RU91676U1 - DIAMOND DENTAL TUBULAR BORON - Google Patents

Abstract

The utility model relates to instrumental production and can be used in the manufacture of abrasive tools, mainly dental burs. Effect: increased thermal conductivity and flexibility of the tool; Vibration is reduced and tool life is extended. The claimed technical result is achieved due to the fact that the dental diamond tubular boron made of metal and consisting of a shank (holder) and the working part of the tool, characterized in that the shank (holder) and the working part are made of brass, and the shank is made hollow from the inside.

Description

Application area

The utility model relates to instrumental production and can be used in the manufacture of abrasive tools, mainly dental burs.

State of the art

There are conventional dental burs, the working part of which is covered with 1 or more layers of diamond grains.

They consist of a shank and a working part (head), which is covered with diamond grains (one or more layers).

Known methods of manufacturing an abrasive tool in which the abrasive powder in a plating bath is periodically mixed by stirring, which settles on the surface of a horizontally located cathode tool body, then it is fixed with a layer of electrolytic nickel [1].

A known method of manufacturing abrasive tools [2] including applying a ferromagnetic layer to diamond grains, mixing in a magnetic field, preliminary attachment of diamond grains, electrodeposition on a galvanic bunch and their final overgrowing on the tool body using a magnetic field.

A known method of manufacturing an abrasive tool [3], in which the cathode tool body is placed in a porous basket filled with abrasive material, then the basket is placed in a galvanic bath and diamond grains are deposited on the tool body from the electrolyte, combined with their preliminary fixing, and final overgrowing.

A known method of manufacturing an abrasive tool [4], including electrodeposition on a galvanic bunch of abrasive grains on the tool body, combined with their preliminary fixing, and the final overgrowth of the material of the bundle, according to the invention before preliminary fixing of abrasive grains, they are compacted using ultrasonic vibrations with a frequency of 18-3000 kHz while simultaneously polarizing and orienting by applying to the ultrasonic vibrations a pulsed unipolar current with a frequency of 20-80 Hz, the pulse duration 800-500 microseconds for 10 seconds, then remove the ultrasonic vibration, a preliminary conclusion and electrodepositing lead unipolar pulsed current for 60 minutes, and the final Silting by overlapping the unipolar current pulse frequency of the ultrasonic vibration 18-3000 kHz.

Common to all decisions is that the shank and the working part consist of a solid steel bar, which is made by turning from the corresponding steel billet.

A disadvantage of the known solutions is that the manufactured tools have poor thermal conductivity and insufficient elasticity.

Poor thermal conductivity is caused by the thermal conductivity of steel, which does not exceed 45 W / (mCHK).

As a result, during the treatment with such burs of teeth, the heat that is released during grinding of tooth tissues or fillings is not sufficiently removed from the treatment area and goes into the tooth itself even when it is abundantly aerated with water. This leads to overheating of living tissues and their necrosis. As a result, the tooth loses vitality, which is a very undesirable effect.

Another problem of dental treatment is the lack of flexibility (elasticity) of boron with a steel shank. This leads to increased vibration, which destroys the enamel (see Figure 1), and, in addition, increased vibration prematurely destroys the rotor group of the dental tip.

Effect: increased thermal conductivity and flexibility of the tool; Vibration is reduced and tool life is extended.

The implementation of the invention

The claimed technical result is achieved due to the fact that the dental diamond tubular boron made of metal and consisting of a shank (holder) and the working part of the tool, characterized in that the shank (holder) and the working part are made of brass, and the shank is made hollow from the inside. In addition, the shank and the working part are made of a calibrated brass tube by pressure. In addition, the working part of the boron is made of a brass tube of variable thickness, lowering to the tip of the working part. In addition, the working part is made of a solid brass bar, and the shank is made of a brass tube, and the connection of the working part and the tube is made by means of a hot fit, either welding, or glue.

Brief Description of the Drawings

Figure 1 shows a scanning electron microscopy image of the enamel surface after the 5th treatment with standard boron (× 10000, CamScan 4S).

Figure 2 shows examples of the structural device of the burs, where 1 is the holder of the bur (shank), 2 is the working part of the tool, 3 is the abrasive layer (diamond chips).

Figure 3 shows examples of the structural device of the billet blanks only from the holders (shanks).

Figure 4 shows an example of a structural assembly of boron from parts.

Figure 5 shows an example of the structural assembly of the working part of the boron from a brass tube of variable thickness.

Figure 6 shows the image electron microscopy of the enamel after the 10th treatment with tubular brass bur (× 10000, CamScan 4S).

Utility Model Implementation

To improve heat removal from the treatment zone, it is proposed to produce a shank (1) and a working part (2) from brass, which has a thermal conductivity of almost two times higher - 86 W / (mCHK).

To reduce vibration, it is proposed to produce a shank and a working part from a brass calibrated tube by the pressure method, creating a working part of the desired shape (see Figure 2, Figure 3). Reducing vibration leads to a longer service life of the rotor group of the dental handpiece, which generally increases the life of the tool as a whole. A feature of the tool is that the shank is hollow inside.

In the event that for some reason it is impossible to manufacture the working part from the tube by the pressure (stamping) method under production conditions, it is possible to produce a composite boron. Its working part (1) is made from a solid brass bar, and the shank (2) is made from a tube (see Figure 4). The connection of the working part and the tube is carried out by means of a hot landing, either by welding, or by glue.

To simplify this design, in some cases it is possible to manufacture the entire boron from a solid brass bar, which reduces the temperature, but does not reduce vibration. Such boron, as tests have shown, does not give tangible vibration and, due to the internal cavity and more thermally conductive material, practically does not give the risk of a temperature increase above the permissible (40 ° C). T.O. both vibration and temperature are reduced several times during tooth processing. To further reduce vibration, the working part of the boron is made of a brass tube of variable thickness (see Figure 5), lowering to the tip of the working part, which will significantly increase the flexibility of the working part, and this in turn reduces the level of vibration.

All this leads to a significant preservation of the treated surface of the tooth enamel (see Fig.6).

Information sources:

1. Baikalov A.K. et al. Diamond ruling tool with a galvanic bond, Kiev: Naukova Dumka, 1976, p.22, 48.

2. USSR Copyright Certificate No. 1234176 B24D 17/00, 1984.

3. Copyright certificate of the USSR No. 351689, B24D 17/00, 1970.

4. Patent RU 2043911 B24D 17/00, 1995.

Claims (4)

1. Dental diamond tubular boron, made of metal and consisting of a shank (holder) and the working part of the tool, characterized in that the shank (holder) and the working part are made of brass, and the shank is made hollow from the inside. 2. Boron according to claim 1, characterized in that the shank and the working part are made of a calibrated brass tube by pressure. 3. Boron according to claim 1 or 2, characterized in that the working part of the boron is made of a brass tube of variable thickness, lowering to the tip of the working part. 4. Boron according to claim 1, characterized in that the working part is made of a solid brass bar, and the shank is made of a brass tube, and the connection of the working part and the tube is made by means of a hot fit, either welding, or glue.