KR20130055421A - Ceramic upper bush for dental implant fixture packaging - Google Patents

Abstract

PURPOSE: A ceramic upper bush for packaging a dental implant fixture is provided to maintain a stable support state and to minimize a contact area a fixture. CONSTITUTION: A ceramic upper bush for packaging a dental implant fixture comprises a case which is sealed by a cover, and an implant fixture which holds the upside of a male screw while being bonded to the top of the case. The ceramic upper bush is formed with an assembly hole which has a diameter capable of passing a body which is formed with a male screw. The inner side of the assembly hole is sintered with ceramics to form a fixing protrusion. The ceramics are one selected from alumina, zirconia, silicon nitride, hydroxyapatite, tricalcium phosphate, and biphasic calcium phosphate.

Description

Ceramic upper bush for dental implant fixture packaging

The present invention relates to a ceramic upper for dental implant fixture packaging that is used for single use when the implant fixture is packaged in a sterile state using a fixture case. More specifically, the fixer is coupled to the upper end of the case. Dentistry is designed to maintain stable support while minimizing the earthing area with the Chur, and to make the implant fixture securely supported by cheaper materials than expensive titanium while realizing the weight reduction of the product and reducing the waste of raw materials. It is an object of the present invention to provide a ceramic top plate for implant fixture packaging.

An artificial dental implant is a dental procedure in which an artificial tooth is implanted to replace a missing tooth root. An artificial tooth made of titanium, which is not rejected by the human body, is planted in the alveolar bone where the tooth has fallen out, and then the artificial tooth is implanted. It is a state-of-the-art surgical method that allows to restore the function of the teeth by fixing.

There are hundreds of products of dental implants at home and abroad, and the different structures and shapes add to the confusion of dentists and suffer from difficulties in the procedure.

Making the implant process easier and shortening the procedure is an essential task for dentists and dental patients, and the precise time-saving procedure minimizes dental infections for dental patients while minimizing infection from bacteria. The role of the packaging material of the dental implant is important in providing the stability of the operator.

The basic structure of a fixture for a dental implant is, firstly, a fixture joining product, which is a structure that allows a fixture and an artificial tooth to be combined, and a second fixture that has a separate toothed portion.

Both of these forms are fitted to the handpiece through a handpiece connector to prevent infection and contamination from the bacteria.

In this case, the fixture 20 is safely stored and supplied from external bacteria, etc. as shown in FIG. 1. As a general packaging method, the fixture 20 is internally inserted into the case 10 of a plastic or titanium configuration. In the case 10, the support member 30 and the fixing ring 40 are installed to hold the upper and lower portions of the fixture 20, and the cover 11 is placed on the upper portion of the case 10 to fix the fixture 20. ) In a sealed state.

The fixture 20 has one or more support grooves formed on the lower outer circumference of the body formed in a conical shape, and a female screw is formed on the shaft center on the upper side thereof, and a screw is formed on the outer circumference of the body.

The support member 30 supporting the upper portion of the fixture 20 stored in the sterilization process is intended to be removed from the case 10 without being touched and to be buried in a corresponding part. It must remain erect in.

In addition, the support member 30 for supporting the fixture 20 in the case 10 is formed in a circular shape so as to support and fix the upper portion of the fixture 20.

The support member 30 is scratched by friction with the support member 30 while the screw of the fixture 20 is drawn out when the fixture 20 is drawn out from the case 10, and also, the fix is fixed. Since the fixture 20 is sterilized due to the problem of fine particles falling off by friction while passing through the support member 30, the fixture 20 provided in a sterile state is contaminated, so that the fixture 20 in a bad state is treated. The problem arises.

In order to solve the above problems, the dental implant fixture support bush 100 of the Korean Registered Utility Model Publication (Y1) 20-0448952 (2010.06.09.) Has been conceived.

