KR101198082B1 - Injection device of artificial bone for implant - Google Patents

Abstract

PURPOSE: An artificial bone injection device for an implant is provided to prevent the rupture of maxillary sinus film. CONSTITUTION: An artificial bone injection device for an implant comprises an insert pole(100) and a pressing unit(300). The insert pole is formed long to be inserted into the maxillary sinus. In the insert pole, one side thereof is blocked, a fluid path is formed thereinside and an injection hole(200) connected to the fluid path is formed in the outer periphery thereof. The pressing unit pushes fluid or powder into the injection hole. The pressing unit comprises a cylinder(310) and a cap(320) with screw thread, and a screw(330) combined with the cap.

Description

{Injection device of artificial bone for implant}

The present invention relates to an implant artificial bone injection mechanism for forming artificial bone by implanting artificial bone (bone powder) into the maxillary bone after elevating the maxillary sinus membrane during the implant procedure, more specifically, an injection for injecting bone powder to one side An insert pole is formed to be inserted into the hole formed in the upper jaw pre-formed, and the pressing means is connected to the other side of the insert pole to inject artificial bone, the insert pole is closed at one end of the insert pole A plurality of injection holes are formed on the outer circumference to prevent rupture of the maxillary sinus membrane because the artificial bone is not directly injected into the maxillary sinus membrane, and the pressing means is formed in the form of a screw-type syringe to adjust the amount of artificial bone injection. Implants that can precisely control the amount of bone injected to prevent rupture of the maxillary sinus For relates to an artificial bone implantation mechanism.

In the field of dentistry, implants are a series of procedures for implanting artificial teeth. These implants implant a structure that is friendly to the human body and has no allergic reactions in the alveolar bone where the teeth are missing, and then fuses with the bone. After combining the abutment, the artificial tooth is fixed to the abutment to replace the missing tooth with an artificial tooth.

In other words, after planting a female body with a female thread in the alveolar bone, the abutment tooth formed with the male thread is connected to the alveolar bone, and then an artificial tooth made of gold or ceramic is connected thereto.

Thus, unlike prosthetics or dentures, which cause teeth and bones to deteriorate over time, implants have the advantage of being very similar to natural teeth without damaging dental tissue.

Due to the characteristics of such implants, the recent implant procedures are being performed a lot domestically and internationally.

The general implant procedure does not require a high level of skill, but in the case of an implant procedure involving the maxillary sinus, it is difficult to perform the procedure, and a relatively high level of skill is required.

The difficulty in implanting the maxillary sinus is that most of the maxillary sinuses located inside the cheekbone of the nose need to be implanted into the maxillary sinus due to lack of alveolar bone.

In order to implant the artificial bone in the maxillary sinus, a hole of 2 to 3 mm in the maxilla where the missing tooth was located, and a thin maxillary sinus membrane surrounding the maxillary sinus is lifted up, and then artificial bone is implanted in place.

That is, as shown in FIG. 1, a nozzle or the like is inserted into a hole formed in the maxilla (1), and the saline solution is injected into the maxillary sinus membrane (2), and the maxillary sinus membrane (2) is elevated to the inside of the maxillary sinus (3) by the pressure of the injection. Be sure to

Then, using a device such as a spatula or amalgam carrier, the artificial bone powder to be implanted is pushed into the hole and a small amount is pushed into the hole of the maxilla (1) by using a plugger or an otheteotom.

At this time, it is difficult to put a large amount at a time, and there is a fear that the maxillary sinus membrane is perforated in the process of pushing the artificial bone powder is divided into a small amount is usually injected 1 to 3cc.

Therefore, the procedure is difficult and time is very long, there is a possibility that the artificial bone powder is dropped or contaminated during the transfer, it takes a lot of time and effort of the doctor and the patient is also inconvenient.

And the housing 20 is filled with a bone graft therein as shown in Figure 2 and the discharge hole 25 is formed; A cap 40 coupled to the lower portion of the housing 20; It is rotatably supported by the cap 40, the pressing means for pressing the inside of the housing 20; consisting of, the pressing means 50 is in a screw hole formed in the center of the cap 40 Screwed to the inside of the housing 20 is extended by the forward / reverse rotation and screw bar 51, coupled to the upper end of the screw bar 51 and in close contact with the inner surface of the housing 20 There is a bone implant device for implant surgery consisting of a pressing plate 55 that is sliding.

This is because the pressure plate 55 is elevated by the rotation of the screw bar 51, precisely adjusting the lifting of the pressure plate 55 can not only accurately inject the amount of bone to be implanted as necessary, but also the bone injection is made quickly Although it is possible to shorten the procedure time of the implant, another mechanism is required to rotate the screw bar 51 after fixing the housing 20, and it is difficult to rotate the inside of the oral cavity. There is a problem that the maxillary sinus rupture can not be precisely adjusted.

