KR20100019276A - Bone carrier for operating implant - Google Patents

Abstract

PURPOSE: A bone carrier for operating implant is provided, which can reduce noise in artificial bone injection and can minimize frictional resistance due to soft rubber. CONSTITUTION: A bone carrier for operating implant comprises a finger grip part(11) which is formed in the upper and lower part of the injection nozzle(10) which is transformed into the curvature portion in the straight line portion; a push bar(20) equipped with a thumb grip portion which is formed on the rear of the inside of the injection nozzle; and soft rubber(26) which is engaged with the leading end of the push bar in a detachable manner. A male screw part is formed in the leading end of the push bar. Inside the male screw part, a connection pipe in which the female screw part is formed is screwed.

Description

Bone Carrier for Implant Procedures

The present invention relates to a bone carrier (Bone Carrier) for filling a hole in a granule-shaped artificial bone (Bone) for implant placement after forming a hole (Hole) in the maxillary bone (上 에서) during the implant procedure.

First of all, implants in the broad sense mean "tissue implanted into the human body", but in dentistry it means various types of artifacts that are placed in the jawbone (mandible, mandible), especially in the gum bone to replace the missing tooth or root. Cut artificial tooth which becomes. In the past, when a tooth was lost, it was most common to remove two teeth before and after a tooth called a bridge and to treat the prosthesis over three teeth, or to treat a denture when several teeth were lost. .

However, with the development of the treatment of implants, artificial teeth are implanted in the gum bone (mandibular and mandible) without having to shave adjacent teeth or use dentures.

Careful attention is required for the implantation in the maxilla, which is a void in the bone surrounded by the mucous membrane that extends from the cheekbone to the maxilla. Circulating air through secretion, warming the air entering the bronchus, and functions to control the vocal cords through resonance.

In addition, these maxillary sinuses grow larger with age and become thinner and thinner, artificial teeth (implants) according to anatomical differences, including when teeth have been extracted for too long or have been dentured for a long time. There is often a lack of sufficient amount of bone to be treated.

In other words, to plant artificial teeth, the maxilla should have a certain thickness. When planted in the upper molar area is close to the location of the maxillary sinus is a bar, in order to supplement the bone lacking in the process of maxillary sinus implant conventionally using the bone carrier shown in Figure 1 to supplement the autogenous bone or artificial bone.

However, a problem of the conventional carrier is that the push bar 20, the curved bar 22, and the conical part 23 inserted into the injection tube are straight metals, so that the curved portion of the injection tube 10 made of metal is made of metal. As a result of the friction noise, the patient is in a tense state during the procedure due to frictional noise, as well as a small amount of metal wear as a result of friction, but there is a problem that the metal powder is contained in the artificial bone.

In addition, in view of the fact that the operation is not flexible due to the frictional resistance and the injection tube 10 is deformed from a straight line to a curved shape as shown in FIG. 2 (d), the curved bar 22 at the curved portion 22. In order to bend flexibly, a void 24 is inevitably generated between the injection tube 10 and the conical portion 23, and an artificial bone fragment is interposed in the void 24 so that the conventional bone carrier There is a problem that forward and backward operation becomes impossible.

Therefore, the present invention is invented in view of the above problems, provided with a push bar 20 is inserted into the injection tube 10, the soft rubber 26 is a flexible material at the tip of the push bar (20) The soft rubber 26 and the push bar 20 are configured to be attached and detached through the connecting pipe 25 so as to be interposed therebetween.

In addition, by mounting the soft rubber 26 to bend flexibly and effortlessly in the curved portion of the injection pipe 10, due to the characteristics of the soft rubber 26, the friction noise with the injection pipe 10 is minimized, soft rubber Because of the flexibility of 26, there is almost no void 24 between the injection tube 10 and the soft rubber 26, so there is no room for the artificial bone 31 to be interposed in the void 24. H) eliminates obstacles in forward and backward operation.

On the other hand, by configuring the soft rubber 26 to protrude more than the tip of the injection tube 10 when the advance of the push bar 20, the condensing (condensing) at the same time as the artificial bone 31 injection, In the case where the thickness of the maxillary bone 43 is thin, the mucous membrane 41 inside the maxillary bone 43 may be easily and safely elevated using the soft soft rubber 26 protruding.

