KR101516950B1 - apparatus for abutment profile drill - Google Patents

Abstract

The present invention provides an abutment profile drill apparatus in order to improve workability in an abutment insertion procedure while eliminating a gum without damage to a fixture in an implant surgery procedure. The abutment profile drill apparatus includes: a shank part forming an installation part coupled to a dental handpiece in an upper end part; a stopper part protruding along a circumferential direction at a lower side of the shank and having a diameter greater than an inner circumference of a guide hole to be restricted and seated in an edge of an upper end of the guide hole formed in a stent which is formed according to an oral cavity profile and wrapped around periodontal tissue to be fixed for guiding a fixture placement position; a moving rod part extended downwards along the center of the stopper part to be inserted into the guide hole and move; and a drill part having a side cutting part rounded as an external profile is extended downwards to cut the gum at a fixture placement position by being connected to a lower part of the moving rod part and having a slide support part flattened on a lower end side of the side cutting part to be supported on an upper end part of the fixture and to slide.

Description

[0001] The present invention relates to an apparatus for abutment profile drilling,

The present invention relates to an abutment profile drilling apparatus, and more particularly, to an abutment profile drilling apparatus that removes gums without damaging a fixture during an implant procedure, and improves workability of an abutment insertion process .

Generally, an implant refers to a substitute for replacing a human tissue when the original human tissue is lost, but refers to implanting an artificial tooth in the dentistry. To replace the missing tooth root, a fixture made of titanium or the like which has no rejection to the human body is planted in the alveolar bone that has been taken out of the tooth, and then the tooth is restored by fixing the artificial tooth.

In the case of general prostheses or dentures, the surrounding teeth and bones are damaged over time, but the implants can prevent damage to the surrounding dental tissues and can be used stably because there is no secondary cause of tooth decay. In addition, since the implant has the same structure as the natural teeth, there is no pain or foreign body sensation of the gums, and it is advantageous that the implant can be used semi-permanently.

1 is a flowchart illustrating a conventional implant procedure.

As shown in FIG. 1, the conventional implant procedure includes a primary procedure (s1, s2, s3, s4) of placing a fixture in the alveolar bone and a time ) And fixing the final prosthesis (s5, s6).

First, the primary procedure includes a gum removal step (s1) for opening the gum of a tooth-missing part, a multistage drilling step (s2) for forming a perforation where the fixture is to be placed, a fixture placement step (s3) And a step (s4) of binding temporary teeth to the tooth tip.

Specifically, the gums are removed through a tissue punch or the like in the gum removal step (s1), and the alveolar bone at the position where the fixture is placed is exposed. Then, the exposed portion of the alveolar bone is subjected to a multi-step drilling step (s2) to form a perforation for fixture placement.

At this time, the multi-step drilling step (s2) may include forming an initial hole, expanding a hole, forming a thread in a hole, and removing a remaining alveolar bone in the hole. Depending on the type of drill and the drilling method used, it can be varied.

Then, the fixture is placed on the perforations formed through the multi-step drilling step (s2) (s3), and the temporary teeth are coupled to the fixture placed (s4), thereby completing the primary procedure.

Here, the fixture placed in the perforation serves as the root of the artificial tooth. Therefore, it is very important to form an accurate hole in the multi-step drilling step (s2) in order to provide a stable and fast restoration process in which the alveolar bone forms osseointegration with the fixture and provides a stable bonding force between the alveolar bone and the fixture after the osseointegration. And the completeness of artificial tooth formation through implant treatment is determined.

At this time, the temporary tooth includes a healing abutment and a cover screw. Here, the healing abutment and the cover screw are inserted into the fixture while the inserted fixture is osseointegrated to the alveolar bone, preventing gums and foreign substances from being introduced into the fixture and damaging the inside of the fixture .

Then, the temporary tooth is coupled to the fixture, and after waiting for the alveolar bone to be restored for a period of about 3 to 6 months, the temporary tooth is removed and the abutment (the abutment) is engaged (s5). Finally, when the crown (final prosthesis) is attached to the abutment, the implant procedure can be completed (s6).