KR 10-2010-0000849 A (2010.01.06.) Drawing 1, Drawing 3, Drawing 7

The present invention has been made to solve the problems as described above, an object of the present invention is the injection pole is formed so that the injection hole for injecting bone powder on one side is formed to be inserted into the pre-formed hole in the maxilla, and the insert The insert pole is connected to the other side of the pole and comprises a press means for injecting artificial bone, the insert pole is closed at one end and a plurality of injection holes are formed on the outer circumferential surface of the maxillary sinus because artificial bone powder is not directly injected into the maxillary sinus membrane. Membrane rupture can be prevented, and the pressurizing means is formed in the form of a screw syringe to adjust the amount of artificial bone injection to precisely control the injection amount of artificial bone to prevent rupture of the maxillary sinus membrane It is to provide a bone injection device.

Artificial bone implantation device for implants of the present invention for achieving the object as described above, is formed long to be inserted into the maxillary sinus, one side is blocked and the flow path 110 is formed inside the flow path 110 and Insert pole 100 is connected to the injection hole 200 is formed; And pressurizing means 300 connected to the opposite side where the injection hole 200 of the insert pole 100 is formed and pushing the fluid or powder into the injection hole 200 through the flow path 110 of the insert pole 100. ); It is made, including, the pressing means 300 is a cylinder 310 is formed such that the inside of the hollow is connected to the insert pole 100 and the other side is opened, coupled to the open portion of the cylinder 310 And a cap 320 having a thread 321 formed on an inner circumferential surface thereof, and a piston 340 coupled to one end thereof, and a screw 330 formed on an outer circumferential surface thereof, coupled to the cap 320. Characterized in that made.

In addition, the insert pole 100 is one side is formed in a hemispherical shape, the injection hole 200 is characterized in that it is formed radially on the outer circumferential surface of the insert pole (100).

In addition, the insert pole 100 is fixed side (100a) is coupled to one side is coupled to the pressing means 300; And a rotating tube 100b having one side coupled to the fixed tube 100a and an injection hole 200 formed at the other side. , ≪ / RTI >

The rotary tube (100b) is coupled to the fixed tube (100a) by the rotating means (100c), the rotary tube (100b) is characterized in that the rotatable.

In addition, the injection hole 200 is characterized in that the diameter of 1 to 2mm.

The implant artificial bone injection device for implantation of the present invention is formed in the injection hole for injecting bone powder on one side is formed to be inserted into the pre-formed hole in the maxilla, and insert the artificial pole connected to the other side of the insert pole It is made to include a pressing means, the insert pole is one end is blocked and a plurality of injection holes are formed on the outer peripheral surface there is an advantage that can prevent the bursting of the maxillary sinus membrane because the artificial bone powder is not directly injected into the maxillary sinus membrane .

In addition, the pressing means is formed in the form of a screw-type syringe to adjust the amount of artificial bone injection has the advantage of being able to precisely control the injection amount of artificial bone to prevent rupture of the maxillary sinus membrane.

1 is a schematic diagram showing a state in which the maxillary sinus membrane is elevated before implantation of artificial bone for implants.
Figure 2 is a cross-sectional view showing a conventional bone implant device for implant surgery.
Figure 3 is a perspective view showing the artificial bone injection mechanism for implants of the present invention
Figure 4 is a cross-sectional view showing an artificial bone injection device for implants of the present invention.
5 is a cross-sectional view showing the pressing means according to the present invention.
Figure 6 is a schematic diagram showing a state of spraying artificial bone powder using the artificial bone injection device for implants of the present invention.
Figure 7 is a schematic view showing an embodiment of the insert pole and the injection hole according to the present invention.
8 and 9 are a cross-sectional view and a perspective view showing another embodiment of the insert pole according to the present invention.

Hereinafter, with reference to the accompanying drawings, the artificial bone injection device for implants of the present invention as described above will be described in detail.

Figure 3 is a perspective view showing an artificial bone injection device for implants of the present invention.

As shown, the artificial bone injection device for implants of the present invention is formed long to be inserted into the maxillary sinus, one side is blocked and the flow path 110 is formed inside the injection hole connected to the flow path 110 ( Insert pole 100 is formed; And pressurizing means 300 connected to the opposite side where the injection hole 200 of the insert pole 100 is formed and pushing the fluid or powder into the injection hole 200 through the flow path 110 of the insert pole 100. ); It is made, including.

In addition, the pressurizing means 300 is coupled to an open portion of the cylinder 310 and the cylinder 310 formed to open the other side and the insert pole 100 is connected to one side and the inside is hollow (threaded on the inner peripheral surface ( 321 is formed, and a piston 340 is coupled to one end and a screw thread 331 is formed on the outer circumferential surface is formed to include a screw 330 is coupled to the cap 320 ,.

