KR20120011702A - Piezo compaction tip of implant operation - Google Patents

Abstract

PURPOSE: A piezo compaction tip for implant operation is provided to unite with a piezo device to be used and expand a vertical hole formed in an alveolar bone. CONSTITUTION: A piezo compaction tip for implant operation comprises: a body portion(11); head unit(12) which are connected to the body portion and have top silver curved surface; and a protrusion(14) which is formed in lower side of the head unit. The body portion is made of metal. A saline solution provided from the piezo device can be sprayed out through a flow path since the flow path is formed inside the body portion. The head unit are located in the end of the body portion.

Description

Piezo Compaction Tips for Implant Procedures {PIEZO COMPACTION TIP OF IMPLANT OPERATION}

The present invention relates to a piezo compaction tip for implant surgery, and after forming a vertical hole to a depth for implantation of the maxillary sinus elevation using a piezo device, the vertical hole is finally expanded safely and widely to ossein around the vertical hole. The present invention relates to a piezo compaction tip for an implant procedure that can perform a compaction function.

Implants are originally meant to be a substitute for recovery when tissue is lost, but dentists refer to a series of procedures for implanting artificial teeth.

To replace the lost roots (roots), a fixture made of titanium, etc., which is not rejected by the human body, is planted in the alveolar bone where the tooth falls out, and then the artificial tooth is fixed to restore the function of the tooth. It is a procedure to make.

In the case of general prosthetics or dentures, the surrounding teeth and bones are damaged over time, but the implants do not damage the surrounding dental tissues, and they have the advantage that they can be used semi-permanently because they have the same function or shape as natural teeth and do not cause tooth decay.

Implant procedures (also referred to as implants or artificial teeth procedures) use a predetermined drill to drill the implantation location, implant the fixture into the alveolar bone, and then fuse the bone to the bone, and then attach the abutment to the fixture. This is done by putting the final prosthesis on the abutment.

This implant procedure has become an important part of dentistry, and various concepts and techniques related to implants are being developed.

Ideally, the depth of the alveolar bone 2 to be drilled for implantation during implantation should be about 10 mm. However, if the tooth is lost for a long time, the thickness of the alveolar bone 2 becomes thin so that a sufficient depth of the fixture at the placement position 1 is not secured. At this time, the maxillary sinus membrane 4 is elevated in the maxillary sinus 3 direction as shown in FIG. 2 and the artificial bone is implanted in the secured space 5. This ensures a sufficient depth for inserting the fixture.

On the other hand, in maxillary sinus membrane augmentation, the point is to elevate the maxillary sinus membrane 4 without damaging the maxillary sinus membrane 4. However, mechanical equipment or drill can perforate the maxillary sinus membrane 4 simultaneously while drilling the alveolar bone 2. Therefore, the conventional practitioner required a great deal of concentration during the implant procedure so that damage of the maxillary sinus membrane 4 did not occur, and if the accidental damage to the maxillary sinus membrane 4 had to be performed, additional treatment was required to remedy it.

In implant procedures that rely only on mechanical drills, recently, maxillary sinus elevation using piezo devices has been developed to perforate the alveolar bone 2 in contact with the maxillary sinus membrane 4 without damaging the maxillary sinus membrane 4. A piezo device is a device that converts an electrical signal into vibration, and when a piezo tip connected to the piezo device contacts a hard tissue such as a bone, the bone is cut. On the other hand, when the soft tissue maxillary sinus membrane 4 and the piezo tip are in contact, the vibration of the piezo tip is absorbed by the soft tissue maxillary sinus membrane 4, thereby preventing damage. However, there is a disadvantage that the cutting force of the piezo tip is weaker than the drill using a mechanical rotation.

Therefore, when drilling the alveolar bone 2 having a depth of 5 mm using a piezo device, the hole is first drilled to a depth of about 4 mm with a mechanical drill, and then a depth of about 1 mm is safely drilled using a piezo device to prevent maxillary sinus membranes. Let (4) be exposed to the outside.

