KR20010026237A - Dental implant - Google Patents

Abstract

PURPOSE: Provided is a dental implant that includes an incline abutment plate of which grade of tongue side is higher than that of lip side or a screw part of dental root with a hemispheric end part. The dental implant can match the inclination structure of the abutment plate with gingiva well and maintain the osseointegration for a long time. CONSTITUTION: The dental implant comprises a dental root(3) planted in an alveolous(9) of a defected teeth part, an abutment(5) composed of an abutment plate(51) fastened to a flange of the dental root by a screw and a conic support(55) projected at the plate to be inclined at a fixed degree, and an artificial tooth(7) molded on the outer circumference of a gold cylinder(21) fastened by a gold screw(29) connected to the conic support. The abutment plate includes the tongue side of which inclination degree is higher than of the lip side and the lower part of the gold cylinder is formed to be corresponded to the inclination degree of the abutment plate. The outer circumference of the dental implant also can include a screw part of which top face of the thread is formed perpendicular to a direction of the major axis and bottom face is formed to be downward incline to the top face and end edge part is hemispheric shaped.

Description

Artificial Teeth

The present invention relates to a dental implant (dental implant) to replace the function of the teeth by semi-permanently coupled to the alveolar bone applied to the gum area where the teeth are missing, more specifically connecting the artificial tooth and the processed tooth When the abutment is used as an inclined structure, the abutment plate of the connecting column has a high tongue side and a low inclination angle on the lip side, and the gold cylinder is applied to the conical support of the connecting column when molded with a processed tooth. By forming the shape of the (gold cylinder) corresponding to the angle of inclination of the column plate, it is possible to achieve the ideal harmony between the inclined structure of the column plate and the gum after implantation, and also to form the upper surface of the artificial tooth root at right angles to the major axis and The lower surface is formed to be inclined upward with respect to the upper surface of the thread, and the end portion of the screw portion is formed in a hemispherical shape. Will receive written by an external force of occlusion pressure improved by evenly distributing the stress of the artificial tooth root and bone are close to the artificial tooth root for the external force while the function of the artificial teeth to be able to maintain over the long bone.

As is well known, teeth serve to help digestion by crushing or grinding food. If these teeth are lost, you will not be able to chew your food properly and you will not be able to digest it. Thus, teeth have long been recognized as an important part of the body and play an important role in living a healthy life.

Since human teeth are replaced with permanent teeth once in childhood, if a tooth is lost, new teeth can no longer be formed. Therefore, the dentist can restore the chewing function by repairing the lost tooth or its surrounding tissue through prosthetic treatment. Can be.

However, these general dental treatments cause some damage to adjacent teeth, surrounding gums, and bone tissues, which can not be avoided. When dentures are used, the reduction of chewing ability is reduced compared to natural teeth. In addition to bringing discomfort or foreign matter had a problem.

The artificial tooth implantation method proposed to solve the problem of such a universal prosthetic treatment method. According to this method, a tooth defect can restore almost all the same functions and appearances as a natural tooth without damaging the surrounding teeth or tissues.

As such, artificial teeth, which have recently been in the spotlight, generally serve as artificial substitutes for natural teeth, as shown in FIG. 1, the details of the artificial tooth 103, the connecting column 105, and the processed tooth 107. Consists of

Here, the artificial tooth 103 is a fixture that is planted in the alveolar bone 109 of the missing tooth part, such as the tooth of a natural tooth, to support the processed tooth 107. In addition, the connecting column 105 is called abutment teeth are planted in the gum 111 to connect the artificial tooth 103 and the processed tooth 107. The processed tooth 107 is fixed in the oral cavity by the connecting column 105 to reproduce the same shape and function as the natural tooth.

Referring to the implantation process when trying to recover the lost tooth using the artificial tooth 101 as follows.

The transplantation process is largely divided into surgical procedures, that is, surgical methods and prosthetic restorations. Before the operation, basic tests such as blood tests are performed to check for adequacy. In order to evaluate the amount, oral examination and radiographic examination will be preceded.

When this series of tests is completed, the surgical procedure is performed. First, in order to implant the artificial root 103 corresponding to the root into the bone 109 under local anesthesia, the gum 111 is dissected during the first operation and the bone tissue 109 is removed. After exposing the artificial tooth root 103 is inserted and the gum 111 is closed once.