First, the insert pole 100 is formed in the form of an elongated tube is formed so that one side is blocked. And the inside of the flow path 110 is formed, the injection hole 200 is formed on the outer peripheral surface of the insert pole 100 to communicate with the flow path 110 on one side blocked.

At this time, the injection hole 200 is spaced at a certain distance from the end of one side may be formed in the outer circumferential surface of the insert pole 100.

That is, one side of the injection hole 200 is formed in the insert pole 100 to be inserted into a small hole previously formed in the gum and maxilla of the part where the patient's teeth are lost for the implant procedure.

And the other side of the insert pole 100 is connected to the pressing means 300 is configured to inject a fluid or powder (artificial bone powder) and the like through the flow path 110 of the insert pole (100).

Thus, one side in which the injection hole 200 is formed in the insert pole 100 may be inserted into a hole formed in the maxilla, and the artificial bone powder may be injected into the maxilla using the pressing means 300.

At this time, since the injection hole 200 formed in the insert pole 100 is radially formed on the outer circumferential surface, the artificial bone powder may be sprayed to the side rather than directly sprayed to the maxillary sinus membrane, thereby preventing damage to the maxillary sinus membrane.

And the pressing means 300 is coupled to the open portion of the cylinder 310, the cylinder 310 is formed such that the inside is hollow so that the insert pole 100 is connected to one side and the other side is opened as shown in FIG. A cap 320 having a thread 321 formed on an inner circumferential surface thereof, and a piston 340 coupled to one end thereof, and a screw 330 formed on an outer circumferential surface thereof, coupled to the cap 320. .

That is, the cap 320 is coupled to the opposite side to which the screw 330 coupled to the piston 340 is inserted into the cylinder 310 and the insert pole 100 of the cylinder 310 is connected. The cap 320 and the screw 330 is screwed.

Thus, when the screw 330 is rotated, the piston 340 is moved along the inner circumferential surface of the cylinder 310, the artificial is injected into the injection hole 200 through the flow path 110 of the insert pole 100 You can control the amount of bone powder.

At this time, as shown in Figure 5 by forming a ruler 332 on one side of the outer peripheral surface of the screw 330 may be more precisely adjusted the amount of artificial bone powder injection.

That is, filling the artificial bone powder in the cylinder 310 of the pressing means 300, and by rotating the screw 330 little by little check the scale and numbers can be confirmed the amount injected.

Thus, when the artificial bone powder is injected into the maxillary sinus, the precise amount can be adjusted to prevent the maxillary sinus membrane from being damaged or less injected.

In addition, the pressing means 300 is a protrusion 322 is formed on the outer peripheral surface of the cap 320, the screw 330 may be formed with a handle 333 on the opposite side to which the piston 340 is coupled.

That is, since the pressing means 300 must pressurize by rotating the screw 330, the protrusion 322 is formed on the outer circumferential surface of the cap 320 to fix the cylinder 310 and the cap 320 with one hand. In addition, the screw 330 may be formed in a structure in which a handle 333 is formed to easily rotate the handle 333 with the other hand.

At this time, the pressing means 300 is the piston 340 coupled to one side of the screw 330 as shown in Figure 5 is hollow inside is formed with a locking groove 341 on the inner circumferential surface of the screw 330 One side may be a locking projection 334 is formed.

Thus, when rotating the screw 330, the piston 340 is moved only in the longitudinal direction of the cylinder 310 without rotating in close contact with the inner peripheral surface of the cylinder 310, the screw 330 It can be rotated only to more easily adjust the amount injected by rotating the screw 330.

And the end of the screw 330 coupled to the piston 340 is tapered and the piston 340 is formed correspondingly, but larger than the end of the screw 330 is formed by the frictional force by the contact surface It is preferable to reduce the friction force by applying a lubricant to the locking groove 341 and the locking projection 334, so that the screw 330 can be smoothly rotated.

In addition, one side of the insert pole 100 is formed in a hemispherical shape, the injection hole 200 may be formed radially on the outer circumferential surface of the insert pole (100).

That is, one side is formed in a shape that is blocked in a hemispherical shape, the injection hole 200 is formed radially on the outer peripheral surface of the insert pole 100 in the vertical direction with respect to the flow path (110).

Thus, when inserting the insert pole 100 into the hole formed in the maxilla, as shown in Figure 6 does not damage the surrounding gums, it is easy to insert.

In addition, even if contact with the maxillary sinus membrane during insertion may not damage the maxillary sinus membrane.

And the injection hole 200 as shown in Figure 7 may be formed in various forms.