On the other hand, it is very difficult for a novice as well as an experienced person to form a perforation in an exact depth and direction at a position where the fixture is to be placed in the above-described procedure. Therefore, in the drilling operation for forming the perforation, the operation is performed using a surgical guide tool called a stance.

Here, the stent acquires the shape of the alveolar bone in the oral cavity through the CT scan, and acquires the shape of the teeth and the gum through the gypsum model formed in accordance with the profile in the oral cavity. Then, it implements the image matching, plans the implant operation through simulation, and creates a stand that can guide the operation according to the plan.

At this time, a guide hole for guiding a fixture position of the fixture corresponding to the implant treatment plan is formed in a state where the stand is fixed in the oral cavity. Here, the inner circumference of the guide hole may guide the drill to be formed in a precise direction and depth in the drilling process by rotating the outer circumference of the drill used in the drilling. Of course, a sleeve formed of a brass material may be inserted in the inner circumference of the guide hole to reduce frictional force during rotation and to prevent deformation of the guide hole and to stably rotate the drill.

The diameter and the depth of the sleeve or the guide hole are preferably set according to the implant operation plan, such as the diameter of the perforation to be formed at the implant treatment position, the thickness of the fixture, the thickness of the drill used when forming the perforation.

However, in the related art, when a fixture is formed in a state where a staple is fixed in an oral cavity, a fixture is placed, and then a temporary tooth is coupled to the fixture or after a fixture is bonded through osseointegration, And when the final prosthesis is inserted, the diameter of the guide hole is fixed and the portion where the gum can be removed is limited, so that there is a problem that a sufficient space can not be provided when the temporary tooth, the abutment portion, and the final prosthesis are combined.

As a result, there is a case where the gums are covered with the holes of the fixture to which the temporary tooth or the abutment portion is to be coupled, or the outer surface of the temporary tooth or the abutment portion is caught by the gum and can not be inserted in the correct direction to the fixture. There is a problem that the completeness is lowered.

In this case, in order to expand the space by removing the gums around the fixture while the stance is fixed, it is necessary to remove the gums that are manually disturbed by using a gum removing blade or a forceps. In order to use a tissue punch or the like There was a problem that the operation was very troublesome because the stent was to be removed from the oral cavity and the interrupted gums were to be removed.

Furthermore, it is difficult to accurately remove the gums around the fixture placement position in the state of detaching the stance, so that the gums are excessively damaged and more time is required for recovery, and in the state where the fixture is combined There is a problem that the upper side of the fixture is damaged by the tissue punch or the gum removing blade when the gums are removed, and the durability is lowered.

Korean Patent No. 10-0829243

SUMMARY OF THE INVENTION The present invention provides an abutment profile drilling apparatus which removes gums without damaging a fixture during an implant procedure, and improves workability of an abutment insertion process.

According to an aspect of the present invention, there is provided a dental handpiece comprising: a shank portion having a mounting portion coupled to a dental handpiece at an upper end; And a guide member for guiding the fixture at a position lower than the inner circumference of the guide hole so as to be restrained by the upper edge of the guide hole formed in the guide, A stopper portion having a large diameter; A flow rod portion extending downward along a center of the stopper portion so as to be inserted and flow inside the guide hole; And a side cutting portion connected to a lower portion of the flow rod portion and formed to be rounded as the outer surface profile extends downward to cut the gum at the fixture mounting position and is supported on the upper end of the fixture, There is provided an abutment profile drilling apparatus including a drill portion having a slide support portion formed flat on a lower surface thereof.

Preferably, the flow rod portion is formed in a cylindrical shape having a smaller diameter than the inner periphery of the guide hole.

In addition, the side cutting portions are spaced apart from each other along the circumferential direction, and a side cutting edge is formed at the end portion in the rotation direction of the side cutting portion, and the outer side at the side opposite to the rotation is rounded along the circumferential direction Expansion is desirable.

Preferably, the cutting guide surface is bent and connected to the rotation direction side of the side cutting blade, and the cutting guide surface is extended to correspond to the profile of the outer surface of the side cutting portion as it goes upward from the slide supporting portion to be connected to the concave surface groove portion .