As a specific problem solving means of the present invention, the finger holding portion 11 is formed on the upper and lower portions of the injection pipe 10, which is deformed from the straight portion to the curved portion, and the grip portion 21 inside the injection pipe 10. In the implant carrier bone carrier is inserted into the push bar 20 is formed in the rear, the front end of the push bar 20, the soft rubber 26 is held in a removable manner, the push bar (20) At the completion of the advance of the soft rubber 26 is configured to protrude more than the tip of the injection tube (10).

In addition, a male screw portion 20a is formed at the front end of the push bar 20, and the male screw portion 20a is screwed with a connection pipe 25 having a female thread portion 25a formed therein, One side of 25 is provided with a divided portion 25b divided into a plurality, and the soft rubber 26 is locked to the divided portion 25b, so that the soft rubber 26 and the push bar 20 are detachable. .

Through the present invention, there is no noise when the artificial bone is injected, the friction is minimized due to the flexible soft rubber to ease the work. In addition, condensing can be performed using soft rubber that protrudes at the same time as artificial bone injection. In patients with thinned maxilla, the soft mucous membrane that protrudes can be used to elevate the mucous membrane inside the maxilla. It is possible to perform various functions.

Hereinafter, with reference to the accompanying drawings, the technical configuration of a preferred embodiment that can achieve the object of the present invention will be described with reference to the conventional carrier as follows.

First, the present carrier will be described. 1 is a separation attempt of a conventional bone carrier, Figure 2 is a cross-sectional view for explaining the problem of the conventional bone carrier, Figure 3 is a perspective view of the state of use of the conventional bone carrier.

As shown in FIG. 1, the conventional carrier has a hollow cylindrical shape, in which an injection tube 10 is bent from a straight portion to a curved portion, and upper and lower portions of the injection tube 10 are usually fitted with a thumb and a middle finger. An annular finger grip portion 11 is formed, and a fallopian tube 12 for inserting the artificial bone 31 is formed at the rear of the finger grip portion 11.

Fill the artificial bone 31 contained in the artificial bone container 30 into the fallopian tube 12 as shown in FIG. 3, and then insert the push bar 20 into the fallopian tube 12 to inject the artificial bone 31. The artificial bone 31 is injected into the hole (Hole) previously formed in the maxillary bone 43 while being transferred to the tip side of the (10).

The thumb grip portion 21 is formed at the rear of the push bar 20 so that the thumb can be inserted at the time of use, and the curved bar 22 made of a thin and elastic metal material is formed at the front of the push bar 22. At the tip of the) is formed a conical portion 23 for pushing the artificial bone 31 filled with the injection tube (10).

Looking at the problem of the conventional carrier through FIG. 2, the push bar 20, the curved bar 22 and the conical part 23 are all inserted into the metal, as the push bar 20, the curved bar 22 is inserted into the injection tube 10, As it passes through the leading end of the injection tube 10, that is, the curved portion, as shown in Fig. 2 (b), it is bent at the starting point of the bar, at this time push in the contact portion of the injection tube 10 and the cone portion 23 Every time the bar 20 is advanced, friction continues to occur, so frictional noise caused by friction is a factor that is uncomfortable for patients in tension during normal treatment. In addition, there is a problem that the metal powder is included in the artificial bone 31 to be implanted, but a small amount as the wear of the metal as a result of friction.

On the other hand, as described above, the forward and backward operation of the push bar 20 is not flexible due to the frictional resistance, and as shown in (b) and (d) of FIG. 2, the injection pipe 10 is curved in a straight line. Since the shape is deformed, the curved bar 22 is thinly formed to facilitate the operation by increasing the degree of curvature of the curved bar 22 at the starting point of the curved portion.

In addition, in order for the curved bar 22 to bend flexibly, a certain size of voids 24 are inevitably generated between the injection pipe 10 and the conical portion 23, and a problem is frequently caused in the voids 24. As the bone fragments are interposed, the forward and backward operation of the present bone carrier is often temporarily disabled.

