DE3906982C1 - Articulator with jaw stand - Google Patents

Abstract

Articulator (3) with articulated upper and lower parts (2, 4) as supports for maxillary and mandibular models (45 and 11) along an invariable occlusal plane (H) which is predetermined between them. It comprises a jaw stand (1) which is mounted on the upper and lower parts (2, 4) and has at least three support projections (24a, 24b) guided so as to be movable relative to one another and parallel to the occlusal plane (H) and fixable. The free ends (30a, 30b) of the projections are each adapted for engagement with a dental crown of the opposite jaw model (11, 45) and are positioned in a manner corresponding to the occlusal plane (H) and/or the connecting curve of the tips of the teeth of a mandibular model (11) arranged according to the occlusal plane (H). <IMAGE>

Description

The invention is based on an articulator hinged upper and lower part, each one Upper jaw and lower jaw model each other is fastened opposite, corresponding to one in between, unchangeable in the articulator predetermined chewing level.

Articulators are devices for the reproduction of jaws movements. They mainly serve to disrupt dentures to integrate into the dentition without any problems, with the purchase Chen must be matched to the temporomandibular joint.

It is known to articulate (see Klaus M. Leh "Introduction to Dentistry", Urban and Schwarzenberg, 1975), jaw models in fixators, ok plaster in cludators and articulators. With so-called The mean value articulators are the chewing level with a Target incisal pin and rubber ring.

Another method, especially with an average articulator, makes use of the fact that the Chewing plane is spanned by three points, namely the Incisal point (point of contact of the cutting edges of the two middle lower incivii) and the two highest buccal or disto-buccal cusps of the the second opposite molars of the lower jaw fers. The disto-buk shown on the jaw model kalen bumps are made with a wax or such attached rod in the form of a saw blade connected. In the middle of this ver binding line is a second (saw) Stick on and fastened with wax, for example arranged so that it leads through the incisal point. In the articulator, they are used as model carriers  Upper and lower parts are usually three vertical columns running against each other to form a test plate supported. These columns are equipped with fixing grooves see, each at the level of fixed in the articulator predetermined chewing level are arranged. Around the pillars a rubber ring is stretched around and fi in the grooves xiert so that it represents the chewing level. Now tried the jaw model on one of the articulator models Plaster carrier so that the following conditions are fulfilled: The jaw model is compared to the gum miring positioned so that the over the jaw model protruding ends of the two rods on the rubber ring lie; the model chewing level and the articulate lathe chewing level at a height. The two disto-buk kalen hump connecting rod becomes parallel to the condy lenachse (see above find) or swivel axis of the Articulator positioned so that the jaw model symmetrical in relation to the Bonwill triangle (cf. find above). Finally, the Incisal point of the jaw model corresponding to the tip of the Bonwill triangle are arranged by what optical sighting with a dedicated through hole in the upper part of the articulator. Now - in compliance with all of these conditions! - the jaw model manually in the (still) soft plaster block held on an articulator model carrier as long as until the plaster has hardened sufficiently.

This method can usually be waxed loosen the stiff sticks slightly so that with a lot of Ge chic and great care must be taken. Also the adjustment of the incisal point by means of a self drilling requires practice and experience. Still can when placing the chopsticks on the rubber ring or when Keeping the adjusted jaw model in the hard the plaster faults occur, which is the trouble-free Fitting the dentures in the teeth impaired gen. When using particularly fast curing Gypsum can happen that before finishing the Einarti Kulier steps the model no longer because of fixed  can be adjusted. Finally, the above mentioned Articulation steps at a high cost to humans working hours, especially if the einartiku mated jaw model in a slowly hardening plaster must be kept properly.

The invention has for its object an articulator gangs mentioned so develop that with him a jaw model simple, precise, safe and fast can be articulated. The solution is invented according to one on the upper or lower part of the articulator supported jaw tripod suggested which little at least three relative to each other and parallel to the chewing plane movable and lockable ledges points, the free ends of each for engagement a tooth crown of the jaw held opposite trained and according to the chewing level and / or the connection curve of the tooth tips of a posi mandible model arranged according to the chewing level are tioned.

The invention takes advantage of the fact that the chewing level is kept constant in the articulator is. This can be measured and placed on the jaw stand be transmitted by the support projections in their Length can be set so that it is chewable end up. This can either be implemented in such a way that the Supporting projections of the jaw stand in the chewing plane itself or end in the connection curve. It poses the connection curve that the cusp tips of the lower line connecting the jaw teeth, i.e. the sagittal line Occlusion curve or the Speesche curve (see above Location). If the ends of the support projections can be positioned according to this connection curve target the chewing level for the jaw model, without the three points defining the chewing plane, namely the incisal point and / or the two disto-buk kalen humps are fully present.  

