SE429816B - DENTAL INSTRUMENTS OF HAND TYPE DRIVEN BY LOW-LONG AIR ENGINE - Google Patents

Description

7992168-9 of the handpiece of the instrument located in the air motor, and a chuek or a holder must be connected to said gear device for holding the tools of the dental instrument, such as e.g. may be a toothbrush or a toothpick tip. In a conventional dental instrument, the rotor and the ohuek of the air motor are located at a distance from each other, a deceleration means being located between them.

Since a gear device must fit in the handpiece, the latter must be bulky, and the handpiece must be heavy, which in turn means that it becomes inconvenient for the dentist to handle the instrument. Furthermore, since the gear device gives rise to gear rattling, a patient may become anxious or tense. In addition, faults can occur on the gear unit, whereby this may need to be repaired frequently. The object of the present invention is to provide a dental instrument which is intended to be held in the hand and which is of such a construction that a large torque and a low-speed rotation of an air motor are obtained, whereby no deceleration means is thus required. By thus providing a device where the rotor shaft of the air motor is connected to a chuck, the inconveniences of conventional instruments can be eliminated. The invention will be described in detail in the following with reference to the accompanying drawings, in which rig. Fig. 1 shows a perspective view of a dental instrument designed in accordance with the invention, Fig. 2 is a sectional side view of the instrument according to Fig. 1, the chuck being disengaged in Fig. 2, Fig. 3 being a line along the line III-III in Figs. 2 taken. Fig. 4 is a section taken along the line IV-IV in Fig. 2, Fig. 5 is a side view of a part of the instrument in the longitudinal direction, the chuck of the instrument being locked, Fig. 6 is a section taken along the line VI- Fig. 6 is a section taken in Fig. 5, Fig. 7 is a section taken along the line VII-VII in Fig. 5, Fig. 8 is a section which is similar to Fig. 3 but with the rotor in position for driving in the reverse direction, Fig. 9 shows a section similar to the section according to Fig. 4 but with the rotor 1 in the downward position, Fig. 10 is a section similar to the view according to Fig. 6 but showing the closed position, and Fig. 11 is a perspective view of another embodiment of the invention, the instrument being shown used in conjunction with an angled holder.

According to the invention, there is provided a dental instrument intended to be held in the hand and actuated by a low speed air motor, said instrument in combination comprising a handpiece formed of a housing containing an air motor, and a chuck having the function of holding a dental treatment tool, such as a drill or grinder, in one with a rotor in the engine in a conecentric position. The housing is provided with a front chamber and a rear chamber, and said front chamber includes a plurality of air supply ducts and outlet ducts defined by longitudinal projections arranged around the inner surface of the housing. A cylinder is located eccentrically in the front chamber and is provided with air inlets and air outlets corresponding to said air ducts. A shaft rotatably mounted in the cylinder projects out of the housing. Furthermore, there is a valve pipe, through which air supply and outlet ducts extend and are in communication with said ducts which are located in the front chamber. The valve pipe is mounted in the rear chamber, and air «supply» and outlet hoses are in communication with said air supply duct resp. said outlet duct.

A dental tool, such as an element for drilling, grinding or polishing, is connected directly to the rotor shaft by means of a hook or by means of a transmission shaft located in an angled holder.

The valve tube or valve line is operatively mounted in the rear chamber of the housing in such a way that it can be set in three positions, namely a normal position or rest position where the air supply and outlet ducts, which are located in the valve, are connected to the air supply resp. . outlet ducts arranged in the front chamber, further a closed position, in which the ducts are closed by the rear end surface of the housing, and a position for directional reversal, the supply channel in the valve being connected to the outlet duct in the front chamber, while the outlet duct in the valve is connected to the supply chamber in the front duct.

The normal position is the position in which the instrument should operate during normal treatment, while the direction reversal position is a position used by a left-handed dentist or at a time when the instrument tool has been removed from the rotor shaft.

The rotor arranged in the cylinder is provided on its outside with radial grooves, into which wings are slidably inserted. Furthermore, the rotor is provided with branches for introducing compressed air into the bottom of the grooves at the air supply side, ie when the wings are in their upper position, this so that the rotation of the wings can be accelerated.

When it comes to treating a tooth by means of the instrument according to the invention, compressed air from the valve duct is forced into the air duct in the housing, after which said air is fed through inlet into the cylinder and causes the rotor to rotate by exposing the wings to air pressure. As the rotor rotates, air will flow out of the outlets to the outlet arranged in the cylinder. in The rotation of the rotary shaft is transmitted directly to the shaft of the dental tool or is transmitted through a shaft which is connected to the dental tool via an angled holder so that the dental tool may rotate at a speed equal to the speed of the rotor.