At this time, it is preferable that the outer side profile of the side cutting portion is formed into a convex arcuate shape with a decreasing diameter toward the lower side, and the flow rod portion is provided so as to be exposed through the guide hole.

Through the above solution, the abutment profile drilling apparatus according to the present invention provides the following effects.

First, since the flow rod portion is formed to be narrower than the inner diameter of the guide hole, one side of the outer circumference of the flow rod portion is slidable along the inner circumference of the guide hole and can flow in the circumferential direction, Even though the gum removal range can be increased and adjusted, the gums around the fixture can be smoothly removed, allowing easy and precise bonding without interfering with the gums when restoring the prosthesis.

Second, by controlling the diameter of the flow rod portion, the gums can be removed according to the size of the different prostheses according to the distribution of the alveolar bone in the oral cavity and the arrangement of the teeth, even when the guide holes having the same diameter are used, so that the compatibility of the products can be improved.

In addition, since a desired range of gums can be removed without removing the stent, it is possible to precisely remove the gums according to the position of the fixture according to the guide of the staples fixed to the periodontal tissue, thereby preventing excessive loss of the gums.

Thirdly, the side cutting portion is rounded inward toward the lower side, and when the gums are removed, the lower side is removed corresponding to the area of the fixture mounting portion, and the upper side is widely removed to improve workability in joining the prosthesis, Thereby minimizing the recovery period and shortening the recovery period. By forming the arcuate outer surface, the load during rotation of the side cutting edge can be dispersed to improve the durability.

Fourthly, the side cutting portion expands the upper side and the lower side of the side cutting blade widely in the opposite direction of rotation, thereby smoothly discharging the heat of the side cutting blade to prevent overheating as the contact area with the cooling water or air increases, By forming the arc surface groove portion connected to the cutting guide surface, the cut gum is allowed to flow to the arc surface groove portion without clinging to the side cutting edge, thereby maintaining a stable cutting force.

1 is a flowchart showing a conventional implant procedure.
2 is a perspective view of an abutment profile drilling apparatus in accordance with an embodiment of the present invention;
3 is a rear view of an abutment profile drilling apparatus according to an embodiment of the present invention;
4 is a side view of an abutment profile drilling apparatus according to an embodiment of the present invention.
5A, 5B and 5C are schematic diagrams of use of an abutment profile drilling apparatus according to an embodiment of the present invention.

Hereinafter, an abutment profile drilling apparatus according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of an abutment profile drilling apparatus according to an embodiment of the present invention, FIG. 3 is a rear view of an abutment profile drilling apparatus according to an embodiment of the present invention, FIG. 5A and 5B are schematic diagrams illustrating the use of an abutment profile drilling apparatus according to an embodiment of the present invention

2 to 5B, an abutment profile drilling apparatus 100 according to an embodiment of the present invention includes a shank portion 10, a stopper portion 20, a flow rod portion 30, (60).

Here, the abutment profile drilling apparatus 100 includes a step of inserting a temporary tooth or a part of the tooth into the fixture after the fixture is placed in the perforation formed according to the implant operation plan designed in the implanting procedure, Is used to remove the gums that interfere with the procedure during the final restoration (crown) bonding.

In detail, the implant treatment plan is designed by obtaining oral information including information on the patient's gums, teeth, alveolar bone, etc. through CT photographing and simulating the patient's anatomical prosthesis relationship based on the oral information .

 The shank portion 10, the stopper portion 20, the flow rod portion 30, and the drill portion 60 may be integrally formed by cutting. When the drill portion 60 is damaged, But they may be formed as separate members and coupled to each other for convenience of replacement.

Referring to FIG. 2, the shank portion 10 has a mounting portion 11 coupled to a dental handpiece at an upper end thereof. Here, the dental handpiece may be a hand drill device used to provide a rotational force to the abutment profile drilling machine 100, and a coupling part coupled to the mounting part 11 may be formed at one side thereof.