From jaw model to jaw model, both the Ab stood the disto-buccal cusp to each other, as well the distance of the cusp link to the incisal point different. Since the height of the chewing level in the Artiku lator remains constant, there is a two-dimensional Problem that solved in a further development of the invention will that for the support projections in the jaw stand Ver sliding options parallel to the chewing level, in particular those in the directions of two perpendicular to each other Axes in the chewing plane are created. With the help of on an articulator model carrier (upper or lower part) attached jaw tripod, in which the move lichen support projections on the three named Points defining the chewing plane are adjusted the upper or lower jaw model in one Articulate the work process exactly. Because the jaw model is now fixed in the end position according to the chewing level quick-setting gypsum can be used. Also the Handling of the articulator is through the use of the jaw tripod makes it easier: for example the distance of the disto-buccal cusps first be determined from each other with a ruler, the support projections associated with these humps speaking spaced and then based on the model the support projection assigned to the incisal point be adjusted accordingly. Then the jaw stand on one of the two opposite model carriers of the Articulator attached, then the jaw model on placed the opposite plaster block and with the Ends of the support projections - to prevent slipping - engaged. For this it is appropriate that the support projections out as cylindrical support pins forms, the free, front ends of which are facing inwards or are domed on the outside and / or rounded. With the inward-facing, concave curvature the cusps of molars in the cave thus formed engage to fix the jaw model. At the after externally directed, convex curvature can the ge formed hemispherical ends in the central pits (Central fossa) of maxillary teeth for fixation  move. The slotted support tab at the end leaves on the cutting edge of an incisor Put on the fixation.

According to a further development of the invention Supporting projections made of several telescopic in the longitudinal direction neatly nested and lockable parts. This has the advantage, on the one hand, that the ends of the support projections on the three-dimensional Course of the tooth connection curve explained above Let the tips set, especially in the absence of co-defining the chewing level, second Un jaw molars is desirable. On the other hand, when an upper jaw model is articulated the jaw stand on the lower model carrier (lower part) attached and its support projections to the con constant height of the chewing level telescopically be drawn.

The supports in the jaw stand are particularly advantageous Projections linear, that is, along a straight line guided, with two support projections for the engagement with bumps of molars or their central pits and one for engagement with the cutting edge Incisors are formed. In a special version The leadership of the Support projections associated with molars parallel or along a common, straight line, while the Management of the supporting tooth assigned to the incisor jump to those of the molar support projections goes right. With this arrangement the support The jaw tripod is particularly easy to use to the distances between models that vary from model to model between the disto-buccal cusps or between them Connection line and incisal point set the.

Special training at Kiefersta also serves this purpose tivs, which one on the inside of top or Lower part (model carrier) of the articulator can be removed  strengthened supporting body, one of which is an incisor assigned support projection protrudes, and an or several sliding bodies each with sliding element points, each with parallel or along the jaw center Line guides in the support body can be locked interact slidably, each sliding body a cross perpendicular to the center line of the jaw has a guide with which one is assigned to a molar ter support projection lockable movable works. The vertex of the jaw center line corresponds run about the rod explained at the beginning, which the the two disto-buccal cusps of the second lower jaw Fermolar leading straight line with the incisal point det.

To light the support body on the articulator model carrier to be able to attach and interior for accommodation to create the guides in the support body, this has expediently the basic shape of an elongated plate molded on their top or bottom, cuboid-like chem step section through which one or more Boh stanchions for the leading inclusion of the sliding element egg Nes slide body extend. Are in special off education of the invention, the bores and / or comple mental sliding elements each with an angular cross-section provided, can be particularly against twisting achieve secure, precise guidance.

The jaw tripod has two se with particular advantage ready sliding body, each with an L-like basic shape on, whose longer legs in the supporting body too are guided in parallel sliding, and their each because shorter thighs oppose each other arranged and each one of the transverse guide bil end recess are penetrated. These two shoots bodies can independently in the support body in What will be shifted towards the jaw axis especially in the absence of one or both gender lower and / or upper molars from before is part. So the second molar support projection  for example with the first upper and / or lower jaw molar and the second with the first, third, etc. Mon laren be engaged to fix them. The L-shaped structure of the sliding body enables easy positioning of the attached Support projections relative to the incisal point.

Is a natural upper or lower jaw model ticulate, the target at the chewing level used the second mandibular molar. Since these be facing each other with respect to the jaw center line, are in an advantageous development of the jaw tripod one or more, releasably attachable connecting elements elements for coupling the movements of several sliding bodies provided to each other. Because the sliding body each the support projections assigned to a molar tooth gen, these can be quickly and easily attached to the disto-buccal cusp of the second lower molars to be brought. A special training of the Verbin element is to provide a pin the shorter in the two lying in line Leg of the L-like sliding body can be pulled out and is insertable. For this purpose they can be called th leg each with Boh lying in alignment stanchions.

