Classifications

• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
  • A61C13/00—Dental prostheses; Making same
  • A61C13/12—Tools for fastening artificial teeth; Holders, clamps, or stands for artificial teeth
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
  • A61C13/00—Dental prostheses; Making same
  • A61C13/0003—Making bridge-work, inlays, implants or the like
  • A61C13/0006—Production methods
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
  • A61C13/00—Dental prostheses; Making same
  • A61C13/0003—Making bridge-work, inlays, implants or the like
  • A61C13/0022—Blanks or green, unfinished dental restoration parts
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
  • A61C13/00—Dental prostheses; Making same
  • A61C13/0027—Base for holding castings
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
  • A61C13/00—Dental prostheses; Making same
  • A61C13/08—Artificial teeth; Making same
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
  • A61C5/00—Filling or capping teeth
  • A61C5/70—Tooth crowns; Making thereof
• • A—HUMAN NECESSITIES
  • A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
  • A61C—DENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
  • A61C5/00—Filling or capping teeth
  • A61C5/70—Tooth crowns; Making thereof
  • A61C5/77—Methods or devices for making crowns

Definitions

• the invention relates to a method for positioning and processing denture teeth.
• the invention also relates to a device for holding prosthetic teeth and a set for carrying out such a method with such a device.
• the invention thus relates to the manufacture and provision of prefabricated dental blocks (denture teeth) for further processing for partial and total plastic prostheses, which are produced by machine in the CAM method (CAM - Computer-Aided Manufacturing) and computer-aided with CAD Method (CAD - computer-aided design).
• the tooth blocks can be provided as a semi-finished product for the partial or complete production of plastic prostheses with CAM method.
• the currently common way is the analogous creation of prosthetic teeth.
• the denture teeth are placed manually and individually on a wax base. This wax prosthesis is embedded in a cuvette with plaster in the next step, and then wash out the wax base with hot water after curing of the gypsum and to create a cavity for the denture plastic.
• the prosthetic teeth remain in the plaster. A corresponding gypsum is injected into the cavity or "stuffed” and you get after curing of the plastic prosthesis or the finished prosthetic tooth.
• the disadvantage of this is the positioning of the prosthetic teeth in a prosthesis base plate.
• a tailor-made trough is prefabricated in a prosthesis base plate in order to then glue in the prefabricated denture teeth.
• this only works if there is enough space and the prefabricated denture teeth do not need to be ground (basal) from below. That's the exception.
• the prosthetic tooth must be ground for reasons of space.
• Pre-fabricated prosthetic teeth are usually at least to be worked from basal in the preparation of prosthetic work. In the case of manual conversion, processing takes place individually per denture tooth by the processor. In this case, however, it no longer fits into the pre-produced cavity in the denture baseplate.
• the carrier layer must cure before the denture tooth can be processed, since significant forces occur in particular when using automated CAM milling.
• the position accuracy of the method also suffers from possible deformations of the not yet fully cured carrier layer, so that in extreme cases, the reworked prosthetic tooth is not milled exactly enough and therefore must be disposed of.
• a carrier layer can usually only be completely removed from the prosthetic tooth again with a certain expenditure.
• the material for the production of the carrier layer must be kept and possibly mixed, melted or activated before use. After use, it must be disposed of.
• the object of the invention is therefore to overcome the disadvantages of the prior art.
• a device and a method are to be provided with which a simple, complete and cost-effective Processing of denture teeth is possible. As few finishing steps as possible should be necessary. As many necessary parts as possible should be reusable. A post-processing of finished post-processed denture teeth should be unnecessary.
