DE7902514U1 - Dental treatment instrument driven by a slowly rotating air motor - Google Patents

Description

HOFFMANN "EITLE'iS PARTNER

PATENT LAWYERS DR. ING. E. HOFFMANN (1930-1974). DIPL-INO. W.EITLE DR. RER. NAT. K. HOFFMANN D I PL.-I NG. W. LEH N

DIPL.-ING. K. FDCHSLE DR. RER. NAT. B. HANSEN ARABELLASTRASSE ^ ISTERNHAUS) · D-8000 MÖNCHEN 81 · TELEPHONE (089) 911087 · TELEX 05-2961? (PATH E)

31 685

üshio Kogyo Co., Ltd., Aichi-gun, Aichi-ken / Japan

Instrument driven by a slowly rotating air motor for

Dental treatment

The invention relates to a slowly rotating motor-driven dental treatment instrument, and relates to in particular a hand instrument for dental treatment that has a slow-running motor for operating instrument inserts for dental treatment, e.g. for grinding, drilling or polishing teeth.

Such instruments must be light in weight so that they can be easily operated by a dentist; so that the patient does not get startled or feel uncomfortable, they should only have a low level of noise; furthermore, they must be operationally reliable, and in the event of one

error that occurs can be easily repaired.

A distinction is made between two types of such hand instruments, where one with a slow running motor (around 5,000-13,000 rpm) and the other with an extremely fast one running motor (about 200,000 - 500,000 rpm) is driven. Ordinary hand instruments for dental treatment with a slow running air motors have several disadvantages. For example, it is difficult to find a housing eccentrically disposed cylinder, whereby one cannot obtain an accurate operation and alignment. Furthermore, since a large flow resistance in the air ducts is unavoidable in the usual constructions, can The low speed of rotation of the air motor does not result in sufficient torque for drilling the teeth obtain. It is therefore in order to be as high as that required for the operation of the instrument insert for dental treatment Rotary man uses a small air turbine motor that goes with rotates at extremely high speed. The high speed of rotation obtained in this way was determined by means of a reduction E.g. a planetary gear, geared down as required to operate the instrument insert. Corresponding Mubten the ordinary instruments with one with a rotor axis of the air motor provided in the handle connected reduction gear with which a chuck for clamping and holding the instrument insert, such as a grinding insert. In other words, the rotor of the Air motor and the chuck are separated from each other in such a way that that a reduction gear is arranged between the two.

Since the reduction gear is housed in the handle, the handle is correspondingly voluminous and has a high Weight so that the handling of this instrument for the

Dentist is not beneficial. Since the reduction gear continues to generate noise, the patient will be frightened or uncomfortably touched. Furthermore, such a reduction gear is a frequent cause of malfunctions and frequent repairs.

It is therefore the object of the invention to develop an instrument of the type mentioned in such a way that by means of a Slow running air motor generates high torque without a reduction gear, i.e., an instrument too create in which the rotor axis of the air motor is connected to the chuck, making the disadvantages more common Instruments should be avoided.

This task is accomplished by an instrument for dental treatment with a handle, consisting of an air motor and a chuck for clamping an instrument insert for dental treatment, such as a grinding or Drill bit, in a concentric position to the rotor of the motor, containing the housing, which has a front and a rear chamber, the front chamber having a plurality of elongated protrusions on the periphery of the inner surface of the housing formed air supply channels and outlet channels and one in the front chamber eccentrically arranged cylinder with air inlet openings and air outlet openings, which the air supply ducts and associated with the exhaust passages, comprised by a rotor rotatably disposed in the cylinder having a rotor shaft extending from the housing and through a valve tube secured in the rear chamber with a thereby extending supply channel and an outlet channel, which with the air supply channel and the outlet channel the front chamber are in communication, wherein a supply hose and an outlet hose with the supply channel and the outlet channel are in communication, solved.

The instrument insert, 'such as a grinding or polishing insert, are directly with the rotor shaft by means of a chuck or by means of a transmission shaft in one angled handle connected.