That is, when the position to which the artificial bone powder is to be sprayed is used in a specific part or the part which is not likely to damage the maxillary sinus membrane, the center of the end of the insert pole 100 is cut out, a form or spraying in only one direction ( It may be to be injected at the same time in the direction perpendicular to the same direction as 110.

In addition, the insert pole 100 as shown in Figures 8 and 9, the one side is coupled to the pressing means 300 is connected to the communication tube (100a); And a rotating tube 100b having one side coupled to the fixed tube 100a and an injection hole 200 formed at the other side. It is made, including, the rotary tube (100b) is coupled to the fixed means (100a) by the rotating means (100c), the rotary tube (100b) can be made to be rotatable.

This, one side of the rotary tube (100b) is coupled to the fixed tube (100a) by a rotating means such as a bearing and the injection hole 200 is formed on the other side, by rotating the rotary tube (100b) if necessary, artificial It can be configured to spray by adjusting the direction of the bone powder to be sprayed.

At this time, the outer diameter of the fixed tube (100a) is made of 6 to 8mm to facilitate the processing and assembly of the bearing and the rotating tube (100b) and easy to operate, the outer diameter of the rotary tube (100a) is a hole formed in the maxilla It is preferable to manufacture in 2.5 to 3mm to be easily inserted into.

In addition, the length from the end of the fixed tube (100b) to the end of the rotary tube (100a) is preferably from 7 to 10mm, which may damage the elevated maxillary sinus membrane if the rotary tube (100a) is too long and vice versa If too short, artificial bone powder may not be sprayed properly.

Thus, since the direction in which the artificial bone powder is injected can be controlled, the bone can be injected by rotating in the direction in which the artificial bone powder is less injected or in the direction to be injected.

And the injection hole 200 is preferably formed of a diameter of 1 to 2mm.

Since the size of the particles of the artificial bone powder injected into the maxillary sinus is 100 to 700 μm, if the size of the injection hole 200 is too small, the artificial bone powder is not sprayed or takes a long time, on the contrary, If the size is too large, the strength of the insert pole 100 is lowered, so when the pressure is applied in the pressing means 300 may be fragile and break around the injection hole 200, an appropriate size should be selected.

In addition, the insert pole 100 may be integrally formed on the pressing means 300 or may be formed to be coupled and separated, or may be formed in a number of combinations.

In addition, the insert pole 100 is formed of a material that can be bent by hand while having a certain strength, it is preferably made to be easily inserted into the hole formed in the gum and maxilla.

In addition, a portion in which the insert pole 100 is connected to the pressing means 300 forms a coupler 120 at one side of the insert pole 100 as shown in FIG. It is formed to be screwed to the cylinder 310 with a fixed cap 350, it can be used to replace the insert pole 100 according to the patient.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1000: artificial bone implantation device for implant (of the present invention)
100: insert pole
110: euro 120: coupling sphere
100a: fixed tube 100b: rotary tube
100c: rotation means
200: injection hole
300: pressurizing means
310: cylinder
320: cap
321: thread 322: protrusion
330 screw
331: thread 332: ruler
333: handle 334: locking projection
340: piston 341: locking groove
350: fixed cap

Claims (4)

Insert pole 100 is formed long to be inserted into the maxillary sinus, one side is blocked and the flow path 110 is formed therein is formed in the injection hole 200 connected to the flow path 110 on the outer peripheral surface; And
Pressing means 300 connected to the opposite side where the injection hole 200 of the insert pole 100 is formed and pushes the fluid or powder into the injection hole 200 through the flow path 110 of the insert pole 100 ; Including but not limited to,
The pressurizing means 300 is a cylinder 310 formed to be connected to the insert pole 100 on one side and the other side is open to the inside hollow, the open portion of the cylinder 310, the thread 321 on the inner peripheral surface The cap 320 is formed, and the piston 340 is coupled to one end and the screw 331 is formed on the outer circumferential surface is a screw 330 is coupled to the cap 320, the implant comprising a Artificial bone infusion apparatus.
The method of claim 1,
The insert pole 100 is one side is formed in a hemispherical shape, the injection hole 200 is an artificial bone injection mechanism for the implant, characterized in that formed radially on the outer circumferential surface of the insert pole (100).
The method of claim 1,
The insert pole 100 is fixed side (100a) is coupled to one side is coupled to the pressing means 300; And a rotating tube 100b having one side coupled to the fixed tube 100a and an injection hole 200 formed at the other side. Including but not limited to,
The rotary tube (100b) is coupled to the fixed tube (100a) by the rotating means (100c), the artificial tube injection mechanism for implants, characterized in that the rotary tube (100b) is rotatable.
4. The method according to any one of claims 1 to 3,
The injection hole 200 is an artificial bone implantation device for an implant, characterized in that the diameter of 1 to 2mm.

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