DENTAL INSTRUMENT FOR REMOVING FRACTURED ROOT CANAL INSTRUMENTS

Abstract

An instrument for removing fractured root canal instruments, comprising an instrument housing formed hollow at least at its front end portion, a slide which is non-rotatably held on the instrument housing but guided for translational movement in an axial direction, a threaded rod which is fixed to the slide and is engaged with a counter thread of the instrument housing or a counter member held on the instrument housing, so that a relative rotational movement between the threaded rod on the one hand and the instrument housing and/or the counter member on the other hand results in an axial displacement of the slide, and fastening means for fastening a wire to the slide, wherein the hollow instrument housing is open towards its front side, so that a wire can be guided through the open front side into the instrument housing and therein to the fastening means.

Claims

1. Instrument (0) for removing fractured root canal instruments, comprising an instrument housing (1) formed hollow at least at its front end portion, a slide (7) which is non-rotatably held on the instrument housing (1) but guided for translational movement in an axial direction, a threaded rod (4) which is fixed to the slide (7) and is engaged with a counter thread of the instrument housing (1) or a counter member held on the instrument housing (1), so that a relative rotational movement between the threaded rod (4) on the one hand and the instrument housing (1) and/or the counter member on the other hand results in an axial displacement of the slide (7), and fastening means for fastening a wire (17) to the slide (7), wherein the hollow instrument housing (1) is open towards its front side, so that a wire (17) can be guided through the open front side into the instrument housing (1) and therein to the fastening means.

2. Instrument (0) for removing fractured root canal instruments according to claim 1, wherein the instrument housing (1) has a windowing (9) laterally so that a wire (17) inserted into the instrument housing (1) through the open front side thereof can be guided outwardly through the windowing (9) again and brought into engagement with the fastening means.

3. Instrument (0) for removing fractured root canal instruments according to claim 1, wherein the instrument housing (1) is tubular and the slide (7) is non-rotatably held in the instrument housing (1) but is guided for translational movement in the axial direction.

4. Instrument (0) for removing fractured root canal instruments according to claim 2, wherein the fastening means are connected to the slide (7) through the windowing (9) of the instrument housing (1) and project from the instrument housing (1) so that they can be actuated from the outside of the instrument housing (1).

5. Instrument (0) for removing fractured root canal instruments according to claim 4, wherein the fastening means comprise a threaded bolt, which is inserted into the slide (7) through the windowing (9) and is fixed, in particular screwed tight, therein, and a locking nut (6), which is screwed onto the end of the threaded bolt projecting from the slide (7), the arrangement being such that a wire (17) can be clamped between the locking nut (6) and the slide (7) to fix it to the slide (7).

6. Instrument (0) for removing fractured root canal instruments according to claim 5, wherein an axial through-hole (12) is formed in the threaded bolt through which a wire (17) can be passed, or in that an annular circumferential groove extending over several turns of the thread of the threaded bolt is formed in the circumferential surface of the threaded bolt for receiving a wire (17) to be fixed to the slide (7).

7. Instrument (0) for removing fractured root canal instruments according to claim 1, wherein the front end of the instrument housing (1) is designed on the outside as an instrument tip (3) in such a way that an attachment in the form of a cannula (18) can be plugged onto the instrument tip (3) and fixed thereto in a clamping manner, for which purpose the instrument tip (3) has a corresponding conicity on the outside, wherein a bore (12) open towards the front of the instrument housing (1) is formed in the instrument tip (3) for the passage of a wire (17).

8. Instrument (0) for removing fractured root canal instruments according to claim 7, wherein the instrument tip (3) is provided with a radially outwardly projecting, axially extending web so that a cannula (18) provided with a corresponding groove can be positioned on the instrument tip (3) in the circumferential direction.