To achieve a structurally simple structure and there is an inexpensive manufacturability special invention training in a one-piece To provide sliding body in T-like basic shape, the sen middle leg as a sliding element in the supporting body leads, and the two side legs of each a recess forming the above-mentioned transverse guide are enforced. This simplified version takes into account the normal case in which in the lower jaw mo dell the second molars and the incisal point for the Targeting the chewing level is available. A kopp lungsstift for connecting several sliding bodies no longer necessary. The back teeth too orderly support projections, which in the transverse guide  savings of the side legs are hooked in their position in relation to the incisal point at the same time adjusted along the jaw center line.

Are the incisal point and / or one of the two disto-buccal cusp of the second lower molars not available, at least one of the support must jumps after the connection curve (sagittal occlusion on curve, Speesch curve, see above). To get into the the length of the corresponding support projection adjust or position its free end to can, is in a development of the invention to Kie center line perpendicular, over opposite Teeth of the upper or lower jaw extending beyond Adjustment bar provided in or on the jaw stand removably attached and in the direction of his Movable longitudinal axis of both verticals is led. For coupling the adjustment bar to the jaw stand is an L-shaped connecting part expedient, the first leg in the jaw tripod par Allele noticeably displaceable to the midline of the jaw is guided, and its second leg perpendicular to Chewing plane runs on which the adjustment bar also is detectably guided.

Increase in ease of use and speed speed of handling it serves if one or more Guides in the jaw stand and / or the adjustment beam are marked with a length scale. This is above al lem in the transverse guides explained above for each Purpose associated with a molar support projections moderate, because the first with a ruler in the lower jaw distance measured between two bumps opposite molars then based on the attached length scale slightly into a corresponding image Implement the position of the cross-guided support projections leaves.

To the parts guided in the jaw stand, including Adjustment bars, being able to determine, are advantageous  Adhesive screw organs used, the guided parts clamp in the guide channels. This can be spe Realize by means of knurled screws that screw holes in each of the guide Jaw tripod or adjustment bar the guided parts ge clamp the inner wall of the hole. A structural one not very bulky, but rather particularly compact Locking elements consists of one or more rere, untwisted in breakthroughs through the jaw stand bar to provide linear threaded parts with which each corresponding, firmly on a support projection attached screw elements with the diameter Breakthroughs of outstanding rotary handles engaged in this way stand that the jaw stand or its the recess delimiting part between the threaded part and the Twist grip is jammed. Alternatively, you can go to a further embodiment of the invention Support projection have a retaining bolt, the one Breakthrough penetrated by the jaw stand, in it is guided non-rotatably linear, essentially has a cylindrical basic shape and with a Blind hole for receiving a support pin as well with external thread on the cylindrical outer jacket surface is provided, the blind hole-side forehead end of the retaining bolt is slotted and conical further expires; the external thread also has an egg ner first middle and second outer Knurled nut engaged, with the middle Knurled nut the guide breakthrough of the jaw tripod towering over in diameter. This can be the retaining bolt against the part broken through to form the guide of the jaw tripod.

In particular in the case of training that cannot be changed in length The further advantage is the Erfin can be removed from the jaw stand as an additional device supported adjustment plate provided, the Kie surface facing away from the tripod with the chewing plane of the Articulator matches. With the help of this adjustment the chewing level can then be sewn in particular  approximately determined for the jaw model if two seven molars in the upper jaw and in the lower jaw one of the seven molars is missing. Then the plate attached to the jaw stand, and the jaw model to the Adjustment plate created, at the same time the still existing seven molars and the incisal point each because of a corresponding support projection meets. To facilitate the handling of the Adjustment plate is in the direction of the Kie center line with an elongated mounting slot Accidentally through which one of a jaw tripod standing screw thread leads and at its free Engages end with a lock nut. The clamp nut can then be screwed so that it is the Bracket slot delimiting part of the adjustment plate for example against one attached to the jaw stand Bracket or stop pin presses from its on the screw thread protrudes.

Embodiments of the invention are explained in more detail with reference to FIGS. 1 to 12. It shows

Fig. 1 is a perspective view of a Artikula gate with a first embodiment of Kiefersta tivs,

Fig. 2 is a perspective view of the Kiefersta TIV shown in Fig. 1 detached from the articulator,

Fig. 3 tikulator a sectional view according to the line III-III in FIG. 1 by broken lined Ar,

Fig. 4 is a perspective view of a abgebro chen drawn articulator with pine stand according to FIG. 1 and adjustment plate,

Fig. 5 is a perspective view of the engagement of supporting projections with a Oberkiefermo dell,

Fig. 6 shows a longitudinal section through a supporting projection,

Fig. 7 lator lower part fitted in a perspective view a gezeichnteten for use on the aborted Artiku pine stand,

Fig. 8 is a perspective view of a second embodiment of a jaw tripod, which is also suitable for non eugnathic bits,

Fig. 9 is a plan view according to the direction IX in Fig. 8,

Fig. 10 is a sectional view according to the line XX in Fig. 8,

Fig. 11 is a plan view of an embodiment of a sliding body, and

Fig. 12 is a sectional view of a modified embodiment of the supporting projection according to the line XII-XII in Fig. 11.