On the other hand, the maxillary alveolar bone (2) is not compact bone density. Therefore, before placing the fixture, it is necessary to closely compact the bone density around the vertical hole 100. In addition, it is necessary to form the shape of the vertical hole 100 similarly to the shape of the fixture so that the fixture is well positioned. The process of compacting the bones around the vertical hole 100 is called compaction.

As implant procedures using piezo devices have evolved, there is a need for suitable piezo compaction tips for implant procedures.

The present invention can be used in combination with the piezo device, and to provide a piezo compaction tip for implant surgery to expand and compact the vertical hole formed in the alveolar bone.

In addition, the present invention is to provide a piezo compaction tip for the implant procedure applied to the structure that does not damage the maxillary sinus membrane during the compaction process.

In addition, the present invention is to provide a piezo compaction tip for implant surgery to expand the vertical hole in which the alveolar bone is formed to suit the shape of the fixture.

In addition, the present invention is to provide a piezo compaction tip for implant surgery of the structure that effectively transmits the vibration force of the piezo device to the inner wall of the vertical hole.

In addition, the present invention provides an implant procedure piezo compaction tip capable of supplying cooling water so as not to generate excessive heat during the compaction process.

According to one aspect of the invention,

A body portion;

A head portion connected to the body portion;

The upper portion of the head is formed of a curved surface,

The lower part of the head is to provide a piezo compaction tip for implant treatment, characterized in that the projection is formed on the side.

In addition, it is to provide a piezo compaction tip for the implant procedure further comprising a passage penetrating from the body portion to the side of the head.

In addition, the diameter of the lower portion of the head portion is to provide a piezo compaction tip for implant surgery, characterized in that larger than the diameter of the upper portion of the head.

The present invention can be used in combination with the piezo device, it can provide a piezo compaction tip for implant surgery to expand and compact the vertical hole formed in the alveolar bone.

In addition, the present invention may provide a piezo compaction tip for an implant procedure in which a structure in which the maxillary sinus membrane is not damaged during the compaction process is applied.

In addition, the present invention may provide a piezo compaction tip for implant surgery to expand the vertical hole in which the alveolar bone is formed to suit the shape of the fixture.

In addition, the present invention may provide a piezo compaction tip for implant surgery having a structure that effectively transmits the vibration force of the piezo device to the inner wall of the vertical hole.

In addition, it is possible to provide an implant procedure piezo compaction tip capable of supplying cooling water so that excessive heat is not generated during the compaction process.

1 is a cross-sectional view showing a state of cutting the maxilla of the position where the fixture is to be placed before the implant procedure.
Figure 2 is a cross-sectional view showing a vertical hole formed in the upper jaw and the maxillary sinus membrane is elevated.
Figure 3 is a perspective view of the piezo compaction tip for implant surgery according to an embodiment of the present invention.
Figure 4 is a cross-sectional view of the piezo compaction tip for implant surgery according to an embodiment of the present invention.
Figure 5 is a cross-sectional view showing the appearance of expanding the vertical hole formed in the alveolar bone using the piezo compaction tip for implant surgery according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to explain in detail enough to enable those skilled in the art to easily carry out the present invention. This does not mean that the spirit and scope of the present invention is limited.

3 is a perspective view of a piezo compaction tip for an implant procedure according to an embodiment of the present invention, Figure 4 is a cross-sectional view of the piezo compaction tip for an implant procedure according to an embodiment of the present invention, Figure 5 is a view of the present invention A cross-sectional view showing a state in which a vertical hole formed in the alveolar bone is expanded using a piezo compaction tip for implant surgery according to an embodiment.

The "piezo compaction tip" referred to in this embodiment is considered to be the same as the "piezo compaction tip for implant procedure" named in the claims and the name of the invention.

Piezo compaction tip 10 of the present embodiment and the body portion 11; It includes a head portion 12 connected to the body portion 11, the upper portion of the head portion 11 is formed in a curved surface, the lower portion of the head portion 12 is characterized in that the projection 14 is formed on the side do.