• the objects of the invention are achieved by a method for positioning and processing prosthetic teeth comprising the following method steps:
• At least two jaws with peripheral recesses are applied with the peripheral recesses on a prefabricated prosthetic tooth or prefabricated prosthetic teeth, so that the applied jaws at least partially enclose the prosthetic tooth or prosthetic teeth on a respective median circumference, the inner surfaces of the recesses at least partially positively to areas of the outer surfaces of the prosthetic tooth or the denture teeth, wherein the jaws are applied to the prosthetic teeth or prosthetic teeth such that after removal of the carrier, the coronal end and the basal end of the denture tooth or the coronal ends and the basal ends of the denture teeth on survive both sides of the composite jaws; and
• clamping jaws are fastened to one another via a fastening means fastened or fastened to the clamping jaws.
• the clamping jaws are applied to the prosthetic tooth or the prosthetic teeth in such a way that the clamping jaws rest on one another and / or on the prosthetic tooth or the jaws on one another and / or on the prosthetic teeth in a form-fitting and flush-fitting manner.
• This provides a particularly stable and torsion-resistant support and also distributes the forces acting on the prosthetic tooth or prosthetic teeth forces evenly.
• the invention also proposes that the prefabricated prosthetic tooth or prefabricated denture teeth be coronally and / or basally placed on a support before they are fixed by the jaws and the support is removed from the jaws and the denture teeth held in the jaws after the jaws have been joined together. As a result, the method is easier to implement and manageable.
• the jaws By applying the jaws to the prosthetic tooth or prosthetic teeth such that upon removal of the support, the coronal end and the basal end of the denture tooth or the coronal ends and the basal ends of the denture teeth survive on both sides of the assembled jaws possible to use the jaws or the holder simultaneously for post-processing of the coronal side or the occlusal side and the basal side.
• the jaws on the carrier be applied to the denture tooth or denture teeth.
• a particularly simple alignment of the jaws is achieved to the prosthetic teeth.
• a support plate is used with at least one trough for at least one prefabricated prosthetic tooth, wherein the at least one trough forms a negative of the outer shape of the coronal end or the basal end of a prefabricated prosthetic tooth, wherein preferably a support plate with a plurality of troughs is used for a plurality of prosthetic teeth and each trough forms a negative of the outer shape of a coronal end and / or a basal end of the prefabricated prosthetic teeth.
• Carrier plates are the simplest form of carrier and can also be helpful in aligning the jaws.
• the jaws fixed together in a defined position in a holder of a CAM device for removing material of the denture teeth or prosthetic tooth are fixed with a CAM method and at least one coronal end and / or at least one basal end of at least one prosthetic tooth is computer-controlled with the CAM device, the CAM device preferably being a CAM-controlled milling device, more preferably a CAM-controlled four-axis milling device.
• Preferred embodiments of the method may also provide that the outer shapes of all prefabricated prosthetic teeth used are present as a first set of data and a second set of data defines the exact positions of all fixed prefabricated prosthetic teeth in the assembled jaws, with subsequent processing of the denture tooth or denture teeth based on the first and the second data set, preferably a subsequent processing with a CAD / CAM method.
• fixation for fully automated post-processing are made accessible, for which they are particularly well suited. Only by the claimed fixation namely a simple and inexpensive deployment of denture teeth in a high accuracy and positional fidelity is possible.
• Preferred methods may provide that all prefabricated prosthetic teeth are fixed in only one predetermined position and orientation in the assembled jaws.
• the prefabricated denture tooth used or the prefabricated tooth used Prosthetics teeth are prepared by a CAD method, wherein the data used to determine the outer shape of the surface of the prefabricated prosthetic tooth or prefabricated denture teeth are used to form the recesses of the jaws, preferably at least the recesses in the jaws with a CAD / CAM processes are produced.
• a bonding agent be applied in the surface of the recesses or on the surface of the prosthetic tooth or on the surfaces of the denture teeth prior to the application of the jaws to the prefabricated prosthetic tooth or prefabricated denture teeth.
• step 1) the jaws are applied to the prosthetic tooth or the denture teeth in such a way that the applied jaws completely enclose the prosthetic tooth or prosthesis teeth at a central circumference annularly and the clamping jaws on both sides of the prosthetic tooth or denture teeth abutting each other flat, each prosthetic tooth is fixed in a separate continuous passage of the composite jaws and each passage is formed by the recesses of at least two jaws, and in step 2) the jaws are attached to each other.
