AT396739B - Dental tool - Google Patents

Abstract

A dental tool is described, having a handle component 1 which contains a motor 5 to which a propellant air line 6, 6' leads, the handle component 1 containing a second propellant air line 9 which leads to the point of connection of the handle component 1 and neck component 2 and from there to a turbine 8 which surrounds a rotating tool 4. <IMAGE>

Description

AT396739B

The invention relates to a dental handpiece, with a handle part, which contains a motor to which a flow-controlled drive air line leads by means of an adjusting ring arranged on the handle part, and a head part which can be connected to the handle part via a neck part and which carries a rotating tool. 5 Such handpieces are known for example from AT-A-347 013 and DE 30 09 337. The drive arranged in the handle part is designed as a pneumatic vane motor which consists of a sleeve-shaped housing which forms the stator and a rotor arranged therein, the axis of rotation of which is parallel to the axis of the circular-cylindrical inner wall runs and is offset relative to the latter, with at least one air inlet opening for compressed air and at least one air outlet opening opening into the longitudinal slots of the rotor with their outer ends to the space between the rotor and the 10 circular cylindrical inner wall. When the motor is pressurized with compressed air, the latter enters through the air inlet opening (s) into the space between the rotor and the circular cylindrical inner wall and pushes the nearest, most protruding lamella in front of it, so that the rotor begins to turn and the next lamella from the compressed air is applied. IS The speed range of the tool that can be achieved with such a device is between 0 and 40,000 and is referred to in technical jargon as the low-speed range can be. For higher speeds, either mechanical drives or turbines with 20 air drives are used today, which directly surround the rotating tool (cf. AT-A 344 875). Such turbines can be operated in a speed range of 200 - 350,000.

If you currently change from a handpiece with drive in the handle part to a handpiece with head turbine, you change the handle part. This means not only a certain manipulative effort, but also increased costs due to the larger number of handle parts that have to be kept available. In contrast, the object of the invention 25 is to create a handle part that can be used as universally as possible. According to the invention this is achieved in that the handle part contains an additional blowing air line which leads to the junction of the handle part and neck part and that the driving air can optionally be introduced into one of the two driving air lines through the adjusting ring.

This measure makes it possible to manage with a smaller number of handle parts than before, which makes it acceptable for the first time to make the handle part relatively complex, for example by arranging expensive optical devices in the handle part.

Further details of the invention are subsequently explained with reference to the drawing, in which FIG. 1 is a vertical longitudinal section through the handle part of a dental handpiece designed according to the invention, FIG. 2 the section through the handpiece from FIG. 1 along the line (Π · ΙΙ) in Fig. 1, Fig. 3a-d 35 sections along the line (ΙΠ-ΙΠ) in Fig. 1 corresponding to different positions of the collar (7), Fig. 4 a

Section along the line (IV-IV) in Fig. 1, Fig. 5 shows a section along the line (V-V) in Fig. L. 6 shows the side view of the connection end of the handle part (1), FIG. 7 shows a tool holder with neck part (2) and head part (3) which can be connected to the handle part according to FIGS. 1 and 2.

In Fig. 1, the handle part (1) of a dental handpiece is shown, which on the one hand (in the drawing 40 right) with a connector for supply lines of propellant air, cooling water, cooling air, etc., on the other hand with a replaceable tool holder can be connected The handle part (1) Contains a motor (5) which can drive the drive shaft, which runs in the usual way through the neck part of a tool holder, via a gear (26). This motor (5) is preferably a vane motor of the type shown in FIG. 5, in which a 45 red wheel rotating on a central axis in an eccentric bore is equipped with radially displaceable, spring-loaded lamellae (25). The direction of rotation of this rotor depends on this whether driving air is supplied through the inlet (6) and then discharged at (6 *) or whether the air is supplied through the line (6 ') and is discharged through the line (6).

As will be explained in detail later, a tool can be driven when the motor (5) is at a standstill by driving air being supplied to a turbine (8) through the handle part (1), which turbine head (3) has a head part (3) ) and HalsteU (2) existing tool holder for a tool (4) is arranged (see FIG. 7).

To switch between the individual drive types is shown in Fig. 6 collar (7), which is rotatably mounted on the connecting piece (21) of the handle part (1) In the position (T), the turbine (8) is driven, in the positions (F) and (R) drive the motor (5) in 55 opposite directions, position (0) is the neutral position.

The function of the adjusting ring (7) can be seen from Fig. 3a-d. The adjusting ring has, on the one hand, a radial extension (23) starting from a central bore to release the propellant air inlet and, on the other hand, a tangential Lärigs slot (24) for the return air. The propellant air reaches the extension (23) of the adjusting ring (7) through the supply line (10) in the connecting piece (21), which widens at the left end to a 60 circular segment-shaped recess (10 *), which with the extension (23) of the adjusting ring (7) communicates

The options that are available are shown in Fig. 4. The propellant air can be selected · -2-

Claims (3)

AT396739B as supplied via lines (6) or (6 ') to the motor (5) and returned via the return lines (16) or via the driving air line (9) to the turbine (8) and via the return line (15 ) run back. In addition to the mentioned propellant air lines, a cooling water line (17), a cooling air line (18) and a light line (19) run in the handle part (1), which will be discussed later (FIG. 5). For easier understanding, the common propellant air supply (10) and the recess (10 ') are also projected onto the sectional plane of FIG. 4, which are located to the right of the sectional plane. 3a-d shows in detail how the desired selection between the drive types can be made by turning the adjusting ring (7). In the dm * position according to FIG. 3a, the extension 10 (23) of the adjusting ring releases the motive air line (9). As from Fig. 2 can be seen, the driving air passes through this line to a recess (13) which opens between the O-rings (11) and (12) of the tool holder shown in Fig. 7, so that the driving air line (9) to the turbine (8th ) continued The return air flows through a line which, in the illustration according to FIG. 7, is covered by the motive air line (9) and which opens at the end of the neck part (2) to the right of the O-ring (12). This O-ring runs at Assembled 15 tool holder between the recesses (13, 14), so that the return air in the recess (14) and from there reaches the line (15), which is released from the longitudinal slot (24) in the position according to FIG. 3a. In the position of the adjusting ring (7) according to FIG. 3b, the driving air line (6) is released, which leads to the motor (5). At the same time, the return stroke can flow out through one of the lines (14) through the longitudinal contactor (24) in the adjusting ring (7). In the position according to FIG. 3c, the motive air line (6 ') is released and the direction of rotation of the motor (5) is reversed. In the position according to Fig. 3d, the propellant air is shut off. In addition to the propellant air lines, the alternative action of which is the subject of the invention, there are wobbly lines in the handle part (1) (FIG. 5), which will be described briefly below, since their structural placement is a requirement for the practicality of the invention. The light guide (19) for the light coming from a light source (20) (FIG. 2) 25 thus runs on the underside of the handle part (1). The cooling water line (17) runs on the left side of the handle part (1) and the cooling air line (18) runs on the right side. These lines continue to the tip of the handle part (1), where their branches cross, so that a cooling spray is formed in a known manner. 30 PATENT CLAIM 35. Dental handpiece, with a handle part which contains a motor to which a propellant air line which is flow-controlled by means of an adjusting ring arranged on the handle part leads, and a head part which can be connected to the handle part via a neck part and which carries a rotating tool, characterized, 40 that the handle part (1) contains an additional propellant air line (9) which leads to the point where the grip part (1) and neck part (2) are located, and that through the adjusting ring (7) the propellant air can optionally be fed into one of the two propellant air lines (6, 6 'or 9) 45 can be initiated 3 sheets of drawings -3-