Then, after 3 to 6 months, depending on the bone quality, the second operation is performed. In this case, the sutured gum 111 is cut again and connected to the upper surface of the artificial tooth 103 implanted in the bone 109. Put the column 105. Then, by inserting the connection column screw 115 through the insertion hole 113 formed in the center of the connection column 105, a fastening hole formed concentrically with the insertion hole 113 in the center of the artificial tooth 103 ( By connecting the screw 117 and the connection column 105 in the gum 111 is fixed to the top of the artificial tooth 103.

As such, after protruding the connecting column 105 into the oral cavity through the gum 111, the second operation is cured, and then prosthetic treatment is performed. First, the gold cylinder 121 is coaxially formed on the upper surface of the connecting column 105. Put it on. At this time, the upper protrusion 119 of the connection column screw 115 is inserted into the truncated through-hole 123 of the gold cylinder 121.

Then, after manufacturing the tooth 107 on the top of the gold cylinder 121 according to a conventional method, the gold screw 129 is inserted through the tooth hole 127 formed through the center line of the tooth 107. Thus, the implantation of the artificial tooth 101 is completed by screwing into the fastening hole 125 penetrated through the upper surface of the protrusion 119 of the connection column screw 119.

The configuration and implantation process of the artificial tooth 101 as described above is general, and recently, various types of artificial teeth have been developed to secure a problem according to the implantation target of the artificial tooth 101. One of them is the inclined artificial tooth 201 as shown in FIG.

That is, in the general artificial tooth 101 shown in FIG. 1, the connecting pillar 105 and the gold cylinder 121 are coaxially coupled to the artificial root 109 implanted in the alveolar bone, and the alveolar bone 109 is fundamental. In the narrow state or when narrowed by deformation due to loss of teeth, the position where the artificial root 109 can be planted is usually limited to one angle. Accordingly, the processed tooth 107 integrally coupled to the gold cylinder 121 coupled to the artificial tooth 109 via the connecting column 105 has a predetermined inclination angle in the tongue direction for combination with the surrounding teeth. In this case, the gold tooth 129 connecting the processing tooth 107 and the connecting pillar 105 having an inclination angle has an unsuitable problem such as being exposed to the outer surface of the processing tooth 107, that is, the lip direction.

The inclined artificial tooth 201 shown in FIG. 2 to solve the problems caused by the exposure of the gold screw 129 as described above has the artificial tooth 203 and the connecting column 205 like the general artificial tooth 101. The basic configuration of the processed tooth 207 and the gold cylinder 221 is the same. However, the connecting column 205 is formed of an inclined structure, a conical gold cylinder on the upper end of the column plate 251 having a fastening groove 252 for coupling to the hexagonal protrusion 204 of the artificial tooth 203 on the lower surface. Conical support 255 for engagement with 221 is formed to protrude obliquely at a predetermined angle (for example, 17 °, 27 °) in the tongue direction, the center of the cone support 255, the gold of the gold cylinder 221 The fastening hole 256 coupled to the screw 129 is coaxially coupled with the artificial tooth root 203 and the insertion hole 253 penetrated through the pillar plate 251 and a predetermined inclination angle (for example, 17 °, There is a difference that is formed through to have a (27 °).

Accordingly, even though the angle at which the artificial root 203 is implanted in the alveolar bone 209 is limited, the artificial tooth 203 and the processed tooth 207 are inclined by using the inclined connection column 205 inclined at a corresponding angle. Since the connection, the fastening position of the gold screw 229 to the inner surface of the processing tooth 207 can block the exposure to the outside.

However, such a conventional inclined artificial tooth 201 is made of a trapezoidal conical unitary structure as shown in FIG. 3 to use the gold cylinder 221 which is also used in the general artificial tooth 101 shown in FIG. 1 as it is. Therefore, in order to compensate for the inclination angle of the conical support 255 of the connecting column 205 into which the gold cylinder 221 is fitted, the inclination angle is given to the column plate 251, and the inclination structure of the column plate 251 is implanted. There is a problem in that proper harmony with the gums 211a and 211b of the site cannot be achieved.