At this time, the coupling portion transmits the rotational force to the mounting portion 11. [ The mounting portion 11 is provided in a D-cut shape and can rotate integrally with the engaging portion. In addition, a locking groove 12 is formed on the lower side of the upper mount portion 11 so that the shank portion 10 can be securely fastened without being detached from the coupling portion.

The shank portion 10 may be provided between the dental handpiece and the stopper 20 so as to connect the dental handpiece to the drill portion 60 and transmit the rotational force transmitted to the mounting portion 11 to the drill portion 60 . Here, the shank portion 10 may be formed to have a diameter that is smaller than the diameter of the stopper 20 and the drill portion 60, but may be smaller than the diameter of the stopper 20.

The shank portion 10 is preferably formed in a cylindrical shape. Therefore, the shank portion 10 firmly supports the stopper portion 20, the flow rod portion 30, and the drill portion 60 during high-speed rotation, and rotatable damage due to high-speed rotation such as bending or twisting Can be prevented. In addition, since vibration that may occur in the case of rotation damage is prevented in advance, a more stable implant treatment can be provided.

 On the other hand, the stopper portion 20 protrudes in the circumferential direction on the lower side of the shank portion 10. Here, the stopper 20 preferably has a larger diameter than the inner circumference of the guide hole so as to be restrained and seated on the upper edge of the guide hole formed in the stance.

5A and 5B, since it is difficult to grasp the exact position and direction to perform drilling when forming the perforation in which the fixture 5 is placed during the implant procedure, Aids will be used.

Here, the stent 1 is formed into a profile of the oral cavity according to the implant procedure plan based on oral information including information of the patient's gums 4, teeth, alveolar bone 3, etc., And is inserted and fixed around the teeth and gums.

The anchor pin is inserted into the anchor hole, and the anchor pin is inserted and fixed to the patient's gums 4 and alveolar bone 3, The stent 1 can be fixed in the oral cavity.

Accordingly, the stent 1 can stably guide the various implant procedures including the drilling operation in a fixed state. It is preferable that guide holes 2a are formed in the stent 1 in correspondence with the number of implants to be placed along the position where the fixture 5 is to be placed.

Of course, the guide hole 2a may be formed directly on the stator 1, but the stall 1 may be formed so as to stably support the drill by reducing the frictional force during rotation of the drill and preventing deformation during rotation, But may be formed on the sleeve 2 made of brass material.

At this time, it is preferable that the stopper portion 20 is wider than the diameter of the guide hole 2a, and the lower surface is flat. Thus, when the drill portion 60 and the flow rod portion 30 pass through the inside of the guide hole 2a and are disposed on the periodontal tissue side of the patient, the lower surface 20a of the stopper portion 20 And can be seated and restrained on the upper edge of the guide hole 2a. Accordingly, the height of the lower end of the drill portion 60 can be adjusted so that the drill portion 60 does not excessively press-fit the fixture 5.

4 to 5A, the flow rod portion 30 extends downward along the center of the stopper portion 20 so as to be inserted and flow into the guide hole 2a. The flow rod portion 30 is preferably formed in a cylindrical shape having a smaller diameter than the inner circumference of the guide hole.

In detail, the stopper portion 20 is seated on the upper edge of the guide hole 2a, and the flow rod portion 30 is disposed inside the guide hole and can flow inside the guide hole 2a . That is, a flow space may be formed between the outer circumferential surface of the flow rod portion 30 and the inner circumferential surface of the guide hole 2a to allow the flow rod portion 30 to flow, and the circumferential movement of the drill portion 60 Lt; / RTI >

Referring to FIG. 5B, the diameter and the depth of the guide hole 2a are set according to the implant procedure plan, and the flow rod portion 30 is movable in the circumferential direction in the guide hole 2a. Accordingly, it is possible to smoothly remove the gums corresponding to the sizes of the temporary teeth (healing abutments or cover screws) or the abutments to be inserted into the fixture 5, and the fixture 5 ), It is possible to accurately and easily insert and join the temporary tooth or the abutment portion, so that the workability of the implant treatment can be improved.

