KR101956803B1 - A material for abutment - Google Patents

Abstract

The present invention relates to an abutment material including: a processing part having a cylindrical shape and processed by a processing machine; a connection part removably connected with an end of the processing part, and having the other end corresponding to one end, which is connected with the processing part, to the processing machine; and a combination part combining the processing part with the connection part in a longitudinal direction, and coupling such that one end is included in the processing part and the other end is included in the connection part, which corresponds to one end. According to the technical features, since the processing part processed by the processing machine and the connection part combined with a jig of the processing machine are combined through the combination part in a longitudinal direction, the convenience of the combination makes processes convenience as well as reduces processing time and manufacturing costs. Also, components are combined firmly to prevent errors in spite of vibrations caused by high-speed rotation, and thus, the fault rate of the processing part is lowered. Moreover, the present invention is capable of processing the processing part by unifying different connection parts of each company with the connection part of the present invention.

Description

{A MATERIAL FOR ABUTMENT}

The present invention relates to an abutment material, and more particularly, to an abutment material, and more particularly, to an abutment material, and more particularly, And thus it is possible to reduce the defective ratio of the machining portion and to facilitate the machining process due to the convenience of the machining and to reduce the machining time and manufacturing cost .

Generally, implants implicate artificial teeth in a dental implant. That is, an implant refers to a procedure in which an alternate root can be substituted for a missing root (root) in an alveolar bone in which a tooth is missing, and then the tooth is restored by fixing the artificial tooth.

In general prostheses or dentures, the surrounding teeth and bones are damaged over time, but the implants do not injure the surrounding dental tissue, and they have the same function and shape as the natural teeth, but do not have cavities. Therefore, they can be used semi-permanently.

In addition, the implant has the advantage that it improves the function of the denture and improves the aesthetics of dental prosthesis restoration, as well as single-tooth restoration, as well as partial and total toothless patients. Furthermore, it helps disperse the excessive stress applied to the surrounding supporting bone tissue and stabilizes the dentition.

As described above, the implant treatment performed in the dentistry is classified into a gingival bone, that is, a procedure in which an implant is placed on an alveolar bone, and a prosthetic procedure in which an artificial tooth is attached to an abutment on an implanted implant.

The implant consists of a fixture placed on the alveolar bone, an abutment fixed to the fixture by a screw, and a crown that covers the abutment and forms the external shape of the implant.

Among the components of the implant, the abutment transfers the load transferred from the crown to the fixator and transmits it to the jawbone. Therefore, abutment must be manufactured with all of the size, shape, contour, occlusion with the surrounding teeth, the characteristics of the individual teeth, gingival state, and gum line. Therefore, abutments are usually customized to the individual patient's teeth rather than being supplied as ready-made products of uniform size.

Customized abutments were mainly manufactured by casting methods. That is, a dental bone pattern is obtained from a patient, and a skilled technician designing a gypsum mold based on the experience of a skilled technician based on the shape of the tooth pattern, injects the abutment material dissolved in the gypsum mold, .

However, the abutment manufactured by the casting method causes a gap in a portion where the abutment and the gum come into contact with each other due to a process error. Foods trapped in these gaps caused problems such as causing tooth decay or causing the patient to feel a sense of heterogeneity.

I would like to see the problem at the point of automation of the dental laboratory if it was a passive problem in the above-mentioned dental laboratory.

I want to listen to the material part of the problem at the present time which is an automation system (CAD / CAM system).

It is not a problem if each manufacturer uses the same equipment and the same size of material, but at present, there is no part of the country or association that can set standards, so each manufacturer has to use different equipment and different materials I can not help it.

Consumption of different materials will come as a unit price, and eventually it is not easy for manufacturers and dental laboratories to provide smooth schedules and production.

1 is a prior art publication No. 10-1762725 (entitled " Abutment, registered on July 24, 2017).