That is, the artificial bone fragments intervene due to the air gap 24, so that it is impossible to temporarily move forward and backward, so that the conventional bone carrier has a reverse cone-shaped conical portion 23, which pushes the artificial bone 31, By forming a convex portion, the bone fragments between the injection tube 10 and the conical part 23 were minimized.

It is also a necessary measure to pass through the curved area. For example, in the configuration of a conventional bone carrier having an inverted conical portion 23, if the conical portion 23 is protruded to serve as a condensing function as described below, the curved portion of the injection pipe 10 Not only is it more difficult to pass, but the conical portion 23 protruding in front of the tip of the injection tube 10 is displaced from the center of the injection tube 10 by elasticity,

The injection and condensing process of the artificial bone 31 does not proceed smoothly. In addition, when the push bar 20 is retracted in the state in which the protruding weight portion 23 is protruded, the reverse cone-shaped conical portion 23 is caught by the inlet of the tip of the injection tube, thereby preventing the reverse of the push bar 20. Is generated.

4 is an exploded perspective view of the bone carrier according to the present invention. 1, 2, and 3, which show a conventional configuration, the same components will be described using the same reference numerals. As shown in FIG. 4, a hollow cylindrical injection tube 10 is bent from a straight portion to a curved portion. A finger grip portion 11 is formed at an upper and lower portion thereof, and a rear portion of the finger grip portion 11 is provided at the rear of the finger grip portion 11. An entrance 13 for entry and exit of the push bar 20 is formed.

In addition, a male screw portion 20a is formed at the front end of the push bar 20 in which the thumb grip portion 21 is formed at the rear, and the female screw portion 25a is formed inside the male screw portion 20a as shown in the enlarged view of FIG. Is formed connection pipe 25 is screwed, one side of the connection pipe 25 is divided into a plurality of divided portion 25b is formed. The soft rubber 26, which is a flexible material, is inserted into the divided portion 25b, and then the pressure is applied to the divided portion 25b to hold the soft rubber 26.

Therefore, when the service life of the soft rubber (26) is to be replaced with the end of life, simply loosen the screw of the connection pipe 25 is to simply tighten the connection pipe 25, the new soft rubber 26 is locked.

The use state of the present carrier according to the present invention is shown in FIG. After the thumb grip part 21 is reversed as shown in FIG. 5, when the curved portion of the injection tube 10 is lowered directly above the artificial bone container 30, the artificial bone 31 is moved into the curved portion of the injection tube 10. ) Is filled, the artificial bone 31 is injected into the hole by inverting the thumb grip portion 21 in the reverse state to inject the filled artificial bone 31 into the hole drilled in the instrumental jaw 43 do.

6 is a cross-sectional view for explaining the characteristics of the soft rubber 26 of the bone carrier according to the present invention, the soft rubber 26 is bent at the curved portion of the injection tube 10, flexible due to the nature of the flexible rubber The artificial bone 31 in the injection tube 10 is injected into the maxillary bone 43 hole while being flexed.

In this process, not only the friction noise is minimized due to the characteristics of the soft rubber 26, but also due to the flexibility of the soft rubber 26 as shown in the drawing drawn out in FIG. 6 (d) and enlarged, the injection tube 10 and the soft rubber 26 Since there is almost no gap between), the problem that the artificial bone 31 is interposed in the gap 24 as in the conventional bone carrier is impossible to move forward and backward of the push bar 20.

Figure 7 is a flow chart for explaining the use of the present carrier and the condensing (condensing) function of the implant during the procedure, after measuring the measurement distance to the maxillary sinus 40 on the radiograph as shown in FIG. In addition, a hole is formed by drilling the maxillary bone 43 to a safe site that does not damage the mucous membrane 41 of the maxillary sinus 40 with a general procedure drill 44. (a, b step)

For reference, when the mucous membrane 41 of the maxillary sinus 40 is damaged, the artificial bone 31 charged for the formation of an auxiliary graft is difficult to rapidly and firmly ossify. In addition, the implanted implant 46 is located in the state exposed to the maxillary sinus 40 as a result, not located in the bone as a result there is a possibility of infection inside the maxillary sinus 40, there is a fear of secondary damage.