The piezo compaction tip 10 is connected to the piezo device, which is a device that converts electricity into vibrations. This vibration force is transmitted to the piezo compaction tip 10.

Piezo compaction tip 10 is largely divided into a body portion 11 and a head portion 12, the body portion 11 is bent at an appropriate angle, the head portion 12 in the vertical hole formed in the alveolar bone during the implant procedure It is easy to push).

The body portion 11 is made of metal. A flow path 13 is formed inside the body portion 11, so that the physiological saline solution supplied from the piezoelectric device can be sprayed to the outside through the flow path 13.

The head 12 is located at the end of the body portion 11. The upper part of the head 12 forms a curved surface. Piezo compaction tip 10 of the present embodiment is not used to drill the alveolar bone 20, but is used to compact the side of the vertical hole already drilled in the alveolar bone 20. The maxillary sinus membrane 40 is exposed at the end of the perforated vertical hole. The piezo compaction tip 10 should not damage the exposed maxillary sinus membrane 40 during the compaction operation. The upper portion of the head portion 12 of the piezo compaction tip 10 of the present embodiment has a curved surface (semi-spherical shape) and is in contact with the maxillary sinus membrane 40, thereby reducing the risk of tearing the maxillary sinus membrane 40.

The projection 14 is formed in the side surface of the lower part of the head 12. The protrusion 14 is a part in contact with the inner wall of the vertical hole formed in the alveolar bone. Vibration force generated in the piezo device is finally transmitted to the outside through the projection (14).

The vibration force formed in the piezo device is fundamentally different in the magnitude of the force from the drill generated by the rotation of the motor. In order for the vibration force formed in the piezo device to be a force enough to crush the bone, it is necessary to collect the force at a pointed portion such as the protrusion 14. The piezo compaction tip 10 of the present embodiment transmits the vibration force generated by the piezo device through the protrusions 14 to the inner wall of the vertical hole, thereby compacting the vertical hole. In addition, a space is secured between the protrusions 14 so that broken bone fragments can be easily discharged to the outside.

The diameter of the upper part 121 of the head 12 is smaller than the diameter of the lower part 122. That is, the diameter is reduced in the direction from the lower 122 to the upper 121. This shape prevents the head 12 from suddenly pushing into the maxillary sinus during the compaction operation. In addition, the shape of the vertical hole (conical column) can be made in accordance with the shape of the fixture to be fastened later.

The flow passage 13 is formed in the body portion 11 to the side of the head portion 12. Physiological saline sprayed from the piezo device is sprayed to the side of the head 12 in the interior of the body portion (11). Heat may occur while the head 12 chops the inner wall of the vertical hole, and this heat damages human tissues including bones. Therefore, it is possible to cool the heat by spraying physiological saline.

Piezo compaction tip 10 of the present embodiment is coupled to the piezo device, serves to expand and compact the vertical hole formed in the alveolar bone. As a result, the bone density at the position at which the fixture is coupled is increased, so that the fixture can be fastened to the vertical hole more stably.

In addition, the piezo compaction tip 10 of the present embodiment can perform the compaction operation with minimal damage to the maxillary sinus membrane or alveolar bone tissue.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Modifications and additions by those skilled in the art to an equivalent range based on the embodiments will also fall within the scope of the present invention.

Piezo Compaction Tip (10) Body (11)
Protuberance (13)

Claims (3)

A body portion;
A head portion connected to the body portion;
The upper portion of the head is formed of a curved surface,
Piezo compaction tip for implant surgery, characterized in that the lower portion of the head is formed with a projection on the side.

The method of claim 1,
Piezo compaction tip for implant surgery, characterized in that it further comprises a passage penetrating from the body portion to the side of the head.
The method of claim 1,
Piezo compaction tip for implant surgery, characterized in that the diameter of the lower portion of the head is larger than the diameter of the upper portion of the head.

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