Further, since the gums can be removed in a desired range without separating the stent 1, the gums can be removed while the stent 1 is fixed to the periodontal tissue in the oral cavity, Accordingly, since the gums can be accurately removed corresponding to the position of the fixture 5, not only the precision of the implant treatment is improved, but also the excessive loss of the gums can be prevented.

Even if a guide hole having the same diameter is used, the temporary tooth or the abutment portion to be coupled to the fixture 5 placed according to the distribution of the alveolar bone 3 or the tooth arrangement in the oral cavity, or the final restoration ) May vary in size.

At this time, even if the flow rod portion 30 is inserted into the guide hole having a predetermined diameter, the range in which the gum can be removed is increased. Therefore, the size of the temporary tooth, the abutment portion, It is possible to smoothly remove the gums having a wider range than the diameter, and the compatibility of the product can be improved.

The lower surface of the stopper portion 20 is horizontally disposed to be parallel to the upper edge of the guide hole, and the flow rod portions 30 of the stopper portion 20 are vertically connected to each other.

Accordingly, when the flow rod portion 30 is moved in the circumferential direction in the guide hole 2a for the purpose of expanding the gum removal portion, the lower surface of the stopper portion 20 is positioned at the upper end of the guide hole 2a And can be slidably supported along the rim.

When the outer periphery of the flow rod portion 30 is slid along the inner circumferential surface of the guide hole 2a, the connecting portion of the stopper portion 20 and the flow rod portion 30 is located at the inner upper edge of the guide hole So that the circumferential flow of the flow rod portion 30 can be smoothly supported.

The drill part 60 is connected to the lower part of the flow rod part 30 and includes a side cutting part 40 for cutting the gum 4 at the position of the fixture 5, And a slide support 50 slidably supported on an upper end of the slide support 50. At this time, the drill unit 60 may be integrally formed with the flow rod unit 30, and may be coupled with a separate member for convenience of replacement when the blade is damaged.

The upper portion of the drill portion 60 preferably has a smaller diameter than the inner circumference of the guide hole 2a so as to pass through the inner circumference of the guide hole 2a. The flow rod portion 30 is formed so that the drill portion 60 passes through the inner circumference of the guide hole 2a and the upper side of the drill portion 60 is not constrained to the inner circumferential surface of the guide hole 2a. And a length that is exposed through the guide hole 2a.

At this time, the length of the flow rod portion 30 is set such that the lower face of the drill portion 60 is seated on the upper end of the fixture while the stopper portion 20 is constrained to the upper edge of the guide hole 2a As shown in FIG.

Of course, the length of the flow rod portion 30 is set such that the stopper portion 20 is spaced apart from the upper edge of the guide hole 2a in a state where the lower surface of the drill portion 60 is seated on the upper end of the fixture. It is also possible to extend.

Accordingly, when the flow rod portion 30 is moved in the inner circumference of the guide hole 2a, the drill portion 60 is supported by the upper end of the fixture 5 and slides in the circumferential direction, The gums 4 around the fixture 5 can be removed.

3 to 4, the side cutting portion 40 includes a side cutting edge 41 and an arc surface groove portion 42. As shown in FIG. The side cutting portions 40 are spaced apart from each other along the circumferential direction and are connected to a lower portion of the flow rod portion 30 so as to be rounded as the outer profile extends downward. Here, the outer surface profile refers to a shape based on the height from the outer surface of the side cutting portion 40 and the rotation center of the drill portion 60.

In detail, the outer side profile of the side cutting portion 40 is formed into a convex arcuate shape with its diameter decreasing toward the lower side. In other words, the outer side profile of the side cutting portion 40 is formed so as to be wider than the diameter of the flow rod portion 30, and at the upper side outer circumferential surface of the drill portion 60 formed to have a diameter narrower than the inner circumference of the guide hole, (A) extending downward in parallel with the rotation axis of the rotary shaft 60, and is convexly formed toward the imaginary plane (a).