The valve tube is operatively mounted in the rear chamber of the housing so that it is set in three positions can be, i.e. in a normal position in which the air supply duct and the exhaust duct in the valve tube with the The air supply duct and the outlet duct are aligned in the front chamber; a closed position in which the Channels are closed by means of the rear end face of the housing; and a reversal position in which the air supply duct in the valve tube with the outlet channel in the front chamber and the outlet channel with the air supply channel in the anterior chamber is connected.

The normal position is for operating the instrument during normal treatment, while the reverse position is used by a dentist working with the left hand or when the instrument insert is from the Rotor shaft is separated.

The rotor provided in the cylinder has radial recesses on its outer surface in which Sliders are slidably inserted. The rotor also has bypasses for introducing compressed air into the bottoms of the Recesses on the air supply side, i.e. in the front position of the slide, so that the rotation of the slide can be accelerated.

For a dental treatment with the instrument according to the invention, compressed air is fed from the valve tube into the air channel of the housing and then pressed through the inlet openings into the cylinder, causing the rotor through the discharge the energy of the compressed air is turned on the slide.

When the rotor turns, the compressed air flows from the im | Cylinder provided outlet openings through the outlet ι channels back. f

The rotation of the rotor shaft is transmitted directly to the shaft of the
Instrument insert or via an angled \

Handle provided shaft on the instrument insertζ \

transferred so that the insert moves with a rotor \

can rotate at the appropriate speed.

Since, according to the invention, the inner surface of the housing by means of projections of different heights channels
are provided, the air can 1

stood flowing through these channels. Further, a cylinder j of uniform wall thickness can be eccentric with respect to the; Housing can be placed within the rows of projections extending from the housing, thereby allowing the cylinder to operate and align more precisely than that at
ordinary cylinders with non-uniform wall thickness for eccentric arrangement in relation to the housing,
is possible. This reduces air loss
and the rotation efficiency is improved accordingly.
In this way one can achieve a high torque of the rotor j

obtained at low speed of rotation. |

It therefore does not need a high speed motor
to be provided with a reduction gear, as in
ordinary instruments. Since the rotational energy can be transferred directly to the instrument insert, the instrument insert can with a high
Torque can be rotated at a speed synchronous with the rotor, eliminating the need for a reduction gear
necessary is.

In this way, a weight reduction is advantageously

and a shortening in length compared to ordinary Instruments with reduction gear reached.

Since no reduction gear is required / will continue the number of components is reduced. This makes the instrument easier to manufacture and less operational prone to failure. Furthermore, no disturbing noises are generated.

Because bypasses to introduce additional air into the ends the slide recesses are provided, the starting process of the rotor is accelerated, which is a further increase of the torque as a result.

An embodiment of the invention is shown in the drawing and is described in more detail below. It demonstrate:

a perspective view of an instrument for dental treatment;

a longitudinal section of the instrument with the clamping chuck released;

a section ΙΙΙ-ΙΪΙ according to FIG. 2; a section IV-IV according to FIG. 2; a longitudinal section of the instrument with the chuck closed;
a section VI-VI according to FIG. 5; a section VII-VII according to FIG. 5; a section similar to that of FIG. 3, but which shows the reversal position of the rotor; a section similar to that of FIG. 4, which again shows the reversal position of the rotor; a section similar to that of Figure 6, but showing the closed position; and is a perspective view of another embodiment of the invention showing the instrument in FIG

• Ifllltt · - ···! - -.

Fig. 1 Fig. 2 Fig. 3 Fig. 4th Fig. 5 Fig. 6th Fig. 7th Fig. 8th Fig. 9 Fig. 1C Fig. 11th

'- 1Q' - "■

Connection with an angled handle shows.

1 shows a treatment insert B, the shaft b of the tool section b ^{1 of} the instrument insert, such as a grinding or polishing element, of which is detachably connected to an air motor arranged in the handle A.

The handle A consists of an injection-molded one cylindrical housing 10, which is held by the hand of the dentist roughly like a fountain pen and contains the air motor. The air motor consists of one. cylinder 2, a rotor 3, a stop 4 and a valve tube 5 (see Fig. 2).

The housing 10 has a smaller front section 10 ', which by means of a partition wall 11 from the main section of the housing 10 is separated. The partition 11 is in its middle section with an opening for a rotor shaft 3 ' Mistake.