That is, the pillar plate 251 of the inclined connector pillar 205 has an inclination angle (for example, 17 ° and 27 degrees downward from the lip side front side 251a to the tongue side rear surface 251b by the angle at which the conical support portion 255 is inclined). °) has a high inclination angle of the front structure (251a) where the lips are located and a low structure as the rear surface (251b) where the tongue is located. On the contrary, the gum 211b on the tongue side of which the inclination height of the pillar plate 251 is low is thick, and the gum 211a is thin on the lip side.

Therefore, the gum 211a on the lip side is exposed to the outside because the front plate 251a of the high state cannot be sufficiently covered, and the thick gum 211b on the tongue side is cut to the height of the rear plate 251b of the column. There is a problem to be addressed.

1 and 2, most artificial teeth 101 and 201 have a screw-absorbing tooth root 103 (203) (203), which has less bone resorption phenomenon in which bone tissue melts and is stronger than a cylindrical body structure. ) Is adopted.

As shown in FIG. 4, the screw-type artificial tooth root 103 and 203 includes a flange 131 and a threaded portion 135 in which a thread 136 is processed on an outer circumferential surface and a blade 137 is formed at a lower end thereof. have. Accordingly, the artificial tooth 103 and 203 can effectively implant the artificial tooth 101 and 201 without additional tapping process for the alveolar bone 109 and 209.

However, in the artificial teeth 101 and 201 as described above, the artificial teeth 103 and 203 have the same inclination angles of the upper surface 136a and the lower surface 136b forming the thread 136 of the threaded portion 135. It is formed in an isosceles triangle structure or a trapezoidal square, hexagonal structure, etc., and the lower surface 138 of the screw portion 135 is formed in a flat surface, so that when the bite force is applied, the screw portion 135, the lower surface 138, and the like Excessive stress is generated intensively in the adjacent bone tissue has a problem that causes the bone absorption phenomenon that inhibits the adhesion.

Therefore, the present invention has been made to solve the problems of the conventional artificial teeth as described above, the first object is the pillar of the connecting column when the connecting column connecting the artificial tooth and the processed tooth is used as an inclined structure The tongue side is high and the lips side has a low inclination angle, and the shape of the gold cylinder that is covered by the conical support of the connecting column is formed to correspond to the inclination angle of the pillar plate, so that the inclined structure of the pillar plate and the gum after implantation are the most optimal harmony. To provide an artificial tooth that makes it possible.

The second object of the present invention is to form the upper surface of the screw thread of the artificial tooth perpendicular to the long axis direction, and to form the lower surface to be inclined upward with respect to the upper surface, and to form the end of the screw portion in a hemispherical shape to receive the external force of the occlusal pressure while the function of the artificial tooth It is to provide an artificial tooth that can maintain the bone adhesion for a long time by evenly dispersing the stress on the external tooth and the bone tissue adjacent to the artificial root.

1 is a schematic perspective view showing the structure and implantation state of a conventional general artificial tooth.

Figure 2 is a cross-sectional view showing the structure and implantation state of a conventional inclined artificial tooth.

Figure 3 is an exploded view showing the structure of the connection column of the inclined artificial tooth using a gold cylinder of the same structure as in the conventional general artificial tooth.

Figure 4 is a front view showing the artificial tooth of the conventional artificial teeth shown in Figs.

Figure 5 is a cross-sectional view showing a structure and implanted inclined artificial teeth in accordance with an embodiment of the present invention.

Figure 6 is an exploded view showing the structure of the connecting column and the gold cylinder of the artificial tooth shown in FIG.

Figure 7 is a front view showing the artificial tooth of the artificial tooth shown in FIG.

* Description of the symbols for the main parts of the drawings *

1: artificial tooth 3: artificial tooth

5: connecting column 7: working tooth

9: alveolar bone 11a, 11b: gum

21: gold cylinder 29: gold screw

31 flange 32 hex protrusion

35: threaded portion 36: thread

36a: Threaded top surface 36b: Threaded bottom surface

37: wing 38: hemispherical surface

51: pillar plate 51a: front

51b: rear 52: fastening groove

55 conical support

The present invention for achieving the first object as described above is an artificial tooth planted in the alveolar bone of the missing tooth portion, a pillar plate screwed to the flange of the artificial tooth root and a conical support projecting inclined at a predetermined angle to the pillar plate. In the inclined artificial tooth including a processing tooth which is formed on the outer periphery of the gold cylinder is fastened by a gold screw coupled with the conical support portion consisting of a tooth, wherein the pillar plate of the connecting column has a rear side of the tongue The front side of the high and lip side is formed at a low inclination angle, the gold cylinder is characterized by providing an inclined artificial tooth formed to correspond to the inclination angle of the pillar plate.