Since air ducts are arranged around the inner surface of the housing by means of projections, the height of which varies in relation to each other, according to the invention air will flow calmly through the ducts without being weakened as a result of flow resistance. Furthermore, a cylinder, the wall of which has a constant thickness, can be located exoentrically in relation to the housing without a series of projections protruding from the housing, and more accurate operation and positioning of the cylinder can be performed than in the case of the conventional cylinder. whose wall thickness should not be constant, so that the cylinder can be placed eccentrically with respect to the housing.

The air losses will thus be reduced, which means that the overall rotational efficiency will be improved. Thus, a large torque of the engine can be achieved at low speed. As stated above, it is not necessary to drive the motor at high speed, nor to retard the rotational speed as is the case with conventional devices. Since the low-speed rotor energy can be transmitted directly to the bone handling means, the treatment tool can rotate at a large torque and at a speed synchronous with the rotor, so that no gear device for downshifting the speed is needed.

The instrument according to the invention may have a low weight and may be of short length in comparison with a conventional instrument which is provided with a deceleration device.

Since no gear is used, the number of elements forming the instrument will be reduced. This means that it becomes easier to manufacture the instrument and that no problems arise in connection with any gear device. There is also no risk of disturbing gear rattling.

Furthermore, since further air branches are also provided for the introduction of additional air into the ends of the grooves of the wings, the start of the rotor will be accelerated, whereby the torque is further enhanced.

In the attached drawings is fig. In a view showing a treatment tool B, which consists of a shaft b oon of the treatment part b 'itself, for example a drill or a plastering element, said treatment tool being releasably connected to an air motor included in a handpiece A.

The handpiece Å is formed of a cast cylindrical housing of such a size that the handpiece can be easily gripped by a dentist's hand in the same way as a fountain pen. The air motor is included in the handheld A and consists of an cylinder 2, a rotor 3, a latch 4 and a valve tube 5, as shown in Fig. 2.

The housing 10 has a front portion 10 * which is separated from the main portion of the housing by a partition wall 11. This partition wall 11 is provided at its central portion with an opening for a rotor shaft 3 ”. ïèea fi es-9 The housing 10 is provided with several longitudinal projections on its surface so that it does not slip off when the dentist grasps it. In the housing 10 there is a front chamber a and a rear chamber a ', the housing being divided at a position corresponding to approximately half its length. The rear chamber a 'is concentric with the housing 10, i.e. the inner round surface of the housing forms the chamber, as shown in Fig. 4. A number of projections 14, which have different lengths, project into the front chamber 2 from the interior of the housing. surface, and thus a round space 15, which is eccentric with respect to the housing 10, will be formed within the row of these projections 14 in I n G., the front chamber. Between the projections 14 there are grooves, among which grooves deeper such serve as air supply ducts 6 while shallower grooves serve as outlet ducts 7.

As can be seen from Fig. 3, the inside of the front chamber a is provided at its eccentric side with a small projection 14 'so that a groove 16 of a cylinder 2 arranged in a round space 15 mentioned in 1 can engage with the projection 14'. As can be seen from Fig. 4, a projection 14 "is further provided on the inner surface of the housing for fixing a latch 4 contained in the rear chamber a 'firmly at the weekend: io. The said cylinder 2 arranged in the round space 15 is with air openings 8 adjoining the air ducts 6 or with outlet openings adjoining the outlet ducts 7. Since the grooves 2 of the cylinder 2 engage with the projections 14 'of the housing 10, the cylinder 2 will be prevented from turning freely.

The latch 4 is mounted in the end portion of the cylinder 2 and is fixed by means of the projection 14 ". The latch 4 is provided with a central opening 7 which is connected to the housing 10 (Fig. 4).

A rotor 3 is located in the cylinder 2 and has a projecting rotor shaft 5 'at its front part and a projecting rotor shaft 3 "at its rear part, these projecting shafts passing through their respective apertures 12 and 17, respectively, concentrically in relation to the housing 10 (Fig. 2) The rotor is rotatably mounted in bearings 18 and 19, and it is provided on its surface with radial grooves 20, into which the wings 21 are slidably inserted.The wings 79Û2ä68 ~ 9 1 21 pushed more or less deep into the grooves 20 corresponding to the rotation of the rotor 5.

