly against the bracket without hitting the brackets at both ends of the groove. .

  Therefore, the frictional resistance between the archwire and the bracket is eliminated. As a result, the bracket and the arch wire were not damaged, and the pressing force was uniform across the entire bracket surface.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a plan view showing an embodiment of an orthodontic bracket 1 according to the present invention. 2 is a cross-sectional view taken along the line AA in FIG. 1, and FIG. 3 is a cross-sectional view taken along the line BB in FIG. A bracket 1 shown in FIG. 1 is made of ceramic having two sets of wings 3 called twin brackets.

  In order to maintain the arch wire 4, a groove 2 for inserting a concave arch wire, that is, a slot is formed and arranged on the upper surface of the central portion of the bracket 1. Many other types of brackets 1 have been proposed and known depending on treatment methods, treatment techniques, and the like, such as single brackets. The embodiment of the bracket of the present invention will be described on the premise of the bracket 1 having the shape described above. The bracket 1 may be, for example, for anterior teeth, for canines, for premolars, for molars, etc., depending on the part of the tooth to be attached. In addition, torque, angulation, and the like are different, and the shape varies depending on the direction of the tooth to be corrected. The bracket 1 has a basic structure in which a groove 2 for inserting an arch wire is disposed at the center and a wing 3 is disposed on a side wall.

  Depending on the type of bracket, there is a type in which a hook for locking the ligating member is disposed on the wing 3. The lower surface of the bracket 1 serves as a joint surface 5 to the tooth, and the joint surface 5 is bonded to the tooth surface 6 via an adhesive. Since the basic structure and function of the main body of these brackets 1 are known, a detailed description thereof will be omitted here. The gist of the present invention relates to the groove shape of the bracket 1 configured as described above.

  As described above with reference to FIG. 1, the groove portion 2 is provided in the center portion of the bracket 1 for fitting the arch wire 4 while adjusting the movement in the direction of the arrow. Further, a groove 7 is provided in the central portion in a direction perpendicular to the insertion direction of the arch wire 4 with respect to the groove portion 2 for inserting the arch wire 4. In the bracket 1 of FIG. 1, a wing 3 is formed in a state of projecting from the center of the main body in a direction crossing the insertion direction of the archwire 4. The material of the bracket 1 is plastic or ceramics, but in the present embodiment, description will be made on the assumption that ceramics are used.

  When correcting teeth, the archwire 4 is inserted into the groove 2 along the direction of the arrow. When the arch wire 4 is inserted into the groove 2 and then ligated by a general ligation method, as shown by an imaginary line (see FIG. 3), a ligation means 8 such as a stainless ligature wire or a polyurethane module (O-ring). Then, the arch wire 4 is fixed to the bracket 1. At this time, the ligation means 8 is wound around the wing 3 and wound around the arch wire 4, and the arch wire 4 can be pressed and fixed to the bottom surface 9 of the groove portion 2, and a ligation method by a low friction system that has recently become mainstream (for example, Locking with a clear snap or the like which is a trademark of the present applicant is also possible. This method can further reduce friction.

  The fixing state varies depending on the tooth condition and the mounting condition of the bracket 1, for example, the mounting angle. A plurality of brackets 1 are attached along the tooth row, and the tooth row is arranged in a curved line. Conventionally, the bottom surface 9 of the groove 2 of the bracket 1 is linear even if the dentition is curved. However, the tooth surface 6 is rounded but not uniform, and the configuration of the tooth surface 6 varies from person to person.

  That is, when a plurality of brackets 1 are attached along the rounded shape of the tooth surface 6, the adjacent tooth surfaces 6 may have different heights, or the position of the bracket 1 with respect to the tooth surface 6 may deviate vertically and horizontally. . When the bottom surface 9 of the groove portion 2 of the bracket 1 is linear, the archwire 4 is linearly arranged along the longitudinal direction on the bottom surface 6, and the both ends 10 of the bottom surface 9 are in contact with each other. This part is strongly pressed against the tooth surface 6.

  Further, when the arch wire 4 is tightened, the arch wire 4 moves slightly on the bracket 1. That is, when the arch wire 4 is tightened, both ends are concentratedly pressed, and when the arch wire 4 is moved while being tightened in the longitudinal direction for adjustment over the groove portion 2, a large frictional resistance is obtained. Power is generated. At this time, a frictional resistance is generated between the bracket 1 and the bracket 1. If this frictional resistance is increased, the archwire 4 and the bracket 1 may be damaged. In the present invention, the center portion of the bottom surface 9 has a curved shape that slightly expands. The radius dimension S of the curved surface shape is along the dentition and is such that a gentle curve is drawn. Strictly speaking, the dimension of the radius S of the curved surface shape varies depending on each tooth surface 6, but is smaller than the winding curvature of the arch wire 4 and unified with an average dimension.

  That is, the bracket 1 and the arch wire 4 are arranged along the dentition. Further, both end portions 10 of the groove portion 2 are chamfered 11 having an R-shaped curved surface. This chamfering 11 is to prevent the arch wire 4 from being concentrated and stuck to one piece after tightening. The shape is round enough to prevent damage to both ends 10. In addition to the R shape, although not shown, both end portions 10 may be chamfered with a tapered shape. That is, it is set as the shape which forms the gentle inclined surface of the shape which expands the chamfer 11 of the both ends 10 outside.