• a device for holding denture teeth having at least two composable or assembled jaws, which have marginally arranged on the jaws recesses, wherein the device in the assembled state has at least one continuous passage or at least one continuous column, preferably having several continuous passages, each passage or column through the edge arranged on the jaws recesses of at least two jaws are limited, wherein the inner surfaces of the recesses at least partially each form a negative part of the surface of a certain prefabricated prosthetic tooth, so that when the particular prosthetic tooth is inserted into the passage or the recesses of the column that it is held in an interference fit from at least three directions of the assembled and attached jaws.
• passage or gap extends from one side to an opposite side of the assembled jaws.
• bores with an internal thread can be provided in the clamping jaws or on the clamping jaws, which lie one above the other in the assembled state, wherein the device has a screw or preferably a plurality of screws with an external thread matching the internal thread. With the screw or screws, the jaws can be screwed.
• holes are provided without internal thread and the jaws are fastened together with a screw and a lock nut.
• fastening means are click connections, tongue and groove, snap-in connections or plug connections.
• Such fastening means are preferably arranged on the connecting surfaces between the clamping jaws.
• the clamping jaws consist of a hard non-deformable material, preferably of a material having a modulus of elasticity of at least 1.5 GPa, more preferably of at least 4 GPa.
• Materials with such moduli of elasticity are particularly suitable for the clamping jaws, since it is particularly important for dimensional stability of the clamping jaws. It can also be provided that the prosthetic tooth or the prosthetic teeth can be fixed only in a predetermined position and orientation in the assembled jaws.
• the coronal end and the basal end of the denture tooth or the coronal ends and the basal ends of the denture teeth survive on both sides of the composite jaws when the prosthetic tooth or denture teeth are or are inserted into the assembled jaws clamped denture teeth from both sides, namely the coronal side or the occlusal side and the basal side can be reworked.
• a set for carrying out such a method comprising at least one prefabricated denture tooth, preferably a plurality of prefabricated denture teeth, and at least one such device.
• the set additionally comprises a carrier with at least one trough for receiving a coronal or basal end of at least one prefabricated prosthetic tooth, in particular a support plate having at least one trough for receiving a coronal or basal end of a prefabricated prosthetic tooth.
• the set additionally contains the first data set for the outer shape of all prefabricated denture teeth and the second data set for the position of the prefabricated denture teeth in the assembled clamping jaws, preferably on a data carrier.
• the invention is based on the surprising finding that it is known through the use of prefabricated prosthetic teeth with known and / or standardized form succeeds with the help of matching to the prefabricated prosthetic teeth jaws the denture teeth stationary and oriented clamped in a central region, so that the denture teeth are both basally and coronally accessible and can be post-processed.
• the method and the device and the set are particularly well suited for machining with CAD / CAM methods.
• the retouched prosthetic teeth can be removed without residue by loosening the fastening means of the jaws and are immediately available for the treatment of a patient.
• the attachment of denture teeth is fast and easy to carry out.
• the jaws are easily reusable. An elaborate production of the holder, as necessary for wax holders, is omitted in the inventive method.
• the device and the jaws are stable to external influences such as heat or cold and it comes not to warping or deformation of the device or the jaws and thus not to changes in position of the prosthetic teeth within the device or the jaws.
• the great advantage of the method according to the invention lies in the very fast and almost tool-free and tool-free implementation. As a result, it is possible to dispense with the provision of larger storage quantities and order-related packaging can be carried out. Also eliminates the otherwise necessary for wax cleaning by brewing or brushing the denture teeth.
• the method is very efficient, since there is a reusability of the jaws depending on the degree of grinding of the denture teeth. It was found that, surprisingly, a good fixation of the denture teeth can be achieved even at low heights of the jaws.