The abutment material 10 of the prior art has a machining portion 11 that is cut and processed by a machining machine, a connection portion 12 that is inserted and coupled to a jig coupled to the machining machine, A connecting portion 11a extending from one end and inserted and coupled to the connecting portion 12 and a moving bolt 13 for connecting the connecting portion 12 with the working portion 11, Is provided with an engaging groove 12h 'into which the engaging portion 11a is inserted and a move bolt hole 12f' which is connected from the outer surface of the connecting portion 12 to the engaging groove 12h ' 12b ") is formed on the outer surface of the engaging portion 11a, and a move bolt groove 11h into which the end of the move bolt 13 is inserted is formed on the outer surface of the engaging portion 11a.

The abutment material 10 of the prior art has the engagement portion 11a inserted into the engagement groove 12h 'of the connection portion 12 on the outer surface of the connection portion 12, that is, on the left side The move bolt 13 is inserted through the formed move bolt hole 12h "and inserted into the move bolt groove 11h formed in the engaging portion 11a.

However, the abutment material 10 of the prior art is joined by the move bolt 13 through the move bolt hole 12h "formed on the left side of the machined portion 11 and the connecting portion 12 A machining error such as twisting or squeezing to one side is generated due to the vibration generated due to the high-speed rotation of the processing machine at the time of machining so that the joining state of the machining portion 11 is weakened from the connecting portion 12, ) Is generated.

A further prior art related to this is JP-A-10-1487133 entitled " Customized abutment and its manufacturing method, registration date: Jan. 21, 2015 ".

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a machining apparatus and a machining apparatus, An abutment material which can reduce the defective rate of the machined part due to no machining error due to the high speed rotation and can be easily processed due to the convenience of the machining, .

Other objects, features and advantages of the present invention will become apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

In order to achieve the above object, the present invention has the following technical features.

An abutment material according to the present invention includes: a machining portion which is cylindrical and which is processed by a machining machine; A connecting part connected to one end of the machining part so as to be detachable and fixed to the machining machine at the other end corresponding to one end connected to the machining part; And an engaging part for engaging the machining part and the coupling part so as to be coupled to the coupling part so that one end of the machining part and the coupling part are provided in the machining part, .

In the abutment material according to the present invention, the projecting portion is protruded at one end of the connecting portion, and the projecting portion of the connecting portion is inserted and fixed to the fixing groove formed in the processing machine.

In the abutment material according to the present invention, an extension portion is formed at one end of the processing portion, a coupling groove is formed in the coupling portion connected to the processing portion, and an extension of the processing portion is inserted into the coupling groove of the coupling portion .

In the abutment material according to the present invention, the machined portion is formed with a through hole and a thread groove connected to the through hole, a thread groove is formed at a center except for the connection groove formed in the connecting portion, The machined portion and the connecting portion are coupled through the thread groove and the engaging portion that is rotationally coupled to the thread groove of the connecting portion.

In the abutment material according to the present invention, the joining portion joins the machining portion and the connecting portion in the longitudinal direction, through the upper portion of the machining portion, or through the lower portion of the connecting portion.

In the abutment material according to the present invention, the coupling portion may be any one of a crown bolt, a rectangular bolt, a hexagon bolt, a cylindrical bolt, and a plate bolt.

The present invention has been made in view of the above-described problems, and it is an object of the present invention to provide a machining apparatus and a machining apparatus, which are connected to each other by a jig, It is possible to reduce the defective rate of the machined portion due to no occurrence of machining error even in vibration, and the machining process is easy due to the convenience of the coupling, and the machining time and manufacturing cost can be reduced.

In addition, the present invention also has an effect that the machined part can be machined by unifying the connecting parts different for each company to the connecting part of the present invention.