The prior art described above includes a case 10 made of a titanium material in a support bush 100 for supporting an upper portion of a fixture 20 accommodated in a case 10 having a stopper in the case 10. A circular open groove 110 is formed at the inner center of the upper side, and the tapered curved shape extending downward on the inner side of the open groove 110 so that the screw portion of the fixture 20 does not contact the support bush 100. Round bushes 120 are formed to provide a support bush 100 for supporting the upper side of the fixture 20 in an upright position so that the support bush when separating the fixture 20 from the case 10. There is no contact between the male screw portion formed on the outside of the 100 and the fixture 20.

However, in the case of the support bush 100, the parts that are thrown away for one-time use are produced as a cause of increasing the economic burden because they are manufactured using expensive titanium materials, and the fixture 20 has a tight diameter support bush 100. In the process of passing through the open groove 110 formed in the frictional contact with the inner circumferential surface of the open groove 110 of the support bush 100 occurs frequently, so as to solve some of the friction dust as shown in FIG. Dust generation due to the situation was not completely solved.

KR 200448952 Y1 2010.06.09.

Therefore, the present inventors have studied and developed the present invention to solve all the problems of the conventional support member. In the present invention, it is possible to maintain a stable support state while minimizing the ground area with the fixture in a state coupled to the upper end of the case. The technical challenge is to provide ceramic implants for dental implant fixture packaging that can support the implant fixture securely with a material that is cheaper than expensive titanium, and can realize the light weight of the product and reduce the waste of raw materials. The present invention has been completed.

In order to solve the problem, the present invention is made of ceramic, which is a plastic product, which is relatively inexpensive but maintains functionality. Minimizes contact with fixtures during assembly and removal of fixtures by minimizing ground area with fixtures by supporting fixtures and minimizing contact damage and dust generation due to friction I could do it.

In the case of using the ceramic upper case for dental implant fixture packaging provided by the present invention, since it is composed of ceramic, it is possible to produce and spread the ceramic upper case used for single use and discarded at low cost.

Since the upper part of the fixture is fixed by fixing protrusions formed at the top of the ceramic, the surface of the fixture is damaged, and the friction dust can be reduced by minimizing the contact with the male screw formed on the fixture. The chews can be stored and supplied more safely.

There is no remnant in the production of ceramics, and it is possible to prevent resource waste and economic efficiency by reducing material cost.

Ceramic press is produced by pressing the dried ceramic powder has an effect of high production speed.

There are few defects in the product, so there is an effect that stable quality control is possible.

1 is a cross-sectional view showing an embodiment of a conventional implant fixture packaged state
Figure 2 is a cross-sectional view showing another embodiment of a conventional implant fixture packed state
Figure 3 is a perspective view showing a preferred embodiment of the upper portion of the dental implant fixture packaging provided by the present invention
Figure 4 is a cross-
5 is a plan view of FIG.
Figure 6 is a cross-sectional view showing a dental implant fixture packaged according to the present invention

Hereinafter, an embodiment of the upper portion of the ceramic for dental implant fixture packaging provided by the present invention will be described with reference to the accompanying drawings.

Figure 3 is a perspective view showing a preferred embodiment of the upper portion of the dental implant fixture packaging provided by the present invention, Figure 4 is a cross-sectional view of Figure 3, Figure 5 is a plan view of Figure 3, Figure 6 is the present invention It is a cross-sectional view showing a dental implant fixture packaged by the state.

The dental implant fixture ceramic upper case (1) provided by the present invention is conical in the state coupled to the upper portion of the case 10 sealed by the cover as shown in the lower outer side at least one support groove A ceramic upper body (1) formed so that it can be fitted to an upper mount screw-side male thread or a handpiece (not shown in the figure), and to hold the male thread above the implant fixture 20 in which a female thread is formed at the center thereof. The invention is actively invented and improved.

That is, in the present invention, it is possible to manufacture and disseminate at low cost, but also to fix the fixture 20 and fix the fixture 20 in the process of separating the fixture 20 and the like. The present invention has been developed for the purpose of eliminating the problems.