The housing 10 is provided on its surface with a plurality of longitudinally extending projections 13 so that it does not slip in the hand of the dentist. Within the housing 10, a front chamber a and a rear chamber a 'are formed, which are separated from each other approximately half the length of the housing. The rear chamber a ¹ is designed concentrically with the housing 10, ie the inside of the round surface of the housing forms the chamber a ¹ (see FIG. 4). A plurality of projections 14 of different heights extend from the inner surface of the housing in the front chamber a, so that a space eccentric to the housing 10 is formed within the projections in the front chamber a. Deeper and shallower recesses are provided between the projections 14 and serve as air supply channels 6 and outlet channels 7, respectively.

- 11 -

• t ·

- 1V -

The inner surface of the front chamber a is provided on its eccentric side with a small projection 14 ', so that a groove 16 of the cylinder 2, which is arranged in the round space 15, can be brought into engagement with the projection 14' (see Fig. 3). A protrusion 14 ″ is on the inner surface of the housing for securely attaching a ^{stop provided in the rear chamber a 1} to the housing 10
intended.

The cylinder 2 provided in the round space 15 has air inlet openings 8 connected to the air supply ducts 6 or air outlet openings 9 connected to the outlet ducts 7. The recess 16 of the
Cylinder 2 is connected to the projection 14 'of the housing 10, whereby a free rotation of the cylinder 2 is prevented.

The stop 4 is attached to the end portion of the cylinder 2 by means of the projection 14 ″. The stop 4 has a
central opening 17 which is formed concentrically with the housing 10 (see Fig. 4).

A rotor 3 is provided in the cylinder 2. The rotor 3
has a front protruding rotor shaft 3 'and a rear rotor shaft 3 "which extends through the opening 12 and 17 concentrically to the housing 10 (see FIG. 2).
The rotor is rotatably supported in bearings 18 and 19. Of the
The rotor is on its surface with radial recesses
20 provided, in which slide 21 are slidably inserted. The slides 21 are pressed more or less deeply into the recesses 20 in accordance with the rotation of the rotor 3.

The stop 4 is pressed against the projections 14 and the rear surface of the cylinder 2 by means of a valve tube 5, thereby preventing the cylinder 2 from falling out

- 12 -

* ■ 12.-

and the recesses are closed. The stop 4 is itself attached by means of the valve tube 5 and is prevented from rotating by means of the projection 14 ″. The stop 4 is provided with channels 22 and 23, which are provided with the air supply channel 6 and the outlet channel 7 are in communication and an inlet opening 22 'and an outlet opening 23 '. On the front of the stop 4 channels 24 are provided, which with the recesses 20 of the rotor 3 are connected and via the bypass 24 · turn are connected to a channel 23.

The valve tube 5 consists of a slidable in the rear chamber a ^! and washer 5 'attached to the end of a section 5 ″, the section or the sleeve 5 ″ extending with its smaller part into the housing 10. As can be seen in FIG. 2, a cap 25, which is screwed into the housing 10, is placed on the extending portion 5 ". In this way, the front of the cap 25 fixes the disc 5 'by means of a seal 25'.

The extending section 5 ″ further has a ring 26 via which a connecting nut 27 is fastened in such a way that the valve tube 5 can be rotated 'and 29' are connected. The connections 28 'and 29' are provided so that when one connection 28 'is in communication with an inlet port 22', the other connection 29 'is in communication with the outlet port 23' (normal position, FIG. 4) When the disk 5 ^{1 is} rotated and the connection 28 'is in communication with the outlet opening 23', the other connection 29 'is in communication with the inlet opening 22' (reverse position, FIG. 9) , and that, in a middle Position, the connection 28 'is not connected to any of the openings 22' or 23 '(closed position, FIG. 10).

- 13 -

To achieve a precise alignment of the connections 28 ', 29', one of the pins 30, 30 'provided so that it comes into engagement with an edge of the connection 29' (see FIG. 4), so that the normal or can set the inversion of the channels. For this purpose, on the handle 27 and the cap 25 is a Setting display provided for the normal, reverse or closed position. The channels 28 and 2 9 are with a Air hose 31 for supplying the compressed air or provided with an outlet hose 32.