After the steps (a) and (b) of FIG. 7 are completed, holes are formed to a diameter suitable for implantation of the implant 46 using step reamers 45 having a diameter slightly larger than the perforated holes. (Step c, d) On the other hand, in the process of drilling the dense bone 42, as shown in Figure 7 (e), it is important to raise the mucosa 41 to the upper portion so as not to damage the mucosa 41 of the maxillary sinus 40. The present carrier of the present invention functions to additionally elevate the dense bone 42 so that the mucosa 41 is not damaged with the injection function of the artificial bone 31.

That is, the soft rubber 26 is configured to protrude more than the injection tube 10, as shown in Figure 6 (d), in the case of a thin patient of the maxilla 43, dense bone 42 using a hard reamer 45 Since the additional coarseness of the difficult to cause damage to the mucous membrane 41, at this time, by using the soft soft rubber 26 according to the present invention to raise the dense bone 42 to the upper side mucosa 41 safely without damage Colossus

As shown in (f) and (g) of FIG. 7, the artificial bone 31 is injected using the present carrier of the present invention into the hole where the dense bone 42 and the mucosa 41 are elevated, and at the same time, (h) of FIG. Condensing (condensing) is performed using the soft rubber 26 protruding as shown.

For reference, the condensing refers to a process of injecting the artificial bone 31 into the hole formed previously, to be homogeneously filled, and in the prior art was performed using a separate bone condenser, in the present invention artificial bone (31) By performing the condensing operation at the same time as the injection, there is an effect that the procedure is performed quickly as compared with using a conventional separate condenser.

7 (i), (j), (k) is a step for further raising the artificial bone 31 to the upper portion using the reamer 45 after implantation of the artificial bone 31 and the implant 46 placed After securing, the implant 46 is implanted and secured into the secured space.

As described above, the bone carrier according to the present invention is capable of performing both the injection of artificial bone 31 in the implantation procedure, as well as the condensation of the artificial bone 31 and the coarsening of the dense bone 42, the procedure time. It has the advantage of shortening and simplifying the procedure.

1 is an exploded perspective view of a conventional bone carrier

2 is a cross-sectional view illustrating a problem of the conventional carrier.

Figure 3 is a perspective view of the state of use of the conventional carrier

4 is an exploded perspective view of the bone carrier according to the present invention.

Figure 5 is a perspective view of the state of use of the carrier according to the present invention

6 is a cross-sectional view for explaining the characteristics of the soft rubber of the present carrier according to the present invention.

7 is a flow chart illustrating the use of the bone carrier according to the present invention during the implant procedure

<Explanation of symbols for the main parts of the drawings>

10: injection tube

11: finger holding part

12: fallopian tube

13: doorway

20: push bar

20a: male thread

21: thumb grip

22: curved bar

23: Dowon Chubu

24: void

25 connector

25a: female thread

25b: division

26: soft rubber

30: artificial bone container

31: artificial bone

40: maxillary sinus

41 mucosa

42: dense bone

43: maxilla

44: drill

45: reamer

46: implant

Claims (2)

The finger grip portion 11 is formed on the upper and lower portions of the injection tube 10 which is deformed from the straight portion to the curved portion, and the push bar 20 having the thumb grip portion 21 formed behind the injection tube 10 is formed inside the injection tube 10. In the implant carrier bone carrier to be inserted, The soft rubber 26 is locked to the front end of the push bar 20 in a detachable manner, and when the push bar 20 is completed, the soft rubber 26 protrudes more than the front end of the injection tube 10. Implantable bone carrier, characterized in that configured to be. The method according to claim 1, A male screw portion 20a is formed at the tip of the push bar 20, and the male screw portion 20a is screwed with a connector 25 having a female thread portion 25a formed therein, and the connector 25 is connected thereto. One side of is divided into a plurality of divided portion 25b is formed, the soft rubber 26 is locked to the divided portion 25b, characterized in that the soft rubber 26 and the push bar 20 is detachable. Bone carrier for implant treatment.

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