The present invention for achieving the second object as described above is an artificial tooth root formed in the alveolar bone of the missing tooth portion formed with a threaded portion on the outer peripheral surface, a pillar plate screwed to the flange of the artificial tooth root and a predetermined angle to the pillar plate In the artificial tooth comprising a connecting pillar made of a conical support projecting obliquely to the teeth, a processed tooth which is molded on the outer circumference of the gold cylinder fastened by a gold screw coupled with the conical support and serves as a tooth, wherein the thread of the artificial tooth is the upper surface of the thread It is formed at right angles to the long axis direction, the lower surface is formed to be inclined upward with respect to the upper surface, the end of the screw portion is characterized by providing an artificial tooth formed in a hemispherical shape.

According to the present invention, the pillar plate tongue side of the connecting pillar has a relatively inclined structure than the lip side, so that the front surface of the pillar plate can be blocked by the lip side gum, as well as the back side of the pillar plate tongue side The artificial roots directly contacting the alveolar bone can be harmonized to fit the gum structure, and the upper surface of the thread part is formed in the direction perpendicular to the long axis so that the stress generated as the occlusal pressure is equally distributed. As the additional hemispherical shape is formed, it is possible to maintain bone adhesion by suppressing bone absorption.

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

5 shows an inclined artificial tooth 1 according to an embodiment of the present invention, which is composed of an artificial tooth 3, an inclined connecting column 5, and a processed tooth 7. .

Artificial tooth root (3) is made of titanium (titanium) is a fixed body which is planted in the alveolar bone (9) of the missing tooth, such as the root of natural teeth to support the processed tooth (7), the hexagonal projection ( 32 is formed of a flange 31, and the threaded portion 36 is formed on the outer peripheral surface and the blade portion 35 is formed with a blade 37 for tapping the alveolar bone 9 at the lower end. A fastening hole 33 for fastening with the connecting column 5 is processed at the center of the hexagonal protrusion 32.

In addition, the screw portion 35 of the artificial tooth root 3 has an upper surface 36a of the thread 36 formed at right angles to the major axis direction, and a lower surface 36b is formed to be inclined upward with respect to the upper surface 36a. For example, the inclination angle of the lower surface 36b is formed at about 45 °. The end of the threaded portion 35 on which the blade 37 is formed is formed with a hemispherical surface 38.

In addition, a hole 39 penetrated perpendicularly to the long axis direction of the artificial tooth root 3 is formed at the center of the lower end, and the hole 39 allows bone to be grown in the alveolar bone 9 to be introduced into the interior. The bond will be increased.

The connecting column 5 is called abutment tooth and is implanted in the gums 11a and 11b to connect the artificial tooth 3 and the processed tooth 7, and the fastening hole and the connecting column 5 of the artificial tooth 3 in the center thereof. Pillar plate 51 is formed with an insertion hole is fastened with a screw and a fastening groove 52 is coupled to the hexagonal projection 32 of the artificial tooth root 3 on the lower surface, and artificial tooth root 3 on the column plate 51 Protruding obliquely, for example, 17 ° or 27 ° from the long axis of the cone and penetrating from the top at the center to form a fastening hole 56 which also meets the long axis of the artificial tooth 3 at an oblique angle of 17 ° or 27 ° ( 55). At this time, the inclination of the conical support 55 is directed in the direction in which the tongue is located.

In addition, the column plate 51 has an inclination angle of a predetermined angle, for example, 17 ° or 27 ° from a right angle line on the long axis line of the artificial tooth root 3, and the downward inclination angle from the rear surface 51b to the front surface 51a is reduced. The tongue side, which is the rear surface 51b, is high, and the lip side, which is the front surface 51a, is low.

The processed tooth 7 is fixed in the oral cavity by the connecting column 5 to serve as a tooth, and the base molding material 7a of platinum which is molded on the outer circumference of the gold cylinder 21 which is covered and fastened to the conical support 55. ) And a tooth structure 7b which is covered on the outer periphery of the base molding 7a to reproduce the natural tooth shape.