The compressed air fed into the air duct 28 via the hose 31 flows via a connection 28 ', an inlet opening 22 ', a channel 22 and the air supply channel 6 in the cylinder 2 (see Fig. 2). Be inside the cylinder 2 the slide 21 and thus the rotor 3 is moved by means of the compressed air. The air then flows from the air outlet opening 9 via the outlet channel 7, the channel 23, the outlet opening 23 ', the connection 29' and the channel 29 in the outlet hose 32 (normal position, Fig. 4). The continuously supplied compressed air rotates the rotor 3 and thus the rotor shaft 3 ', which is formed in one piece with the rotor 3 is.

A portion of the air discharged into the duct 23 can enter the recess 20 via the bypass 24 ′ and the duct 24 of the rotor flow on the side of the air supply duct, so that the rotation of the slide 21 is accelerated.

When the valve tube 5 in the reverse position (Fig. 9) by Operation of the connecting nut 27 is set, the air supplied from the air hose 31 flows into the air duct 28, through the connection 28 ', the outlet opening 23', the Channel 23, the outlet channel 7 and the air outlet opening 9 in the cylinder 2, so that the rotor 3 in the reverse Direction is rotated. In cLar reverse position flows

the air from the cylinder through the air inlet port 8, the air supply channel 6, the channel 22, the outlet opening 22 ', the connection 29 'and the duct 29. In the reverse position, the air can also pass through the bypass 24' and the duct 24 get into the recess 20 to accelerate the rotation of the slide 21.

A chuck 40 for arranging an instrument insert B is provided on the handle A. The rotor shaft 3 ¹ extends from the narrower or front part 10 'of the housing and ends in a sleeve 41 with an external thread into which the shaft of the instrument insert B is in turn inserted.

The rotor shaft 3 'runs transversely at one point directly behind the sleeve 41 is a pin 43. A sleeve 45 with an internal thread is screwed onto the sleeve 41 with an external thread and a locking sleeve 44 attached. A clamping sleeve 46 is fastened on the sleeve 45 with an internal thread. On the narrower housing 10 ', a clamping ring 48 is screwed on, which is fastened by means of a locking screw 49 and the rotor shaft 43, the locking sleeve 44, the sleeve 45, etc. covers.

The locking sleeve 44 with a stop 52 is pressed forwards by means of a spring 50. When the locking sleeve 44 moved backwards, a tooth 51 provided in the locking sleeve 44 comes into engagement with the pin 43. The inside of the front end of the sleeve 45 is provided with a beveled surface 53 so that it can with the end of the Sleeve 41 matches.

The clamping sleeve 46 has a tooth 54 ', which with a tooth 54 of the sleeve 45 and projections 55 come into engagement, which slide through an opening 56 provided in the cap 47 can.

When the collet 48 is pushed back with your finger is, the clamping sleeve 46 and the locking sleeve 44 are pressed, whereby the tooth 54 'of the clamping sleeve 46 with the tooth 54 of the internally threaded sleeve 45 engages, while the tooth 51 of the locking sleeve 44 engages with the pin 43 comes. The stop 52 of the locking sleeve 44 also comes into engagement with the opening 56 of the cap 47. Accordingly prevents rotation (see Figs. 5-7).

When the collet 48 is rotated, the rotor shaft 3 "is locked by engagement of the locking sleeve 44, the pin 43 and the cap 47, and the internally threaded bushing 45 is screwed onto the externally threaded bushing 41 of the locked rotor shaft 3 ^!, Thereby causing that the sleeve 45 moves backwards. When the collet 48 is rotated in the reverse direction, the internally threaded sleeve 45 moves forward on the externally threaded sleeve 41.

When the sleeve 45 moves backwards, the abraded Surface 53 is pressed over the sleeve 41 so that the shaft b is connected to the sleeve 41. When the sleeve 45 is moved forward, the beveled surface 53 is removed from the sleeve 41, so that the shaft b of the Sleeve 41 can be removed.

After the sleeve <* 5 is screwed on, the clamping sleeve 48 turned back, the clamping sleeve 46 and the locking sleeve 44 without additional force from the force of the spring 50 moved back to their original position.

