WO2012044194A1 - Device for calibrating gutta-percha pins - Google Patents

Abstract

The technical solution relates to medicine, and specifically to dental instruments, and can be used for calibrating gutta-percha pins in the obturation of root canals in a tooth. The technical result of the claimed technical solution is an increase in the quality of the calibrated gutta-percha pin and consequently in the quality of the treatment, and a reduction in the time expended on calibrating the pin and treating the root canal of the tooth. The technical result is achieved in that a device for calibrating gutta-percha pins, the device comprising a body with calibrating openings arranged along the length and equipped with diameter indicators and with a length scale having a millimetre division, is additionally equipped with a scalpel in the form of a plate of U-shaped cross section which is spring-loaded at the end and has ledges bent inwards and at an angle of 45° at maximum to a base, said plate being formed from stainless spring steel and being mounted by the ledges in L-shaped grooves in the lower part of the body so as to be displaceable along the length of said body, wherein right-angled openings are formed on the wall of the scalpel plate, said openings being placed uniformly along the length of the plate and consequently along the calibrating openings with the cutting edge on one side. Furthermore, the technical result is achieved in that the ledges of the scalpel plate of U-shaped cross section are bent inwards and have a bend along the centre of the length thereof to the base of the body. Furthermore, the technical result is achieved in that the ledges of the scalpel plate of U-shaped cross section are bent inwards, and the cutting edge is arranged on a post of L-shaped cross section on one side of the opening, said post being arranged at an angle of 45° at maximum to the base of the body.

Description

 Device for calibrating gutta-percha pins.

The technical solution relates to medicine, namely to dental instruments and can be used to calibrate gutta-percha pins during obturation of the root canals of the tooth.

 A device is known for measuring the length of endodontic instruments, for example, pins, containing a ruler with millimeter division and indicators of the length of the teeth and roots of each tooth of the upper and lower jaws (see patent SU, L ° 2017467, IPC-5 A61C19 / 04, G01B3 / 00 )

 The disadvantages of the known device include: reduced its technological capabilities, since the device provides calibration of the pins only in length and does not calibrate the pins in diameter.

 The closest technical solution to the claimed one is the Gutta-Percha Points Gauge calibrator of the manufacturer (Dentsply-Maillefer), consisting of a housing with calibration holes placed along the length and equipped with a diameter indicator. On the case there is also a length scale with millimeter division, (see the Medenta product catalog. Website: www.medenta.ru).

 The disadvantages of the known device are: insufficient quality of the calibrated gutta-percha pin, due to manual cutting of the pin with a scalpel, since the location of the scalpel at an angle or not tight to the surface of the body does not provide a perfectly flat shape of the pin top or gives an error in the height of the pin. The use of a pin with an uneven cut of the apex does not completely close the root canal of the tooth, reducing the quality of the obstruction and may lead to the development of an inflammatory process in the root area.

 The technical result of the claimed technical solution is to improve the quality of the calibrated gutta-percha pin and, accordingly, the quality of treatment, reducing the time for calibrating the pin and treating the root canal of the tooth.

The technical result is achieved by the fact that the device for calibrating gutta-percha pins, comprising a housing with calibration holes located along the length and provided with diameter indicators and with a length scale with millimeter divisions, is additionally equipped with a scalpel made in the form of a plate spring-loaded from the end face U-shaped section with shelves bent inward and at an angle of not more than 45 ° to the base, made of stainless spring steel, installed with shelves in the L-shaped grooves of the lower part of the body along its length with the possibility of movement, while rectangular holes are made on the wall of the scalpel plate, placed along its length evenly and correspondingly with calibration holes with a cutting edge on one side.

 In addition, the technical result is achieved by the fact that the shelves of the plate of the U-shaped section of the scalpel are made curved inward and with a bend in the center of their length to the base of the body.

 In addition, the technical result is achieved by the fact that the shelves of the plate of the U-shaped section of the scalpel are bent inward, and the cutting edge is located on the stand of the L-shaped section of one side of the hole, located at an angle of no more than 45 ° to the base of the body.

 The device is supplied with a scalpel made in the form of a U-shaped plate spring-loaded from the end face with shelves bent inward and at an angle of not more than 45 ° to the base or a scalpel made in the form of a U-shaped plate spring-loaded from the end face with the shelves bent inward and with the shelves bent in the center of their length, or with a scalpel made in the form of a U-shaped plate spring-loaded from the end with the shelves bent inward and a cutting edge located on the L-shaped stand on one side of the hole, located at an angle of not more than 45 ° to the base of the body, made of stainless spring steel, installed by the shelves in the L-shaped grooves of the lower part of the body along its length with the possibility of moving, it allows the scalpel to be firmly pressed to the base due to the design and the material used - spring steel , receiving when cutting the pins a perfectly even shape of the tip, increasing the quality of the obstruction of the root canal of the tooth.