The latch 4 is kept pressed against the projections and the rear surface of the cylinder 2 by means of a valve tube 5, which results in the cylinder 2 not being able to fall off and in the grooves being kept closed.

The latch 4 itself is held fixed by the valve tube 5, and it is prevented by the projection 14 "from turning. The latch 4 is provided with channels 22 and 23 which communicate with each of the air ducts 6 and the outlet ducts 7 and which open at an inlet 22 'and an outlet 23'. At the front part of the barrier 4 there are channels 24 which communicate with the groove 29 of the rotor 3 and which communicate via branches 24 'with a channel 23.

The valve tube 5 consists of a disc 5 'which is slidably arranged in the rear chamber a' and extends towards the end of a portion 5 "of smaller size from inside the housing lü.

As can be seen from Fig. 2, a lid 25 is connected to the projecting portion 5 "by entry into the housing 10. Hereby the front part of the lid 25 fixes the disc 5" by means of a gasket '. The projecting portion 5 'is provided with a ring 26, over which an operating knob 27 is mounted so that the valve 5 can be rotated. The portion 5 "is further provided with an air duct 28 and an outlet duct 29 which are connected to connections 28 'and 29', respectively. These connections 28 'and 29' are arranged so that when one connection 28 'corresponds to an inlet 22 ', the second connection 29' will correspond to an outlet 23 'in the position, Fig. 4) .When further the disc 5 is rotated and one connection 28' corresponds to the outlet 23 ', the other connection 29' will correspond to the inlet 22 '( In the intermediate position, the connection 28 'does not correspond to any of the openings 22' or 23 '(closed position, Fig. 10) 1 In order for the exact position setting of connections »na 28' ooh 29 'is to be made is one of the pins BO or' so arranged from the end of the latch 4 that it engages with an edge portion of the connection 29 ', as shown in Fig. 4, whereby setting of the rest position of the channels or the position of 7 @@ 216s «9 Go direction reversal can sßei In this context, it should be mentioned that a settingi indication, which shows the normal position, the directional reversal position or closed position, is arranged on the control knob 27 and the cover 25. The ducts 28 and 29 are connected to an overhead line or air hose 31 for supplying compressed air resp. to an outlet line or outlet hose 32.

Compressed air is fed into the air duct 28 from an air hose 31, and flows through a connection 28 ', an inlet 22', a duct 22 and ducts 6, 6, from which it flows into a cylinder 2, as shown in Fig. 2. In the cylinder 2 the air moves so that the wings 21 are caused to rotate, whereby the rotor 3 is caused to rotate. The air then comes out of the outlets 9, 9 and flows back through the outlet ducts?, 7, a duct 23, the outlet 23 ', a connection 29', a duct 29 and in 1 an outlet hose (Fig. 4). The continuous air supply causes the rotor 3 to be rotated, 2 which also applies to the rotor shaft 3 "integrally formed with the rotor 3.

A part of the air in the outlet duct 23 can flow via the branch 24 and the duct 24 'into the rotor grooves 20, 20 on the air supply duct side, whereby the rotation of the wings 21 accelerates. When the valve tube 5 is set to the direction of reversal {fig. 9) by actuating the knob 27, air fed from the air hose 31 into the air supply duct 28 will flow through the duct 28 ', the outlet 23', the outlet duct 23, the ducts 7, 7 and the openings 9, 9 into the cylinder 2 so that the rotor 3 is caused to rotate in the opposite direction to the direction mentioned above. In this directional reversal moment, the air from the cylinder openings 8, 8 passes the ducts 6, 6, the duct 22, the inlet 22 ', the connection 29' and the duct 29. The air may possibly come into the groove 20 also during this reversal of direction via the branch 24 and the channel 24 'so that the rotation of the wings 21 is accelerated.

A chuck 40 is connected to the above-mentioned handpiece A and can be provided with an instrument tool B. From the smaller housing 10 'a rotor shaft 3' protrudes, which carries a cylindrical member 41, into which in turn a axel_hos tool ~ fabric B is introduced.

A pin 43 penetrates the rotor shaft 5 'in the transverse direction at a position immediately behind the cylindrical member 4. A locking member 44 is connected, and a nut 45 is screwed over the member 41. A locking member 46 is mounted on the nut 450. lock 48 is screwed into the smaller housing 10 'and is fixed by a screw 49 and covers the rotor shaft 3', the locking member 44, the nut 45, etc., the locking member 44, which is provided with an axial stroke y ây pressed forward by a spring 50. When the member 44 moves backwards, a tooth 51 arranged in said member 44 acts to engage with the pin 4§. the inside of the front end of the nut 45 is bevelled, as marked by the reference numeral 53, and said end thus adjoins the end of the cylindrical member 41.