That is, it is provided in a shape that the diameter becomes narrower from the upper side to the lower side, and the slide supporting portion 50 is connected to the lower side of the side cutting portion 40. At this time, when the slide support portion 50 is held in contact with the upper end of the fixture 5, the side cutting edge 41 formed on the side surface of the side cutting portion 40 contacts the upper end periphery of the fixture 5 It is possible to form the space in which the temporary tooth or the abutment portion can be inserted.

Further, as the slide support part 50 is mounted on the upper end of the fixture 5 and slides in the circumferential direction, the side cutting part 40 flows in the circumferential direction and can expand the space.

Since the side cutting portion 40 is formed in an arcuate shape having a wide upper side and a narrower lower side, the side cutting portion 40 has a lower side when it removes the gums, at least a portion corresponding to the area of the fixture 5 And the upper side can be widely cut so as to easily engage the temporary tooth or the abutment / final prosthesis with the fixture 5.

Accordingly, it is possible to easily and precisely perform the procedure of joining the temporary teeth to the fixture 5 or combining the abutments / final prostheses without disturbance by the gums, thereby improving the workability and reducing the procedure time However, it is possible to shorten the recovery period of the patient by minimizing the loss of the gums.

Further, since the side cutting portion 40 is provided in an arcuate shape, when the side cutting blade 41 cutting the gum 4 rotates at a high speed, the pressure generated by contact with the gum in the oral cavity is dispersed along the outer surface of the arch shape Damage to the blade can be prevented and durability can be improved.

It is preferable that the side cutting edge 41 is formed at the end of the side cutting portion 40 in the rotation direction and the upper side and the lower side of the outer side at the side opposite to the rotation are rounded to extend along the circumferential direction.

That is, the outer surface extends toward the opposite direction of rotation along the side cutting edge 41, and the upper side and the lower side are formed to be wider toward the opposite direction of rotation and the center side is formed narrower. It can be connected round.

As a result, the outer surface of the side cutting portion 40 forms a wide surface connected to the side cutting blade 41 to increase the contact area with the cooling liquid and the air, The heat generated by the friction between the side cutting edge 41 and the gum 4 can be smoothly discharged. Accordingly, thermal damage to the side cutting blade 41 is prevented during rotation cutting, and heat of the gum 4 due to overheating of the side cutting blade 41 is prevented, so that safety of the product can be improved.

Further, the outer surface is formed in a narrow shape on the center side and a wide shape on the upper side, so that the arc surface groove portion 42 capable of storing the cut gum between the other side side cutting edge and the other side side cutting edge can be formed.

The cutting guide surface 43 is bent and connected to the rotation direction side of the side cutting blade 41. The cutting guide surface 43 is formed in the side cutting portion 40 And is preferably connected to the concave call surface groove portion 42. As shown in Fig.

In detail, the cutting guide surface 43 is formed from the side cutting edge 41 toward the center of rotation of the drill 60, and the cutting guide surface 43 is formed between the side cutting edge 41 and the bending So that the sharpened end of the side cutting edge 41 can be formed. Thus, the gum 4 may be cut in the side cutting edge 41 and the cut gum may flow into the arc groove 42 along the cutting guide surface 43.

The arc guide groove 42 is connected to the cutting guide surface 43. Here, the arc surface groove portion 42 may be formed on the upper side of the slide support portion 50, and the inner side may be rounded corresponding to the outer surface profile of the side cutting portion 40.

The gum cut by the side cutting blade 41 flows toward the arc surface groove 42 along the cutting guide surface 43 to prevent the cut gum from being tangled to the side cutting blade 41, The durability of the product can be improved.

 In addition, since the inner surface of the arc surface groove 42 is concave in the direction of rotation, tissues constituting the gum during rotation are housed inside the concave inner surface of the arc surface groove 42, and blood, cooling liquid, have.

Meanwhile, the slide supporting portion 50 is formed flat on the lower end surface of the side cutting portion 40. Preferably, the slide support portion 50 is formed by bending at the end of the side cutting edge 41 of the side cutting portion 40.

That is, when the slide support portion 50 is seated and slid on the upper end of the fixture 5 as the slide support portion 50 is formed in the height range where the lower end of the side cutting blade 41 is formed, The side cutting edge 41 contacts the upper end of the fixture 5 and can smoothly remove the gum adjacent to the upper end of the fixture 5 without damaging the fixture 5 .

