RU191459U1 - Diamond crown for stump formation - Google Patents

Abstract

The utility model relates to medicine, namely to the field of dentistry, and can be used in orthopedic dentistry to form stumps of teeth of the correct cylindrical shape from removed molars before laboratory tests to determine the adhesion strength of dental materials used in orthopedics. The diamond crown contains a shank and a working part covered with diamond chips. The working part is made in the form of a hollow cylinder of regular shape with an inner diameter equal to 6 mm and a height along the inner wall of the crown equal to 6 mm, the lower edge of the working part having a bevel inward at an angle of 45 ° and covered with diamond chips to a height of not more than 20% from the height of the inner wall of the crown. Using the proposed technical solution will allow for a short time to get many stumps of teeth of cylindrical shape of the same diameter with the same surface, which helps to increase the reliability of laboratory tests of various dental materials in orthopedics.

Description

The utility model relates to medicine, namely to the field of dentistry, and can be used in orthopedic dentistry to form stumps of teeth of the correct cylindrical shape before laboratory tests to determine the adhesion strength of dental materials used in orthopedics.

In modern orthopedic dentistry, diamond burs are used to prepare hard tissues of tooth stumps before producing an artificial crown.

A technical solution is known for dental bur (RU No. 177891, publ. March 15, 2018), which consists of a shaft, a head with diamond spraying connected to the shaft, grooves on the head. The groove on the head is made hemispherical in a radius of 0.5-1.5 mm. Dental boron is intended for the preparation of hard tissues of the tooth stump, before making an artificial crown.

In clinical practice, the S6879 K.314.021 torpedo-shaped diamond bur is used to form a tooth stump under the crown; it contains a shank and a working part 9 mm long and 1.4-2.1 mm in diameter with a rounded head that is covered with coarse-grained diamond chips, which allows to reveal fissures and, changing the inclination of the axis of the tip and boron relative to the axis of the tooth, to form a fold

(see address: https://www.kometdental.de/~/media/KometDental/Product%20Info/SyncFolder/410512_pdf.pdf?6da22801-370f-4d2b-b12d-e439b13c4263).

A disadvantage of the known solutions lies in the impossibility of their use in laboratory tests of dental materials used in orthopedics.

Since, in order to obtain reliable test results, the adhesion strength of various dental materials in modern experimental orthopedic dentistry requires the creation of tooth stumps of the same size, shape and surface from removed molars.

The technical task of the utility model is the development of a crown for the formation of stumps of teeth of the same size, shape and surface.

The technical result of the proposed model consists in the possibility of forming at least two identical tooth stumps of a given diameter of the correct cylindrical shape for laboratory testing of dental materials when determining the adhesion force of binders and restoration dental materials to hard tooth tissues according to the method described in the invention patent No. 2496443 ( publ. 03/19/2018).

The technical result is achieved by the proposed diamond crown for the formation of tooth stumps containing a shank and a working part covered with diamond chips, moreover, the working part is made in the form of a hollow cylinder of regular shape with an inner diameter of 6 mm and a height of the inner wall of the crown of 6 mm. In this case, the lower edge of the working part is covered with diamond chips and has a bevel inward at an angle of 45 °, and diamond chips covers no more than 20% of the height of the inner wall of the crown.

The utility model is characterized in that:

- the working part is made in the form of a hollow cylinder of regular shape with an inner diameter of 6 mm and a height of the inner wall of the crown of 6 mm, which allows you to create at least two stumps of teeth of a given size of regular cylindrical shape;

- the lower edge of the working part has a bevel inward at an angle of 45 °, which allows you to create a ledge of 45 ° in the lower part of the tooth stump, which serves as a limiter for fixing the crown during laboratory tests of fixing dental materials;

- coating with diamond chips on the lower edge of the working part is not more than 20% of the height of the inner wall of the crown, which increases the cutting ability of the tool and allows you to get a uniformly processed surface of the tooth stump.

A utility model is represented by a drawing.

In FIG. 1 shows a general view of a diamond crown.

The diamond crown contains a shank 1, which allows it to be installed in a turbine tip (not shown in Fig.), The working part 2, made in the form of a hollow cylinder of regular shape, the lower edge of which has a bevel 3 inward at an angle of 45 ° with a diamond chip 4 applied, which covers no more than 20% of the height of the inner wall of the crown, while the inner diameter 5 of the hollow cylinder is 6 mm and has a height h along the inner wall of the crown equal to 6 mm.

Diamond crown works as follows.

The removed molar is pretreated with a well-known torpedo-shaped boron to bring the diameter of the tooth stump to 7.0 - 7.5 mm, and the chewing surface of the tooth stump is also prepared until a flat surface is obtained. Then, having fixed the shank 1 of the proposed diamond crown in the turbine tip, the tooth stump is prepared by rotating the diamond crown with water-air cooling. The presence on the lower edge of the working part 2 of the diamond crown of the bevel 3 inward at an angle of 45 ° allows you to create a ledge on the lower part of the tooth stump, which serves as a limiter for fixing the crown. As a result of such processing with a diamond crown of molars, tooth stumps of regular cylindrical shape of a given diameter equal to 6 mm with a height equal to the height of the inner part of the crown h equal to 6 mm are formed.

The diamond coating on the crown may have a different grain size, due to the objectives of laboratory research. However, diamond chips with a hybrid grain size of 160-125 and 63 - 50 microns (according to patent No. 2647723, publ. March 19, 2018), is preferred, because prevents sticking of the diamond crown during the formation of the tooth stump, increases the cutting ability of the tool and allows you to get a uniformly processed surface of the tooth stump.

Thus, the task and the claimed technical result, consisting in the possibility of forming at least two identical stumps of teeth, a given diameter of the correct cylindrical shape for laboratory testing of dental materials, is solved.

Using the proposed technical solution will make it possible to obtain at least two identical tooth stumps of cylindrical shape of the same diameter in a short time, which helps to increase the reliability of laboratory tests of various dental materials in orthopedics when determining the adhesion force of binders and restoration dental materials to hard tooth tissues. The developed diamond crown allows one to compare with high reliability the operational characteristics of materials for fixation by using tooth stumps of a given size of the correct cylindrical shape with the same surface.

Claims (1)

Diamond crown for the formation of tooth stumps from removed molars, containing a shank and a working part covered with diamond chips, characterized in that the working part is made in the form of a hollow cylinder of the correct shape with an inner diameter of 6 mm and a height along the inner wall of the crown of 6 mm, and the lower edge of the working part has a bevel inward at an angle of 45 ° and is covered with diamond chips to a height of not more than 20% of the height of the inner wall of the crown.

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