 The execution on the wall of the scalpel plate of rectangular holes that are evenly distributed along its length and correspondingly calibration holes with a cutting edge on one side or with a cutting edge on an L-shaped stand on the same side allows you to precisely cut off the tip of one or just the diameter of the scalpel or multiple pins simultaneously, speeding up the processing of pins and the healing process.

 In Fig.1 shows a device, side view, in section;

 FIG. 2 is a view along arrow A in FIG. one ;

 FIG. 3 is a view along arrow B in FIG. one ; (The shelves of the scalpel are bent inwards and at an angle to the base);

4 shows a scalpel; a - side view (sectional view); b - top view; in - view from below; 5 shows a length scale placed on the housing; Figure 6 shows a device with a scalpel made with a bend of the shelves in the center of their length;

 Figure 7 shows a device with a scalpel made with the bending of the shelves inward;

 On Fig shows a fragment of a device with a scalpel made with cutting edges on the L-shaped racks in section.

The device consists of a box 1 in the form of a parallelepiped made of heat-resistant plastic that can withstand sterilization and autoclaving. On the wide side of the housing along the center line perpendicular to the plane are calibration holes 2 with calibration rings installed inside them made of a light metal alloy that can withstand sterilization and autoclaving. The body of the device can be made entirely of a metal alloy that can withstand sterilization treatment and autoclaving. Seventeen calibration holes 2 with an ISO size of 20 to 140 at the base, equipped with indicators of their diameter placed next to them, were made on the body. On the side surface of the housing is a scale of length 3 with millimeter divisions. The device is equipped with a scalpel 4, made in the form of a plate of a U-shaped profile with bent edges of the shelves inward and to the base at an angle of, for example, 30 ° (Fig. C). On the wall of the U-shaped profile of the scalpel 4 there are rectangular holes 5 (FIG. 4, c) with a cutting edge on one side perpendicular to the longitudinal axis of the scalpel, the number of holes 5 corresponds to the number of calibration holes 2. The scalpel 4-a can be made of a plate U-shaped profile with bent edges of the shelves inward and with cutting edges placed on the racks 6 of the G-shaped profile in the holes of the wall (Fig. 8). Racks 6 are located at an angle of no more than 45 ° to the base of the housing and can be made by cutting three sides of each hole in the wall and bending the plates to the racks of the L-shaped profile. The scalpel 4-c can be made of a U-shaped plate with bent edges of the shelves inward (Fig. 7) and with a bend of the shelves in the center of their length to the base of the housing (Fig. 6). For the manufacture of the scalpel, stainless steel is used, which has springing properties, and therefore the bending of the shelves inward and to the base at an angle, for example, 30 ° or the location of the cutting edges on the L-shaped racks located at an angle to the base, as well as making the scalpel with a deflection along the length of the shelves, when installing the scalpel, it is possible to firmly press its cutting edges against the base of the calibration holes 2. The scalpel is mounted with the possibility of movement in the lower part of the housing 1 in the longitudinal grooves 7 of the L-shaped profile. In the initial position, the body inlet holes 2 are located in the center of the scalpel's rectangular holes 5. The longitudinal grooves 7 of the body pass into the cylindrical cavity to accommodate the springs 8 in contact with the end surface of the scalpel 2 and provide the scalpel to return to its original position.

 The device operates as follows.

 According to the diameter of the last endodontic instrument used to process the root canal of the tooth, a gutta-percha pin is selected, it is inserted into the corresponding calibration hole 2 of the device and the scalpel is moved, compressing the spring 8, while the cutting edge of the scalpel cuts off the tip of the pin to form the desired diameter . Then the scalpel returns spring 8 to its original position. The pin is removed, placed on a length scale and cut to the desired length size. When treating a multichannel tooth or several teeth, several pins are placed simultaneously in the corresponding calibration holes and the scalpel is moved, cutting off their tips, accelerating the process of tooth treatment with high quality of treatment.

 A device that improves the quality of the treated gutta-percha pin and treatment while accelerating the treatment process will find application in dentistry.

Claims

CLAIM

 1. A device for calibrating gutta-percha pins, comprising a housing with calibration holes located along the length and provided with diameters and a length scale with millimeter division, characterized in that it is additionally equipped with a scalpel made in the form of a spring-loaded plate U-shaped cross-section with shelves bent inward and towards the base at an angle of not more than 45 °, made of stainless spring steel, installed by the shelves in the L-shaped grooves of the lower part of the body along its length with the possibility of emescheniya, with a scalpel on the wall plate made rectangular holes arranged uniformly along its length and calibration openings respectively with a cutting edge on one side.

 2. The device according to claim 1, characterized in that the shelves of the plate of the U-shaped section of the scalpel are bent inward and with a bend in the center of their length to the base of the body.

 3. The device according to claim 1, characterized in that the shelves of the plate of the U-shaped section of the scalpel are bent inward, and the cutting edge is located on the L-shaped rack of one side of the hole, located at an angle of not more than 45 ° to the base of the body.