Referring to FIG. 1, a pine stand 1 is 2 (upper pattern carrier) of an articulator herkömmli chen 3 attached to the underside of the upper part. The articulator 3 has, in addition to the upper model carrier 2 , the lower model carrier (lower part) 4 , which are pivotally coupled to one another by means of Ge joints 5 and supporting columns 6 . From the upper part / upper model carrier 2 it extends perpendicular to a (not shown) table top, a model carrier support pin 7 , the tip of which is placed on a guide plate 8 attached to the lower part 4 . The outer sides of the upper and lower parts 2 , 4 of the articulator 3 are each penetrated by ge knurled mounting screws 9 , which are used for releasably attaching a jaw tripod 1 or a plastered jaw model. In the illustrated case, there is a plaster block 10 on the inside of the lower part 4 with a lower jaw model 11 placed thereon. The chewing level of the articulator is marked by grooves 12 , which are formed in a fixed, constant chewing level height H compared to a (not shown) support surface, for example table top, into the outer walls of the support columns 6 and the support pin 7 .

Referring to FIG. 2 and FIG. 3, the pine stand 1 a supporting body 13 of substantially elongated rectangular basic shape, is formed at the articulator model the carrier 2 and 4 facing away from a rectangular bottom portion 14 similar steps. The steps part 14 is penetrated by a bore 15 in the direction of the Kie fermittellinie 16 , in which a sliding body 17 is slidably guided. For this purpose, it is provided with a sliding element 18 , which has a congruent cross section for receiving it in the guide bore 15 . The sliding body 17 has a T-shape overall, in which the sliding element 18 forms the middle leg which is displaceable in the guide bore 15 . To fix the sliding element / middle leg 18 , a threaded bore 19 extending through the wall of the step part 14 to the guide bore 15 is provided, into which a locking screw 20 can be screwed in such a way that its free end clamps the sliding element 18 in the guide bore 15 . As shown in dashed lines in FIG. 2, the sliding body can be pushed back and forth parallel to the center line of the jaw according to the movement arrow 21 when the locking screw 20 is loosened.

The side legs 22 belonging to the T-shape are penetrated by elongated recesses 23 , which form a guide transverse to the jaw center line 16 for each molar support projection 24 a . The molar support projections 24 a have threaded parts 25 which, due to their polygonal heads 26 in cross section, can be moved back and forth in a linear manner, but cannot be rotated. Furthermore, the molar support projections 24 a knurled nuts 27 , which are on the threaded part heads 26 facing away from the slide body 17 with the threaded deteil 25 are engaged. By screwing the knurled nuts 27 , the molar support projections 24 a can be fixed or countered in the recesses / transverse guides 23 . An extension extends from the side of the knurled nuts 27 facing away from the sliding body 17 and forms the actual support projection 24 .

This is shown in FIG. 6 consists of a receiving sleeve 28 with blind bore 29 in which a jaw support pin 30 in the axial direction of movement 31 and is telescopically extendable. Through the side wall of the receptacle sleeve 28 also leads a locking screw 20 , by means of which the jaw support pin 30 in the bag hole 29 is clamped.

In order to achieve compatibility with the marketable articulator DENTATUS, Sweden, the support body 13 according to FIGS. 2 and 3 is provided with recesses 32 for various projections of the articulator 3 and with a threaded bore 33 into which the thread of the model carrier 2 or 4 penetrating bracket screw 9 , so that - instead of a jaw model - the jaw stand 1 is carried by the model carrier 2 or 4 .

According to FIG. 3, the jaw support pins 30 a of jaw projections 24 a (see FIG. 1) are formed at their free ends with a concave indentation 33 , which engages a molar cusp and thus fixes a (lower) Jaw model (see FIG. 1) allows. The support projection 24 b assigned to an incisor according to FIG. 1 (and also FIG. 5) has a jaw support pin 30 b , the free end of which ends in a slot-like indentation 34 with an oval cross section. This indentation 34 serves to bring the cutting edge of an incisor into engagement with the incisor support projection 24 b , corresponding to FIG. 5. As can be seen in particular from FIG. 2, the side legs 22 of the T-shaped sliding body 17 are each in the area of the recess stanchions / transverse guides 23 marked with a scale 35 , which serves the targeted adjustment of the molar support projections 24 a along the transverse guides 23 .