By such a connection of the shaft b of the instrument insert B with the rotor shaft 3 'by means of the chuck 40, the torque of the rotor is applied directly to the shaft b transfer.

- 16 -

■ - 16 "-" ·

11 shows an embodiment of the invention in which the instrument insert B ^{1 is arranged} in an angled handle C. The angled handle C contains a transmission shaft connected to the air motor in such a way that the rotational energy emitted by the rotor of the motor is transmitted to the shaft b of the instrument insert B ¹ can be transferred. That is, the shaft b of the instrument insert B ¹ is inserted into the sleeve 41 of the rotor shaft 3 ¹ by means of the chuck 40 / as described.

Claims (7)

s & ΡΑΤΕΝΤΛΝΛνΑΙ, ΤΕ DR. ING. E. HOFFMANN (1930-1976). DIPL-ING.W.EITLE - DR.RER. NAT.K. HOFFMANN - DIPL.-ING. W. IEHN DIPL.-ING. K. FOCHSLE DR. RER. NAT. B. HANSEN ARAB ELIASTRASS E * [STERNHAUS) · D-BOOO MD NCHEN 81 · TELEPHONE (OB?} 911087. TELEX C5-2? 619 (PATHE) 31 685 üshio Kogyo Co., Ltd., Aichi-gun, Aichi- Ken / Japan Instrument for dental treatment, driven by a slowly rotating air motor 1. Instrument driven by a slowly rotating air motor for dental treatment, characterized by a handle (A) consisting of an air motor and a chuck (40). Clamping an instrument insert for dental treatment, such as a grinding or drilling insert, arranged concentrically to the rotor (3) of the motor Position, containing housing (10) which has a front and a rear chamber (a, a '), the front chamber (a) ti »· i · several air supply channels (6) and outlet channels (7) formed by means of elongated projections (14) on the circumference of the inner surface of the housing (10) and a cylinder (2) arranged eccentrically in the front chamber (a) with air inlet openings (8) and air outlet openings (9) , which are assigned to the air supply ducts (6) and the air outlet ducts (7), by a rotor (3) which is rotatably arranged in the cylinder (2) and has a rotor shaft (3 ¹ ) extending from the housing (10) and by a rear in the chamber (a ¹⁾ fixed to the valve tube (5) with an extending therethrough feed channel (28) un ^<q an outlet channel (29), the front with the air supply duct (6) and the outlet channel (7) of Chamber (a) are in communication, wherein a supply hose (31) and an outlet hose (32) are in communication with the supply channel (28) and the outlet channel (29), respectively. 2. Instrument according to claim 1, characterized in that the elongate projections (14) of different heights are, so that the arranged within the row of projections (14) Cylinder (2) is arranged eccentrically with respect to the housing (10). 3. Instrument according to claim 1, characterized in that the chuck (40) for an instrument insert (B) designed for dental treatment for fastening or releasing the instrument insert (B) by means of simple finger operation is. 4. Instrument according to claim 1 _r, characterized in that the shaft (b) of the instrument insert (B) can be ^{fastened directly to the rotor shaft (3 1} ) by means of the chuck (40). 5. Instrument according to claim 1, characterized in that an angled handle (C) with the front of the - 3 - • I · Housing (10) is connected, and that the angled handle (C) contains a gear shaft which is connected to the rotor shaft (3 ¹ ) and the instrument insert (B ¹ ). 6. Instrument according to claim 1, characterized in that the rotor (3) is provided with radial recesses (20), in which slides (21) are slidably inserted, and that bypasses (24 ') for supplying compressed air into the bottom of the Recesses (20) on the air supply side, i.e. at the front position of the slide (21) in the recesses (20) are. 7. Instrument according to claim 1, characterized in that the ^{valve tube (5) fixed in the rear chamber (a 1} ) can be operated in such a way that the air supply channel (6) in the front chamber (a) with the outlet channel (29) in the valve tube (5) and the outlet channel (7) in the front chamber (a) is connected to the feed channel (28) in the valve tube (5) for reversing the direction of rotation of the rotor (3).