The locking member 46 is provided with a tooth 54 'which engages a tooth 54 on the nut 45, together with arms 55, which can slide through a recess 56 arranged in the lid 47.

If the locking ring 48 is pushed backwards by a finger, the locking member 46 and the locking member 44 will also be pushed, the locking member 46 'of the locking member 46 engaging with the tooth 54 of the nut 44, while the tooth 51 of the locking member 44 engages the pin 43. The arm of the locking member 44 52 further engages the opening 56 of the lid 47. Rotation will thus be prevented. (Compare Figs. 5-7).

Here the lock 48 is rotated, the rotor shaft 3 'will be locked through the engagement between the locking member 44, the pin 45 and the cover 47, whereby the cylinder nut 45 is screwed onto the cylinder 41' of the locked rotor shaft 3 ', which causes the nut 5 to move backwards. the cylinder nut 45 moves forward on the cylinder 41.

As the nut 45 moves backwards, a bevelled cylinder 51 'will be pressed over the cylinder 41 so that the shaft b is connected to the cylinder 41. As the nut moves forwards, the bevelled cylinder 55 will be released from the cylinder 41 so that the shaft

Claims (1)

79e21ss ~ 9 10 b can be removed from the cylinder 41. If the locking ring 48 is turned back when the nut 45 has been turned, the locking means 46 and the locking means 44 will return to the initial position without any additional force having to be applied, namely by the pressing force of the spring 50. By connecting the shaft b of the tool B to the rotor shaft 3 'in this way by means of the chuck 40, the driving force of the rotor can be transferred directly to the shaft b. Fig. 11 is a view showing the tool B' inserted into a per se known, angled tool holder C. The angle = bent tool holder C contains a transfer shaft connected to the air motor, so that torque transmitted from the motor rotor can be transmitted to the tool B '. The shaft b of the tool is thus inserted into the cylinder 41 of the rotor shaft 3 'by means of the chuck 40, as has been mentioned above. Claim 1. A hand-type dental instrument driven by a low-speed air motor, characterized in that it comprises, in combination, a handpiece consisting of a housing (10) containing an air motor, and an ohnck (40) is arranged to hold a dental treatment means, such as a drill or a plaster tip, in a position cononentric with a rotor (3) of the motor, that said housing (10) has a front chamber (a) and a rear chamber (a ') , said front chamber (a) 'including a plurality of air supply ducts (6) and outlet ducts (7) delimited by longitudinal projections, which are arranged around the inner surface of the housing (10), that a cylinder (2) is located eccentrically in the front chamber (a) and is for "seen with air inlets and air outlets corresponding to said air ducts, said rotor (3) is rotatably mounted in said cylinder (2) and is provided with a rotor shaft sonl shooter from the housing (10), that a valve pipe (5) is passed through by the air supply (28) and u flow channels (29) communicating with said channels (6, 7) arranged in the front chamber (a), said valve tube (5) being mounted in the rear chamber (a '), and that air supply ( 31) and outlet lines (32) communicate with said air supply- (28) 79Û§f.'í68-9 11 resp. outlet channels (29) §f 0 Instruments according to trot 1, characterized in that the longitudinal projections have different lengths in relation to each other so that the circular cylinder (2), which is located within the row of projections, is arranged eccentrically. in relation to the housing (10). An instrument according to claim 2, characterized in that said chuck (40) has such a design that the action member can be fixed or released by the chuck (40) being actuated by means of a simple finger moment. 4. An instrument according to claim 1, characterized in that the shaft of the dental treatment means is arranged to be fixed, directly at the rotor shaft by means of said chuck (40). 5. An instrument according to claim 1, characterized in that an angle-bent holder is connected to the upper part of the housing (10) and that the angle-bent holder contains a transmission shaft which is connected to the rotor shaft and to the dental treatment means. 6. An instrument according to claim 1, characterized in that the rotor is formed with radial grooves, into which wings (21) are slidably inserted, and that branches are arranged for introducing compressed air at the bottom of said groove on the air to the supply side. , ie when the wings (21) in the grooves are in their upper position. 7. An instrument according to claim 1, characterized in that the valve tube (5) mounted in the rear chamber (a ') is actuatable in such a way that the air supply duct in the front chamber (a} corresponds to the outlet ducts in the valve and that the outlet duct in the front chamber (a) corresponds to the supply duct in the valve, so that the rotor body is driven with directional reversal.