The handling of the jaw tripod according to Fig. 1 to 3 is as follows:

First, the distance between the two disto-buccal cusps of the two second molars is measured in the lower jaw model 11 . According to the measurement result, the distance between the molar support projections 24 a is set with the aid of the scale 35 and determined with the aid of the knurled nut 27 . Then, the Kiefersta is attached to the articulator-tiv 1 top part 2 by the mounting screw is screwed to the upper part 2 9 by putting into the threaded bore 36 of the support body 13 (see FIG. 37 insertion direction). After screwing in the mounting screw 9 completely , the ends of the jaw support pins 30 a , 30 b lie at the same height H as the grooves 12 of the support columns 6 and the articulator support pin 7 , that is, in the chewing plane that is fixed in the articulator 3 . Now the articulator is opened, so that the support projections 24 a , 24 b of the horizontally lying jaw stand 1 point upwards. The lower jaw model 11 is placed such that the jaw support pin 30 b of the incisor support ridge jump 24 b and the incisal point of the lower jaw come into engagement with one another, as shown in FIG. 1. Since, depending on the jaw model, not only the distance of the disto-buccal cusps from one another, but also the distance from their connecting path to the incisal point varies, the sliding body 17 must also be displaced via its sliding element 18 in the guide bore 15 relative to the supporting body 13 (see movement direction 21 ) and so be adapted to the present lower jaw model 11 . Then the molar support projections 24 a can also be brought into engagement with the disto-buccal cusps of the second lower molars via the indentations 33 , so that the lower jaw model 11 is secured against slipping. In the opposite part of the articulator, a mounting plate was screwed in with the help of screw 9 to provide the soft plaster with a base. Now the plaster, which is still soft but sets quickly, is applied to the mounting plate. The still open articulator is now folded so that the jaw model 11 fixed in the jaw stand 1 presses into the still soft plaster. The articulator is now set up so that the weight of the plaster presses the jaw model 11 onto the jaw stand 1 . The plaster block 10 can now fully cure without the jaw model 11 having to be held manually; Any gypsum expansion of the plaster block is also compensated for by the weight of the upper part of the articulator. The operator can already do other work during the plaster curing process.

The embodiment according to Fig. 4 serves the kauebenenrichtigen fixing jawbone models in non-eugnather dentures, where, for example nermolaren the two wires in the upper jaw and nermolaren in the lower jaw of one of the two wires is absent (see. In Fig. 4, the tooth space 38 in the lower jaw model 11 x ) . This problem is countered with an adjusting plate 39 , the thickness of which is dimensioned such that when it is attached to the jaw stand 1, its surface facing away from the jaw stand 1 lies in the chewing plane at the height H (see FIG. 1). For attachment to the jaw tripod 1 , the adjustment plate 39 is provided with an approximately centrally arranged, extending to the greatest possible length, the mounting slot 40 , which extends with the jaw center line 16 and / or the perpendicular through the incisal point on the United connecting line of the disto-buccal cusps of the two opposite, second mandibular molars. As another mounting means comprises a mounting pin 41 is mounted on the jaw x projecting stand 1 for jaw model 11, screwed in the supporting body 13 in the example shown in a threaded bore 42 in the step portion 14 (see FIG. FIG. 3). The free end of the mounting bolt 41 is telescopically stepped or tapered and provided with a screw thread from the outside into which a clamping nut 43 can be inserted. This serves to clamp the adjustment plate 39 against the stepped end face of the mounting bolt 41 in the mounting bolt 41 inserted into the mounting slot 40 . The supporting projections 24 are stepped telescopically like the mounting bolt 41 , so that contact shoulders 44 are formed for the adjusting plate 39 . The adjustment plate 39 can be handled most easily when the mounting slot 40 is open towards the incisal point or the incisor support projection 24 b , as shown in FIG. 4.

The handling of the adjustment plate 39 is as follows:

The jaw stand 1 with associated adjustment plate 39 is held in the articulator 3 , the position of the adjustment plate 39 corresponding to the chewing plane. If the incisal point is present in the jaw model, the corresponding support projection 24 b is brought into engagement with the incisal point-forming cutting edges of the incisors. Now a support projection 24 a is fixed on the existing disto-buccal cusp of the second molar. Then the plate on the projection, which is formed by the different diameters of the support projections 24 a and the ends 30 a , on. The tooth gap 38 is now covered by the plate 39 . The adjustment in the direction of the jaw line 16 can take place on account of the correspondingly aligned mounting slot 40 and the retaining bolt 41 guided therein. After the adjustment plate is fixed by means of the clamping nut 43 , the articulator is opened, and the lower jaw model is placed on the plate such that the incisal point and the existing disto-buccal cusp of the second molar are fixed in the supporting projections 24 a and b of the jaw tripod 1 . The plastering of the jaw model in the ar ticulator is now carried out as already described above.