  The chamfer 11 includes the bottom surface 9 of the groove portion 2 and the side surface portion 12 of the groove portion 2. Since the groove portion 2 has an R shape, even if the tooth surfaces 6 are displaced from each other, it is difficult for the end portions to come into contact with each other. By adopting such a shape, even if the bracket 1 is made of a hard material such as ceramics, it is not pressed with concentrated stress, so that troubles such as breakage of the bracket can be avoided. If the archwire 4 does not contact uniformly, the archwire 4 is pressed against the tooth surface 6 by pressing the center part, particularly if it is made to contact the center part of the bottom surface 9. This means that when the bracket 1 is pressed with the archwire 4, the joint surface 5 is uniformly pressed against the tooth surface 6.

  FIG. 4 shows another embodiment. The curved surface shape of the bottom surface 9 is the same as that of FIG. 1, and the side surface 13 of the groove portion 2 is also curved to expand from the central portion 14 along both end portions 15. May be. This enables the archwire 4 to be attached to the bracket 1 at an angle as shown by the chain line in the figure. A plurality of brackets 1 can cope with the tooth surface 6 even if there is a slight shift in the height direction or an angle shift. It is also possible to cope with the case where it is attached in a direction or inclined.

  As another embodiment, FIG. 5 shows that the width of the groove is widened by making the bracket 1 into a concave portion 17 in which both side surfaces of the central portion of the side surface 16 of the groove portion 2 are recessed. This is an example in which the arch wire 4 has a shape that does not contact the side surface of the central portion. If the side surface is flat, when the archwire 4 is installed on the bracket 1, it may come into contact only at the center of the side surface. In this case, the arch wire 4 may become unstable with respect to the bracket 1 at one side. In order to avoid this, only the central portion of the side face is escaped, that is, the recess 17 is formed so that the arch wire 4 does not contact. Thereby, since the arch wire 4 contacts only with the side surface 16 of the both ends of the groove part 2, a contact friction is reduced and the stable holding | maintenance is attained.

  FIG. 6 is a diagram showing an example of a dentition shape, and for example, a semicircular shape of a mandibular dentition is shown. Each tooth is arranged in a standard state. The dentition is corrected so as to obtain a dentition of this arrangement. A bracket 1 is attached according to each tooth, and an arch wire 4 is wound around the groove 2 of the bracket 1 while drawing an arch. The dentition is divided into three groups for convenience. The group A of the pointed teeth 20, 21, 22 such as the front and canine, the group B of the premolars 23, 24, and the molars 25, 26 It is classified and arranged in group C.

  Since the dentition is symmetrical, the grouping is limited to the right side of FIG. 6, but the same applies to the left side. According to this, group A has three teeth and groups B and C have two teeth. The bracket 1 to be attached has substantially the same shape according to the groups A, B and C, and the curvature of the curved surface of the bottom portion 9 is the same. The exact curvature of the archwire 4 wound along this dentition is slightly different between groups A, B, and C.

  Accordingly, the groove 2 curved surface shape of the bracket 1 also follows the curvature of the arch wire 4. The curvature of the groove part 2 of the bracket 1 is made smaller than the curvature of the arch wire 4 in the wound state, and the both end parts 10 of the groove part 2 are chamfered. Thereby, attachment of the arch wire 4 without frictional resistance is realizable. By making the curvature of the bracket 1 smaller than the winding curvature of the archwire 4, even if the position is slightly shifted and the mounting angle of the bracket 1 is slightly changed, one-sided contact can be avoided. Although the embodiment of the present invention has been described above, it goes without saying that the specific configuration of the present invention is not limited to this example.

FIG. 1 is a plan view of an orthodontic bracket according to the present invention. FIG. 2 is a cross-sectional view taken along the line AA of FIG. 3 is a cross-sectional view taken along line BB in FIG. FIG. 4 is a plan view of an orthodontic bracket showing another embodiment. FIG. 5 is a plan view of an orthodontic bracket showing another embodiment. FIG. 6 is an explanatory view showing a dentition configuration to which a bracket and an arch wire are attached.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Bracket 2 ... Groove part 3 ... Wing 4 ... Arch wire 5 ... Joining surface 6 ... Tooth surface 7 ... Locking groove 8 ... Ligating means 9 ... Bottom 10 ... Both ends

Claims (8)

  An orthodontic bracket (1) having a joint surface (5) to a tooth surface at a lower portion, a groove portion (2) in a central portion of the main body, and locking an arch wire (4), the groove portion (2) is an orthodontic bracket characterized in that the bottom surface (9) has a curved shape along the longitudinal direction of the archwire (4). The orthodontic bracket according to claim 1,
An orthodontic bracket characterized in that a chamfer (11) having a curved surface is formed around the end of the groove (2). The orthodontic bracket according to claim 1,
An orthodontic bracket characterized by tapering chamfering (11) around the end of the groove (2). The orthodontic bracket according to claim 1,
The side wall (13) of the groove part (2) has a gently inclined surface shape that expands from the center part (14) of the groove part (2) along both end parts (15). Bracket for column correction. The orthodontic bracket according to claim 1,
An orthodontic bracket characterized in that the bracket (1) is made of a ceramic material. In the orthodontic bracket according to claim 5,
The orthodontic bracket, wherein the bottom surface portion (9) of the groove portion (2) has a curved surface shape with a curvature smaller than the archwire curvature of the archwire. The orthodontic bracket according to claim 6,
The orthodontic bracket characterized in that the bottom surface portion (9) of the groove portion (2) has a curved surface shape with a different curvature for each group of dentition having a plurality of teeth. In the orthodontic bracket according to claim 7,
An orthodontic appliance characterized in that the side wall (16) of the groove portion (2) has a groove width which is a concave portion (17) in which both side surfaces of the central portion of the groove portion (2) are recessed. Bracket for.

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