9. Instrument (0) for removing fractured root canal instruments according to claim 1, wherein the threaded rod (4) is connected to the slide (7) in a rotationally fixed manner and engages axially into the instrument housing (1) from the rear side thereof, and in that an adjusting wheel (2) is screwed onto an external thread of the threaded rod (4), said adjusting wheel (2) being held axially fixed to the instrument housing (1) so that a rotation of the adjusting wheel (2) is converted into an axial movement of the threaded rod (4) and thus of the slide (7).

10. Instrument (0) for removing fractured root canal instruments according to claim 9, wherein a holder is attached, in particular screwed tight, to the rear side of the instrument housing (1), through which holder the threaded rod (4) passes axially and in which holder the adjusting wheel (2) is positioned axially fixed.

11. Instrument (0) for removing fractured root canal instruments according to claim 10, wherein the adjusting wheel (2) is axially supported on the holder by a sliding or roller bearing.

12. Instrument (0) for removing fractured root canal instruments according to claim 1 wherein the threaded rod (4) is held axially fixed to the slide (7) but rotatable about its axis, and in particular engages axially into the instrument housing (1) from the rear side thereof, and in that an external thread of the threaded rod (4) is in engagement with a corresponding counter thread of the instrument housing (1) or of a component fixed thereto, so that a rotation of the threaded rod (4) is converted into an axial translational movement of the slide (7), an actuating wheel in particular being provided at the free end of the threaded rod (4).

13. Instrument (0) for removing fractured root canal instruments according to claim 1, wherein the threaded rod (4) is provided with a fine thread having a pitch of 0.2 to 1.2 mm, in particular of 0.4 to 1 mm.

14. Instrument (0) for removing fractured root canal instruments according to claim 1, wherein means are provided for detecting a tensile force acting on the slide (7).

15. Instrument (0) for removing fractured root canal instruments according to claim 2, wherein the instrument housing (1) is tubular and the slide (7) is non-rotatably held in the instrument housing (1) but is guided for translational movement in the axial direction.

16. Instrument (0) for removing fractured root canal instruments according to claim 3, wherein the fastening means are connected to the slide (7) through the windowing (9) of the instrument housing (1) and project from the instrument housing (1) so that they can be actuated from the outside of the instrument housing (1).

17. Attachment for an instrument for removing fractured root canal instruments, which is designed in particular in according to claim 1, wherein with a cannula (18), which has a hollow needle or a hollow shaft and a fastening sleeve, which has a conicity on the inside, provided at an end face thereof for attachment to a syringe or fastening cone of the instrument, wherein the two ends of a wire are inserted into the hollow needle in such a way that a loop (16) is formed at the front end of the hollow needle and the two wire ends (19) project from the rear end of the cannula (18).

18. Wire arrangement for use in an instrument for removing fractured root canal instruments and/or an attachment according to claim 17, wherein the two wire ends (19) are fixed to a needle-like or pin-like guide rod.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0022] FIG. 1 to FIG. 5 show different perspective views of an instrument according to the invention provided with a loop arrangement, as it is shown in FIG. 18,

[0023] FIG. 6 shows a perspective view of the instrument without the loop arrangement,

[0024] FIG. 7 shows the instrument from FIG. 6 from the opposite site,

[0025] FIG. 8 shows the embodiment of FIG. 6 and partly the inside arrangement in dotted lines,

[0026] FIG. 9 shows the arrangement from FIG. 7, wherein parts not viewable from outside are indicated in dashed lines,

[0027] FIG. 10 shows the arrangement of FIG. 6 in a side view,

[0028] FIG. 11 shows the housing of the arrangement,

[0029] FIG. 12 shows the threaded rod with the slide of the arrangement,

[0030] FIG. 13 shows the same arrangement as FIG. 10,

[0031] FIG. 14a shows the adjusting wheel of the arrangement in perspective, and FIG. 14b shows the adjusting wheel in side elevation,

[0032] FIG. 15a shows the bearing for the adjusting wheel of the arrangement in perspective, and FIG. 15b shows the adjusting wheel in side elevation,

[0033] FIGS. 16a and 16b show the threaded rod with the slide 7 of FIG. 12 in perspective views,