In order to achieve the purpose of reducing the manufacturing cost, the upper portion of the ceramic (1) was constructed using a ceramic, which is a plastic product that is relatively cheaper than titanium and maintains functionality such as titanium, which is made of existing titanium.

In the manufacturing method of the upper ceramic (1), the inorganic non-metallic raw material may be prepared by a method of putting the raw material into a mold and molding it into a desired shape, and then heating and firing it at a high temperature.

As a preferred example, after understanding the required physical properties and shape of the implant fixture, the product and manufacturing process are designed.

After the design, the raw materials are selected to produce a slurry.

The raw material is selected to use any one of alumina, zirconia, silicon nitride, apatite hydroxide, TCP (Tricalcium phospate), BCP (Biphasic calcium phosphate).

The average particle diameter of the raw material is several microns or more, and the solid content is 0.5 to 4% of the binder (PVA) 0.5 to 5.0% and the plasticizer (PEG) 0.1 to 3% dispersant (ammonium polycarbonate) 0.5 to 4% by weight The composition is wet, and ball mill mixing is performed so that the solid content of water is 55-85%.

The slurry produced by the ball mill is subjected to drying and granulation (granulation), the temperature of the input and discharge is 1500 ℃ ~ 80 ℃. The rotation speed of the atomizer is maintained at 4,000 ~ 10,000RPM to promote granulation of ceramic powder and increase fluidity and formability.

The dried powder is molded by pressing with a multi-stage press mold made in the target shape. The slow pressure is 700 ~ 1,200kg / ㎠ and it is molded below 11t (ton). No waste

The finished product is sintered, sintered at 0 ~ 1800 ℃ for 6 ~ 18 hours and naturally cooled.

After the sintering process is completed, the product is selected by washing and inspecting the sintered body, and the selected product is subjected to barrel polishing or polishing (mirror polishing) to improve the roughness of the product.

And to achieve the purpose of eliminating the problem that the fixture 20 is rubbed and damaged by the upper portion of the ceramic (1) in the process of assembling and detaching the fixture 20 as well as the rigid fixing of the fixture (20). In order to allow the assembly holes 2 to penetrate up and down to a diameter through which the male thread of the fixture 20 is formed at the center of the ceramic upper body 1.

Inside the assembly hole (2) is formed so that the fixing projection (3) in contact with the upper end of the male screw, that is, the upper end of the body of the fixture (20).

The front end of the fixing protrusion 3 is configured to have the same diameter as the upper end of the fixture 20 body, can form three to eight, in the present invention an example of forming three fixing protrusions (3) Is shown. Most preferably, it is the 3-5 range.

When forming the fixing projections (3) in contact with the body of the fixture (20) in the assembling hole (2) as in the present invention when fixing the fixture (20) using the ceramic upper case (1) It is possible to make a ground contact with the three fixing protrusions (3) by contacting the three fixing protrusions (3), so that when the fixture (20) is packed or divided to use the fixture (20) in the packed state, By minimizing the contamination or damage of the surface of the fixture (20) by.

In the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the protection scope of the present invention should not be limited to the described embodiments, but should be defined by equivalents as well as the following claims.

1: Ceramic Top 2: Assembly Hole
3: fixed protrusion 10: case
20: fixture

Claims (2)

In the ceramic upper case (1) to hold the top of the male screw of the implant fixture 20 in a state coupled to the upper portion of the case 10 sealed by the cover 11,
The upper portion of the ceramic (1) is formed through the assembling hole (2) vertically through the diameter of the body passing through the body of the male screw of the fixture 20 in the center,
In the assembly hole (2) inside the dental implant fixture packaging ceramic top, characterized in that the plastic is configured to be plastic so that the fixing projection (3) in contact with the upper end of the fixture (20) body inwardly projecting.
The method according to claim 1,
The ceramic is alumina, zirconia, silicon nitride, hydroxide hydroxide apatite, TCP (Tricalcium phospate), BCP (Biphasic calcium phosphate) characterized in that any one of the ceramic implant packaging ceramic top.

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