The through hole 28 is formed at the upper end of the gold cylinder 21, and the gold screw 29 is connected to the fastening hole 56 of the conical support 55 through the tooth hole 27 formed at the rear of the processed tooth 7. Is fastened to. In addition, the gold cylinder 21 is formed so as to correspond to the inclination angle of the pillar plate 51, unlike the trapezoidal conical unitary structure commonly used in the conventional general artificial and inclined artificial teeth. That is, the conical support portion 55 is formed in the same structure as the outer shape, the shape can be changed according to the inclination angle of the conical support portion 55.

According to the artificial tooth 1 according to the embodiment of the present invention configured as described above, the pillar plate 51 of the connecting column 5 has a high rear surface 51b on the tongue side and the front surface 51a on the lip side with a low inclination angle. The gold cylinder 21 formed and covered by the conical support portion 55 of the connecting column 5 is formed to correspond to the inclination angle of the pillar plate 51, so that even after the implantation, the thin gum 11a on the lip side is sufficiently sufficient. The front surface 51a can be covered to completely block exposure to the outside, and as the size of the high pillar plate rear 51b and the relatively thick tongue side gum 11b are appropriately sized compared to the front plate 51a, the tongue side There is no need to cut the gum 11b separately.

In addition, when the external force is applied from various directions such as the upper side and the side by forming the threaded upper surface 36a of the artificial tooth root 3 at right angles to the major axis direction and forming the threaded lower surface 36b inclined upward with respect to the threaded upper surface 36a. The stress on the threaded lower surface 36b with respect to the alveolar bone 9 acts in a wider distribution than the upper surface 36a, which is very advantageous for stress distribution, and by forming the end of the threaded portion 35 as a hemispherical surface 38, It is possible to suppress the stress concentration along the edge of the bottom surface of 35) and to distribute the stress in a uniform distribution. Therefore, it is possible to evenly distribute the stress of the artificial tooth root 3 and the bone tissue adjacent to the artificial tooth root 3 against the external force during the function of the artificial tooth under the external force of the occlusal pressure.

As described above, the present invention is that the tongue plate tongue side of the coupling column coupled to the gold cylinder has a relatively inclined structure than the lips side so that the front surface of the pillar plate can be blocked by the lip side gum. Of course, the back of the pillar plate can be harmonized to fit the tongue structure.

In addition, the present invention by forming the upper surface of the screw thread of the artificial tooth at a right angle, the lower surface is inclined, and the end of the screw portion hemispherical to receive the external force of the occlusal pressure and to the external tooth during the function of the artificial tooth and the artificial tooth root By uniformly dispersing the stress of the bone tissue close to and will maintain bone adhesion for a long time.

While the invention has been shown and described with respect to particular embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention as set forth in the appended claims. Anyone can grow up easily.

Claims (2)

At an angle to the artificial root 3, which is planted in the alveolar bone 9 of the missing tooth part, and the pillar plate 51 screwed to the flange 31 of the artificial tooth root 3 and the pillar plate 51 at a predetermined angle. Machining to be molded on the outer periphery of the gold cylinder 21 which is fastened by the connecting column 5 consisting of the conical support 55 projecting obliquely and the gold screw 29 coupled to the conical support 55. In the inclined artificial tooth (1) comprising a tooth (7), The pillar plate 51 of the connecting column 5 is formed at a lower inclination angle with a high rear surface 51b on the tongue side and a lower front surface 51a on the lip side, and the gold cylinder in contact with the upper surface of the pillar plate 51 ( 21, the lower end of the inclined artificial teeth, characterized in that formed to correspond to the inclination angle of the column plate (51). Screw plate 35 is formed on the outer circumference of the artificial tooth root (3) planted in the alveolar bone (9) of the missing tooth portion, and the column plate 51 screwed to the flange 31 of the artificial tooth root (3) and its Outside of the gold cylinder 21 is fastened by a connecting column 5 made of a conical support portion 55 protruding obliquely at a predetermined angle to the pillar plate 51 and a gold screw 29 coupled to the conical support portion 55. In an artificial tooth comprising a processed tooth (7) molded in the columnar shape and acting as a tooth, The screw part 35 of the artificial tooth root 3 has a threaded upper surface 36a formed at right angles to the major axis direction, and a threaded lower surface 36b is formed to be inclined upward with respect to the threaded upper surface 36a, and Tooth end artificial tooth, characterized in that formed in a hemispherical shape.