Other advantages of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings. BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a diagram of one embodiment of a conventional abutment material,
2 is a perspective view of one embodiment of an abutment material according to the present invention,
FIG. 3 is a perspective view showing the separated state of the abutment material according to FIG. 2,
FIG. 4 is a view showing a state where the abutment material according to FIG. 2 is fixed to a processing machine;
FIG. 5 is a view showing a state of an embodiment in which the engaging portion according to FIG.
Fig. 6 is a view showing the state of another embodiment in which the engaging portion according to Fig. 2 is inserted at the top; Fig.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numbers refer to the same or similar function in various aspects.

FIG. 2 is a perspective view of an embodiment of the abutment according to the present invention, FIG. 3 is a perspective view showing the separated state of the abutment material according to FIG. 2, Fig. 5 is a view showing a state of an embodiment in which the engaging portion according to Fig. 2 is inserted from the bottom, Fig. 6 is a view showing a state in which the engaging portion according to Fig. Fig.

Before describing the abutment material according to the present invention, the types of implants will be described.

There are more than 80 implants manufactured domestically and overseas.

The types of implants are divided into External (1st generation), Internal (2nd generation), Sunmerged (3rd generation), and further divided into 3 ~ 4 sub categories according to each type.

In general, the root of a tooth is classified as Hex (hexagonal) or N-hex when it is inclined more than 15 ~ 25 degrees on both sides, Depending on the size, it is divided into 10T or 14T.

It is divided into about 80 kinds of implant companies and 12 ~ 20 kinds of implant types, and there are about 6 kinds of thickness and angles.

Hereinafter, an abutment material according to the present invention will be described.

The abutment material 100 according to the present invention includes a processing portion 110, a connection portion 120, and a coupling portion 130, as shown in FIGS.

The machining portion 110 has a cylindrical shape and is processed by the machining machine 200.

Specifically, the machining unit 110 is customized through CAD (Computer Aided Design) or CAM (Computer Aided Manufacturing) system in order to manufacture the same as the oral condition of the patient. In order to process the machining unit 110 A processing machine 200 such as a CNC or a milling machine is used.

The machining portion 110 is made of titanium, titanium alloy, gold, ceramic, alumina, nickel-chromium alloy, or the like which is harmless to the human body.

The machining unit 110 is tightly coupled to the connection unit 120 through a coupling unit 130 formed in a lengthwise direction (longitudinal direction) as will be described below and is generated by the machining machine 200 due to high- The machining error is minimized even with vibration, and the workpiece is machined into a desired shape.

The machining portion 110 has an extension portion 111 having a smaller diameter than that of the machining portion 110 and a through hole 112 in the longitudinal direction of the machining portion 110.

The connecting part 120 is connected to one end of the machining part 110 in a detachable manner and the other end corresponding to one end connected to the machining part 110 is fixed to the machining machine 200.

Specifically, the connection part 120 has a connection groove 122 formed therein, and the extended part 111 of the processing part 110 is inserted and connected to the processing part 110 so as to be detachably coupled.

An extension portion 111 is extended from one end of the processing portion 110 connected to the connection portion 120 and a connection groove 122 is formed in the connection portion 120 connected to the processing portion 110, 110 are inserted into the connection groove 122 of the connection portion 120 and connected to each other.

The connecting portion 120 is formed with a thread groove H connected to the connecting groove 122 so that the engaging portion 130 to be described below is inserted through the thread groove H.

The connecting part 120 is formed by protruding a protrusion 121 smaller than the diameter of the connecting part 120 at the lower part of the connecting part 120 and inserted and fixed in the processing machine 200 as in the extension part 111 of the processing part 110 .

The connection part 120 is inserted and fixed in the fixing groove 210 formed in the machining machine 200 so that the protrusion 121 is fixed to the fixing groove 210 of the machining machine 200, It is fixed firmly to keep it fixed.

The diameter of the connecting portion 120 is equal to the diameter of the machining portion 110.

The engaging part 130 is formed by connecting the machining part 110 and the connecting part 120 in a longitudinal direction (longitudinal direction), one end being provided in the machining part 110 and the other end corresponding to one end being connected to a connecting part 120).