In detail, the slide support portion 50 may be formed as a flat circular plate interconnecting the lower surfaces of the respective side cutting portions 40 disposed along the circumferential direction. That is, the slide supporter 50 is an original plate on which a blade is not formed. When the drill unit 60 flows, the slide supporter 50 is mounted on the upper end of the fixture 5 and is slid along the upper end of the fixture 5 .

Accordingly, when the side cutting edge 41 removes the gum around the fixture 5, the slide support 50 guides the drill 60 so that the drill 60 can move horizontally without being twisted, It is possible to guide the gum around the cutter 5 to be accurately removed.

The lower surface of the slide supporter 50 is parallel to the lower surface of the stopper 20 and the lower surface of the slide supporter 50 is perpendicular to the flow guide 30 .

Accordingly, when the lower surface of the slide supporter 50 is slid at the upper end of the fixture 5, the stopper 20 slides at the upper edge of the guide hole and smoothly moves the drill 60 .

In detail, the practitioner connects the shank portion 10 to the dental handpiece and inserts the drill portion 60 into the guide hole. At this time, the gum can be removed by rotating the drill (60) and advancing toward the fixture.

When the drill 60 reaches the fixture, the slide supporter 50 comes into contact with the upper end of the fixture. Thereafter, if the dental handpiece is pushed in one direction, the slide support portion 50 is slid at the upper end of the fixture and the gum removal range can be smoothly extended. Of course, the lower surface of the stopper 20 may also be seated on the upper edge of the guide hole to support the circumferential movement of the drill 60.

5C, the practitioner rotates the flow rod portion 30 along the inner circumference of the guide hole 2a while the flow rod portion 30 is in contact with the inner circumference of the guide hole 2a The gums in the range (b) wider than the diameter of the guide hole 2a can be removed.

In addition, since the flow rod portion 30 is supported on the inner circumference of the guide hole 2a, smooth movement in the circumferential direction can be performed to improve the usability of the product, By adjusting the diameter, the gums can be removed to the correct range.

As described above, the present invention is not limited to the above-described embodiments, and variations and modifications may be made by those skilled in the art without departing from the scope of the present invention. And such modifications are within the scope of the present invention.

100: abutment profile drill 1: stand
2: Sleeve 2a: Guide hole
3: alveolar bone 4: gums
5: Fixture 10: Shank portion
11: mounting part 12:
20: stopper portion 30:
60: drill portion 40: side cutting portion
41: side cutting edge 42:
43: cutting guide surface 50:

Claims (5)

A shank portion having an upper end formed with a mounting portion coupled to the dental handpiece;
And a guide member for guiding the fixture at a position lower than the inner circumference of the guide hole so as to be restrained by the upper edge of the guide hole formed in the guide, A stopper portion having a large diameter;
A flow rod portion extending downward along a center of the stopper portion so as to be inserted and flow inside the guide hole; And
And a side cutting portion connected to a lower portion of the flow rod portion and formed to be rounded as the outer surface profile extends downward so as to cut the gum at the fixture mounting position and is supported on the upper end of the fixture, And a drill portion having a slide support portion formed flat on a surface thereof,
Side cutting portions are formed at the end portions in the rotating direction of the side cutting portions and the outer side surfaces on the side opposite to the rotating direction are extended roundly along the circumferential direction on the upper side and the lower side, ,
Wherein the cutting guide surface is bent and connected to the rotation direction side of the side cutting edge, wherein the cutting guide surface is extended to correspond to the profile of the outer surface of the side cutting portion and connected to the concave surface groove portion from the slide supporting portion toward the upper side. Bent profile drill device. The method according to claim 1,
Wherein the flow rod portion is formed in a cylindrical shape having a diameter narrower than an inner periphery of the guide hole. delete delete The method according to claim 1,
Wherein the outer side profile of the side cutting portion is formed in a convex arcuate shape with its diameter decreasing toward the lower side, and the flow rod portion is exposed through the guide hole.

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