• the introduction of contact agents can improve the compound even more.
• polyvinyl alcohol can be used, which forms an adhesive bonding layer after solvent contained by evaporation.
• the invention may provide, for example, that the prosthetic teeth are provided in the jaws as a holder, so that they can be ground directly by machine in the CAM process and thus can be adapted to the individual situation of the patient. Primary will be the basal The surface is ground, but the occlusal surface can also be reworked by machine for individual adjustment of the chewing function.
• the prefabricated denture teeth must be positioned and held in a predefined position within the gripping jaws that can be clamped in the machine.
• the assembled jaws may have different shapes (square, rectangular, round, etc.) and are conveniently adapted to the picking mechanism of the particular CAM machine.
• a holder for attachment in the CAM machine is provided on the clamping jaws or on at least one of the clamping jaws.
• the prefabricated prefabricated denture teeth are held by the jaws in press fit.
• the denture teeth and jaws are not damaged when removing the denture teeth and can be reused if necessary.
• the denture teeth are fixed via two prefabricated moldings or clamping jaws.
• the jaws are reusable by opening and inserting new denture teeth.
• the jaws have outside on a, adapted to the images of different milling machines geometries.
• the jaws are made of deformation-resistant material, for example, an elastic plastic material such as polymethyl methacrylate - PMMA or polyurethane - PU or other plastics with filler or metal materials.
• the jaws are preferably produced by milling, but can also be produced by injection molding or sintering.
• the jaws preferably have a height of between 3 mm and 10 mm for better grasping of the denture teeth.
• an additional contact agent for example, polyvinyl alcohol - PVA
• an additional support plate is used to pre-position the denture teeth.
• Figure 1 a schematic transparent side view of a device according to the invention
• Figure 2 is a schematic perspective view of a device according to the invention, are fixed in the six prosthetic teeth
• FIG. 3 shows a schematic plan view of a carrier plate of a set according to the invention
• FIG. 4 shows a schematic plan view of a carrier plate of a set according to the invention with four prosthetic teeth inserted
• FIG. 5 shows a schematic perspective view of a clamping jaw of a device according to the invention applied to a carrier plate and to the prosthetic teeth;
• FIG. 6 shows a schematic perspective view of two clamping jaws of a clamping device according to the invention applied to a carrier plate and to prosthetic teeth
• FIG. 7 shows a schematic perspective view of a device according to the invention, in which four prosthetic teeth are fixed
• Figure 8 is a schematic perspective view of a device according to the invention with three jaws, are fixed in the twelve prosthetic teeth;
• FIG. 9 shows a schematic plan view of a further device according to the invention, in which three prosthetic teeth are fixed.
• FIG. 1 shows a schematic transparent side view of a device according to the invention.
• a prosthetic tooth 1 with a basal end 2 and a coronal end 3 is clamped.
• the device has two clamping jaws 4, 6 of a dimensionally stable plastic, between which the prosthetic tooth 1 is clamped.
• the dashed lines indicate that the clamping jaws 4, 6 are slightly flatter in the direction of the prosthetic tooth 1.
• the middle solid line between the jaws 4, 6 represents the contact surface between the composite jaws 4, 6.
• the prosthetic tooth 1 is first held by means of a carrier (not shown).
• the wearer holds the prosthetic tooth 1 on the basal side 2 or on the coronal side 3.
• the middle area between, where the jaws 4, 6 should rest, must not be covered by the wearer.
• the clamping jaws 4, 6 are applied to this central region and connected to each other via a fastening means (not shown).
• edge-side recesses are provided in the jaws, in which the prosthetic tooth 1 is contained in FIG.
• the peripheral recesses form in the assembled state of the jaws 4, 6, without a denture tooth 1 is inserted, a continuous passage through the device, which serves to hold the denture tooth 1.