The engaging portion 130 is formed of any one of a tongue bolt, a rectangular bolt, a hexagonal bolt, a cylindrical bolt, and a plate bolt.

Among the joint portions 130, the tongue bolts are used as a bolt without a head, or as a set screw for preventing loosening, which is used for preventing loosening. It is very economical.

The tongue bolts are elongated in the longitudinal direction and engage the machined portion 110 and the connecting portion 120 in the longitudinal direction, that is, in the longitudinal direction, using a hexagonal wrench.

Among the engaging portions 130, rectangular bolts and hexagon bolts are equiped with a spanner, and cylindrical bolts and dish bolts are used with a device such as a screwdriver.

The engaging portion 130 is vertically coupled to the machining portion 110 and the connecting portion 120. The engaging portion 130 is inserted from the upper portion of the machining portion 110 and inserted or joined from the lower portion of the connecting portion 120. [

2 is a perspective view illustrating a state in which an engaging portion according to an embodiment of the present invention is inserted at a lower portion of the connecting portion 120. The engaging portion 130 includes a protrusion 110, Is inserted through the thread groove H of the threaded portion 121 and is rotationally coupled to the thread groove H formed in the extended portion 111 of the processing portion 110.

The diameter of the coupling part 130 is preferably the same as the diameter of the thread groove H of the coupling part 120.

Since the machining portion 110 and the coupling portion 120 are coupled to each other in the longitudinal direction, that is, in the longitudinal direction through the coupling portion 130 having a long length, the coupling state between the processing portion 110 and the coupling portion 120 is much longer than that in the prior art It has solid technical features.

FIG. 6 is a view showing a state of another embodiment in which the engaging part according to FIG. 2 is inserted at the upper part. The engaging part 130 'includes a machining part 110' and a connecting part 120 ' 'Through the through hole 112' of the machining portion 110 'and is rotationally coupled to the screw groove H' formed in the protruding portion 121 'of the connecting portion 120'.

Specifically, the through-hole 112 'of the machining portion 110' is formed with a screw groove H 'at least in the extended portion 111' so that the screw groove H ' do.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And such variations and modifications are intended to fall within the scope of the appended claims.

100: abutment material
110:
111: Extension part
112: Through hole
120: Connection
121:
122: connection groove
130:
200: Processing machine
210: Fixing groove
H: screw groove
10: abutment material
11:
11a:
11h: Move Bolt Home
12: Connection
12h ': Coupling groove
12h ": Movable bolt hole
13: Move Bolt

Claims (6)

A machining portion that is machined by a machining machine in a cylindrical shape;
A connecting part formed to have the same shape and diameter as the machining part and being connected to one end of the machining part so as to be detachable and being fixed to the machining machine at the other end corresponding to one end connected to the machining part; And
An engaging part for engaging the machining part and the connecting part so as to be long in the longitudinal direction, one end of which is provided in the machining part and the other end of the machining part and the connecting part are connected to the connecting part; , ≪ / RTI >
Wherein the machining portion has a through hole and a thread groove formed in the through hole so that a thread groove is formed at a center except for the connection groove formed in the connection portion and the screw groove of the machining portion and the screw groove of the connection portion are rotationally coupled The processing portion and the connection portion are coupled through the coupling portion,
Wherein the engaging portion is made of a tongue bolt to engage the machining portion and the coupling portion in the longitudinal direction and to couple the machining portion and the coupling portion through the upper portion of the machining portion or through the lower portion of the coupling portion. The method according to claim 1,
Wherein a protrusion is formed at one end of the connection part and a protrusion of the connection part is inserted and fixed to a fixing groove formed in the processing machine. The method according to claim 1,
Wherein an extending portion is formed at one end of the machining portion and a connecting groove is formed in the connecting portion connected to the machining portion so that an extension of the machining portion is inserted and connected to the connecting groove of the connecting portion. delete delete delete

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