[0034] FIG. 17 shows the arrangement of FIG. 13 from the rear side thereof,

[0035] FIG. 18 shows a loop arrangement for the instrument,

[0036] FIG. 19 shows the front part of the instrument with the loop arrangement attached thereto, with a wire 17 clamped between the slide 7 and the locking nut 6,

[0037] FIG. 20 shows the arrangement of FIG. 19 turned by 90°,

[0038] FIGS. 21 to 23 show variants of the instrument in front view, rear view and perspective view,

[0039] FIG. 24 shows the instrument of FIG. 21 in exploded view,

[0040] FIG. 25 shows the arrangement of FIG. 21 in a perspective view, wherein the inner parts of the instrument are indicated as dashed lines,

[0041] FIG. 26 shows an alternative arrangement for a slide in exploded view,

[0042] FIG. 27a shows the variant of slide 7 in front view, and FIG. 27b shows the variant of slide 7 in perspective,

[0043] FIG. 28 shows an alternative embodiment of the adjusting wheel 2 with a roller bearing, and

[0044] FIGS. 29 and 30 show a needle arrangement in front view (FIG. 30) and a sectioned view.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S)

[0045] The tensioning of the wire 17 and thus the closing of the loop 16 is performed by a slide 7, which is moved precisely and continuously by means of a threaded rod 4 via an adjusting wheel 2 in the instrument housing 1. This means that the adjusting wheel 2 does not have to be operated by the dentist himself, but can be rotated by the assistant after the loop has been placed around the fractured instrument to be removed on the physician's order to prevent shaking when the loop is being closed.

[0046] Another aspect of the invention is that the instrument 0, which is preferably made of stainless steel or titanium, allows very fine and continuous adjustment by using a fine thread of the threaded rod 4 having a lifting of 0.4 mm-1 mm per rotation. Its handy size and the shape allow a safe and targeted handling during the high-precision and difficult placement of the loop.

[0047] Another feature according to the invention is the guiding of the slide 7 by the guide block 8 in the rail 11, which prevents a rotation of the slide and ensures precise guidance.

[0048] The possibility of using different attachments (FIG. 18) is essential for the invention. Thus, a large number of different attachment variants can be selected. Cannula length and cannula diameter 18 as well as wire diameter and wire material can be selected according to the individual case. Due to the low-cost attachments, the application is more economical in terms of material costs than with disposable instruments. The preparation of the instrument is not very time-consuming due to the easy exchange of the attachments, which is made possible by the quick fixation of the wire 17 with the aid of the locking nut 6 (FIG. 16 and FIG. 16).

[0049] Design and Function of an Instrument According to the Invention:

[0050] FIG. 1, FIG. 2, FIG. 3 and FIG. 4 show perspective views of an instrument according to the invention with a loop attachment (FIG. 18).

[0051] The attachment (FIG. 18) consists of a very thin wire 17 with a diameter of usually 0.06 mm-0.15 mm, preferably made of stainless steel, which is passed with both ends 19 through a suitable cannula (0.3 mm-1 mm depending on the wire). This creates a very small loop 16 at the tip of the cannula. The cannula 18 can be bent as required to provide good access to the root canal. When placing the attachment (FIG. 18) on the instrument tip 3 (FIG. 6) of instrument 0, the two wire ends 19 are guided through hole 12 (FIG. 8) and then inserted through hole 15 (FIG. 16) of the fixing screw 14. The wire 17 is tensioned slightly, so that the loop contracts slightly, and then fixed with the locking nut 6. Now the loop can be adjusted to the desired size by turning the adjusting wheel 2 (FIG. 6) and closed if necessary. To facilitate the threading of the wire 17, the wire ends can also be attached to a needle or pin-type guide rod 50, which can easily be pushed through hole 12 of the instrument tip 3 and hole 15 of the fixing screw 14 (see FIGS. 29 and 30).