The example shown in FIGS. 5, 6 and 7 can be used particularly advantageously if there is a lower jaw model without a usable, second lower jaw molar, but a natural upper jaw model is present. The jaw stand 1 is brought in accordance with the direction of movement 37 with the thread of the mounting screw 9 on the ar ticulator lower part 4 and screwed ver. In all the support projections 24 of the Kie ferstativs 1 , the receiving sleeves 28 and the jaw support pins 30 - in comparison to the embodiment of FIGS . 1, 2 and 3 - are extended such that the position of the ends further the chewing plane height H predetermined in the articulator (cf. Fig. 1) corresponds. The free ends of the jaw support pins 30 a of the corresponding support projections 24 a assigned to the molars of the upper jaw model are designed as convex bulges 61 , which can move into the central pit / central fossa of the opposite, second maxillary molars.

The use of the jaw stand 1 with plate 39 with both lower jaw and upper jaw models is also useful if none of the three points defining the chewing plane were present in the dentition. Then the plate 39 serves as a holder of the jaw model when plastering. It then offers the advantage already mentioned above that the model would not have to be held manually during the setting of the plaster.

Since the upper incisors overlap the lower incisors, an overbite compensation is necessary: This serves the adjustability of the jaw support pin 30 b of the support projection 24 b assigned to the incisor in the axial direction of movement 31 according to FIG. 6 . Anomalies can be compensated for. Referring to FIG. 5, the Oberkiefermo is dell 45 in engagement with the supporting projections 24 so that it is kauebenenrichtig fixed and can harden the Gipsbefe stigung. Afterwards, a lower jaw model can also be plastered correctly at the chewing level using the occlusal relationship between upper jaw and lower jaw. Otherwise, the explanations for the exemplary embodiment according to FIGS. 1 to 3 apply accordingly.

The modifications of the design of the jaw stand 1 according to FIGS. 8, 9 and 10 compared to the previously described th jaw stands consist of the following:

In the guide bore 15 are formed as separate pieces sliding body 17 x , 17 y with corre sponding sliding elements 18 x , 18 y . For independent guidance of the sliding elements 18 x , 18 y , the guide bore 15 has transverse dividing pins 46 , each of which allows separate guidance. To fix the sliding elements 18 x , 18 y are corre sponding threaded bores 19 x , 19 y are also provided in the locking screws 20 (see. Fig. 8) can engage.

If the disto-buccal cusps or central pits defining the chewing plane and the incisal point are present in the upper jaw or lower jaw model, the handling is the same as above with reference to FIGS. 1 to 3; the two loose sliding bodies 17 x , 17 y are connected by a pull-out coupling coupling pin 47 with a knurled handle 47 ' with respect to the sliding or moving direction 21 . The coupling pin 47 is accommodated in aligned bores in a shorter leg 48 of the sliding body 17 x , 17 y having the basic L shape. The longer legs 49 form the sliding elements 18 x and 18 y . In this exemplary embodiment, the support projections are designed to be length-adjustable by means of locking screws 20 , for example according to FIGS. 6 and / or FIGS. 11 and 12.

Furthermore, according to FIGS. 8 to 10, the jaw stand 1 has an adjustment bar 50 which extends approximately transversely to the jaw center line 16 (cf. FIG. 1) and in which the vertical 51 to the chewing plane is displaceably guided by means of a locking screw 20 . Realization of the guide is a sliding bore 52 in the Ju bull beam 50 through which a perpendicular to the chewing plane, second leg 53 of an L-shaped Ver connecting part 54 occurs. Whose first leg 55 serves as a sliding element and is preferably in a bore 56 in the step part 14 of the support body 13 back and forth movable and lockable by means of a locking screw 20 added.

The handling of the embodiment of the jaw tripod 1 modified according to FIGS . 8, 9 and 10 for positioning the lower jaw model in a manner appropriate to the chewing level, in which one of the two second lower jaw molars is missing, is as follows:

Those support projections 24 a or 24 b , to which an existing molar or incisor tooth can be assigned, are left at "zero level", that is, their free (engagement) ends lie in the articulator chewing plane or on the chewing level height H (see FIG. 1). In the specific example, this means that a molar support projection 24 a and the incisor support projection 24 b are engaged with the lower jaw model in the correct chewing plane. However, the third point for the complete definition of the chewing level for the lower jaw model is still missing; whose chewing plane is, as it were, pivotable indefinitely about the connecting line of the ends of the two support projections 24 a , 24 b mentioned . Remedial action is provided by means of the adjustment bar 50 : In the lower jaw model, this is placed on existing, paired teeth (e.g. two fours, two fives, two sixes, two eights) in such a way that the two highest points of the pair of teeth used can be tapped with the adjustment bar 50 . The horizontal adjustment bar is positioned parallel to the chewing plane H. The lower jaw model is now held in this position on the adjustment beam 50 , and the remaining Bak tooth support projection 24 a , for which there is no second lower jaw molar, is - regardless of the other molar support projection - approximately parallel to the jaw center line, for example to the figure eight, Sixes or the like moved and brought into engagement with this. The displaced molar support projection 24 a then also ends approximately in accordance with the occlusion or the Speeschen curve. Now the chewing plane is statically overdetermined for the lower jaw model based on five points (three support projections and two support points of the adjustment bar 50 ), and the adjustment bar can be pulled out of its guides and removed by loosening the locking screws 20 . The Ju bull bar can also be used to approximate the incisal point in the absence of the two lower middle incivii. It is important that the adjusting beam 50 on the jaw stand 1 or on the articulator 3 is arranged approximately parallel to the condylar axis or the pivot axis of the two ar ticulator joints. For this purpose, it is expedient to provide the sliding bore 52 of the adjusting beam 50 and the second leg 53 each with an angular cross-section, so that the said parallel position can be maintained without moving. In addition, the Ju bull bar is designed so that it runs horizontally, ie par allel to the chewing level. Due to the parallelism to these two articulator elements, its orientation or position is precisely defined.

Finally, in Fig. 11 and 12 yet another embodiment for the molar teeth assigned th support projections is shown. According to the plan view of FIG. 11 is a square head 24 a of the shorter leg 48 bekörpers out 26 of a jaw tooth-supporting projection in the recess / transverse guide 23 of an L-shaped slide 17 non-rotatable linear. According to the sectional view of FIG. 12, the receiving sleeve 28 tapers off at the end facing away from the sliding body and there is a slot recess 57 through it. Further, the constricting of the traverse guide 23 outstand part of the receiving sleeve 28 is provided on the outer jacket with a screw thread 58, on which a central knurled nut 59 and an outer knurled nut 60 meshes. The middle knurled nut 59 is used to determine the head 26 and thus the support projection against the shorter leg 48 of the sliding body 17 after appropriate rotation. By contrast, rotating the outer knurled nut 60 - due to the slot recess 57 - he mentioned conical extension at the end of the receiving sleeve 28 is reduced, so that a tion in the receiving sleeve or its blind hole 29 in sliding fit jaw support pin 30 a is immovably clamped.

Claims (22)