[0052] Instrument 0 has an instrument housing or a housing body 1, which has an elongated windowing 9 and 11 on each side. The windowing 11 serves as a rail and rotation protection and is referred to as rail 11 in the following. Windowing 9 is used for operation, access and fastening of the wire. In the following it will be called windowing 9. In the housing body 1, a very precisely fitting slide 7 runs which is firmly connected with a threaded rod 4. At the side of the slide there is a fixing screw 14 with a hole 15 and the appropriate locking nut 6 for fixing the wire. This part can be operated through the windowing 9. The slide 7 is flattened on this side to avoid a too inclined pulling direction of the wire 17 by a fastening point that is too far of the pulling axis. Furthermore, the front side of the slide 7 is in particular rounded on this side in order to avoid loading of the wire 17 over an edge. On the opposite side of the slide 7, a guide block 8 with two grub screws 10 is attached, which is guided in the rail 11 of the housing body 1 and thus prevents the rotation of slide 7.

[0053] At the rear end of the housing body 1 there is an adjusting wheel 2 with an internal thread. This adjusting wheel is located in an adjusting wheel bearing 5 and guides the threaded rod. The adjusting wheel bearing 5 is screwed into the housing body 1 from behind. By turning the adjusting wheel 2, the threaded rod 4 and thus the slide 7 can be moved back and forth. This allows the loop to be tightened or loosened with the help of the adjusting wheel 2. The adjusting wheel 2 can be supported axially against the adjusting wheel bearing 5 or the adjusting wheel holder by a sliding bearing or a roller bearing 52 as shown in FIG. 28.

[0054] In practice, after the wire 17 has been clamped in, the loop 16 is adjusted to the desired size by the physician using the adjusting wheel 2 so that the loop 16 can be placed around the fractured instrument to be removed. Then, on the physician's order, the assistant turns the adjusting wheel 2 clockwise to close loop 16 without the physician having to remove his concentration from the placement of the loop or risking shaking by his own hand movements.

[0055] An alternative embodiment of an instrument according to the invention is shown in FIG. 21, FIG. 22, FIG. 23, FIG. 24 and FIG. 25. The drawings FIG. 21, FIG. 22 and FIG. 23 show the instrument 20 in different perspective views. FIG. 24 shows an exploded view of the instrument.

[0056] In this variant of the instrument 20 according to the invention, there is no rigid connection between the threaded rod 29 and the slide 25, but they are connected to each other via a joint. The threaded rod 29 is connected via the shaft 28, which is supported in the bore 25b, with a rotation degree of freedom to the slide 25, which is protected against rotation by the guide block 23. The shaft 28 is fixed with a counter screw 25a. The threaded rod 29 is guided by a guide nut 22 attached to the rear housing body 21. By turning the adjusting wheel 30 rigidly connected to the threaded rod 29, the slide 25 can be moved back and forth. The other functions and design of the alternative instrument variant 20 corresponds as far as possible to instrument 0 according to the invention.

[0057] FIGS. 26 and 27 show an alternative variant of slide 7 and 25. This slide 31, hereinafter referred to as the tension measuring slide 31, offers the possibility of measuring the tensile force acting on the wire. This can be a good orientation aid for the inexperienced operator when tensioning the loop, in particular at the beginning.

[0058] The tension measuring slide 21 consists of a housing body 37 in which a piston 36 is guided. A spring 34 is located in front of the piston 36. The housing body 37 is closed by a screw plug 35. At the side of the piston 36, there is the fastening screw 39 and the fastening nut 33 for clamping the wire 17. Directly behind it, there is a threaded hole 41 through the entire piston 36. A locking screw 32 is screwed through this threaded hole 41, with which the piston 36 can be locked in the housing body 37 if required. The housing body 37 has a lateral windowing 38.

[0059] If tension is applied to the wire by pulling back the tension measuring slide in an instrument 0 or 20 according to the invention, the piston 36 moves forward in the housing buddy 37 in accordance with the tension force and tensions the spring 34. Tension force can now be read off a scale on the housing body 37.