1. articulator ( 3 ) with articulated upper and lower part ( 2, 4 ) each as a carrier of an upper jaw or lower jaw model ( 45 or 11 ) along an unchangeably predetermined chewing plane (H) , characterized by a on the upper or lower part ( 2, 4 ) supported jaw tripod ( 1 ), which has at least three support projections ( 24 a , 24 b) that are movable and lockable relative to each other and parallel to the chewing plane (H) , the free ends ( 30 a , 30 b) of which are each for the engagement with a tooth crown of the jaw model ( 11, 45 ) held opposite and are positioned according to the chewing plane (H) and / or the connection curve of the tooth tips of a lower jaw model ( 11 ) arranged after the chewing plane (H) . 2. Articulator according to claim 1, characterized in that the support projections ( 24 ) of the jaw tripod ( 1 ) in the chewing plane (H) and / or end in the connecting curve. 3. Articulator according to claim 1 or claim 2, characterized in that the support projections ( 24 ) are designed as cylindrical support pins, the free end ends ( 30 a , 30 b) curved inwards or outwards ( 33, 61 ) and / or are roundly slotted ( 34 ). 4. Articulator according to one of the preceding claims, characterized by supporting projections ( 24 ) which consist of a plurality of parts which can be telescoped and locked in the longitudinal direction ( 28, 30 ). 5. Articulator according to one of the preceding claims, characterized in the jaw tripod ( 1 ) linearly guided ( 15, 23 ) support projections ( 24 ), two of which ( 24 a) for engagement with cusps of molars or their central pits and one ( 24 b ) are designed for engagement with the cutting edge of an incisor. 6. Articulator according to claim 5, characterized in that the guides ( 23 ) of the molar support projections ( 24 a) parallel or along a straight line and the guide ( 15 ) of the associated cutting protrusion ( 24 b) to those of the molar teeth - Supporting projections ( 24 a) run vertically. 7. Articulator according to one of the preceding claims, characterized in that the jaw stand ( 1 ) on the inside of the upper or lower part ( 2, 4 ) detachably fastened supporting body ( 13 ), of which a supporting projection ( 24 b) associated with an incisor tooth having projecting, and one or more sliding body (17, 17 x, 17 y), each having sliding elements (18, x 18, 18 y), each with parallel or along the jaw center line (16) extending guides (15) in the support body (13 ) cooperate lockable displaceable, and in that each sliding body (17) has a perpendicular to the jaw center line (16) transverse guide (23) cooperating lockable displaceable with a one molar associated support projection (24 a). 8. Articulator according to claim 7, characterized in that the supporting body ( 13 ) has the basic shape of an elongated plate with molded on the top or bottom, cuboid-like step part ( 14 ) through which one or more holes ( 15 ) each leading recording of the sliding element ( 18 , 18 x , 18 y) of a sliding body ( 17 , 17 x , 17 y) extend. 9. Articulator according to claim 8, characterized by bores ( 15, 52, 56 ) or sliding elements ( 18 , 18 x , 18 y , 53 ) with an angular cross section. 10. Articulator according to one of claims 7 to 9, characterized by two separate sliding bodies ( 17 x , 17 y) with an L-like basic shape, the longer legs ( 49 ) of which are guided in parallel in the supporting body ( 13 ), and each of which shorter legs ( 48 ) are arranged so as to protrude from one another and are penetrated by a recess ( 23 ) forming the transverse guide. 11. Articulator according to one of claims 7 to 10, characterized by one or more releasably attachable connecting elements ( 47 ) for coupling the movements of a plurality of sliding bodies ( 17 x , 17 y) to one another. 12. Articulator according to claim 10 or 11, characterized in that the connecting element as in the two lying in one leg, shorter leg ( 48 ) of the L-like sliding body ( 17 x , 17 y) pull-out pin ( 47 ) is realized. 13. Articulator according to one of claims 7 to 9, characterized by a one-piece sliding body ( 17 ) in a T-like basic shape, the middle leg is guided as a sliding element ( 18 ) in the supporting body ( 13 ) and the two side legs ( 22 ) of which each Recess-forming recess ( 23 ) are penetrated. 14. Articulator according to one of the preceding claims, characterized by a perpendicular to the jaw center line ( 16 ), which extends over opposite teeth of the upper or lower jaw ( 11, 45 ) and adjustment bar ( 50 ) which is detachably mounted in or on the jaw stand ( 1 ) and is guided so as to be displaceable perpendicular to the chewing plane (H) and along the jaw center line ( 16 ). 15. Articulator according to claim 14, characterized by an L-shaped connecting part ( 54 ), the first leg ( 55 ) in the jaw stand ( 1 ) parallel to the jaw center line ( 16 ) is guided displaceably and the second leg ( 53 ) perpendicular to the chewing plane ( H) runs, on which the adjusting bar ( 50 ) is guided so as to be displaceable. 16. Articulator according to one of the preceding claims, characterized in that one, several or all guides ( 15, 23, 29, 56 ) of the jaw stand ( 1 ) or adjusting bar ( 50 ), in particular the transverse guides according to claim 7, each with one Length scaling ( 35 ) are provided. 17. Articulator according to one of the preceding claims, characterized by one or more with guides ( 15, 23, 29, 52, 53 ) of the jaw stand ( 1 ), optionally the telescopically adjustable support projections ( 24 a , 24 b) and / or the adjusting bar ( 50 ) cooperating locking elements ( 20, 27 ). 18. Articulator according to claim 17, characterized in each of the guide holes ( 19 ) of the jaw tripod ( 1 ) or adjusting bar ( 50 ) screwable knurled screws ( 20 ) for clamping guided parts. 19. Articulator according to one of the preceding claims, characterized by one or more, in openings ( 23 ) through the jaw tripod ( 1 ) non-rotatably linearly guided threaded parts ( 25 ), with each of which, on a support projection ( 24 a) fixed screw elements ( 27 ) with the openings ( 23 ) projecting rotary handles are engaged in such a way that the jaw stand ( 1 ) can be clamped between the threaded part ( 25 ) and the rotary handle of the screw element ( 27 ). 20. Articulator according to one of claims 1 to 18, characterized in that the support projection ( 24 ) has an opening ( 23 ) through the jaw stand ( 1 ) penetrating therein, non-rotatably linearly guided, cylindrical retaining bolt ( 28 ) with blind hole ( 29 ) for receiving of a pine support pin ( 30 a , 30 b) and with external thread ( 58 ) that the blind-end end of the retaining bolt ( 28 ) is slotted ( 57 ) and expands conically, that with the external thread ( 58 ) a middle and an outer Knurled nut ( 59, 60 ) are engaged, and that the middle of the guide opening ( 23 ) of the jaw tripod ( 1 ) projects in such a diameter that the jaw tripod ( 1 ) can be clamped between the retaining bolt ( 28 ) and the middle knurled nut ( 27 ) . 21. Articulator according to one of the preceding claims, characterized by an adjustment plate ( 39 ) which is detachably held on the jaw stand ( 1 ) and whose surface facing away from the jaw stand ( 1 ) is arranged in the chewing plane (H) . 22. Articulator according to claim 21, characterized in that the adjusting plate ( 39 ) has a mounting slot ( 40 ) running in the direction of the jaw center line, through which a screw thread projecting from a jaw stand ( 1 ) leads and at its free end with a clamping nut ( 43 ) is engaged.