• the denture tooth 1 can also be inserted directly into the recess of one of the clamping jaws 4. However, it is then to pay attention to a reasonably accurate positioning. Subsequently, the second jaw 6 is applied, pressed and fixed to the first jaw 4. As a result, the prosthetic tooth 1 is oriented and fixed.
• An adhesive or adhesive may be used to hold the jaws 4, 6 together. However, a releasable fastener such as a screw or an easily releasable fastener such as a clamp are preferred.
• the two jaws 4, 6 and the denture tooth 1 are rigid and are firmly fixed to each other so that the exact location and the exact alignment of the prosthetic tooth 1 is clearly defined when the device is clamped with the denture tooth 1 for post-processing in a milling machine or other device for performing a subtractive method on the denture tooth 1.
• the denture tooth 1 must not be moved by the mechanical stresses during machining and, on the other hand, the original position in the application of CAM techniques must be precisely known in order to meet the high accuracy requirements with regard to the exact shape of prosthetic teeth.
• the jaws 4, 6 must be made of a hard, rigid and, above all, dimensionally stable material for the exact local strength of the denture tooth 1.
• the prosthetic tooth 1 is particularly and according to the invention preferably possible if the recesses in the jaws 4, 6, in which the denture tooth 1 is or is to be kept, based on the same shape or the same data was prepared with the or with which the denture tooth 1 itself was made.
• both the denture tooth 1 and the inner surfaces of the recess of the jaws 4, 6 are made with a CAD / CAM method based on the same data on the shape of the surfaces, a precise fit and a stable stationary and orientation-proof (orientation-proof) Fixation of the denture tooth 1 in the device possible.
• This knowledge of the invention also applies to all other embodiments and applies in general. Since the number of prosthetic teeth 1 available on the market by CAD / CAM methods is steadily increasing, the design according to the invention is becoming increasingly applicable.
• FIG. 2 shows a schematic perspective view of a device according to the invention, in which six prosthetic teeth 1 each having a basal side 2 and a coronal side 3 are fixed.
• the device consists of two parts, namely a first jaw 4 and a second jaw 6.
• the first jaw 4 has at the edge of the connection surface to the second jaw 6 at least one pin 7 or at least one spring 7, which in a groove or recess of the second Jaw 6 can be plugged on the corresponding contact side.
• the two jaws 4, 6 are stably connected to each other.
• each six recesses which are roughly semicircular seen, so that in the composite device roughly form circular ducts, the inner surfaces strictly speaking a negative of outside shape of the prosthetic teeth 1 to be used, so that in each of the six bushings or in each of the six recesses exactly one denture tooth 1 is fixable.
• the inner surfaces of the recesses are adapted to the outer shape of the respective prosthetic tooth 1, so that each prosthetic tooth 1 is assigned a specific recess in the clamping jaw 4, 6 and thus a specific position or a specific passage in the assembled device.
• These embodiments represent a general principle of an advantageous embodiment of the invention and can be applied to all embodiments for holding a plurality of prosthetic teeth 1.
• the advantage lies in the fact that the post-processing of several denture teeth 1 can be performed for a single patient.
• the prosthetic teeth 1 are arranged in Figure 2 in a row. With a corresponding arrangement of the recesses, these can also be arranged offset from one another.
• the jaws 4, 6 again consist of a rigid and hard and dimensionally stable material.
• the material has a modulus of elasticity of at least 10 GPa in order to withstand deformation of the jaws 4, 6 in the mechanical stresses caused by reworking the denture teeth 1.
• the clamped and fixed prosthetic teeth 1 can be clamped with the device into a computer-controlled CAM four-axis milling machine in order to machine the accessible basal sides 2 and coronal sides 3 of all denture teeth 1.
• the groove of the second jaw 6 and the spring 7 of the first jaw 4 serve as fastening means.
• a support plate (not shown) can be used.
• FIG. 3 shows a schematic plan view of such a carrier plate 8 of a set according to the invention for implementing a method according to the invention.
• the sequence of method steps according to the invention is shown in FIGS. 3 to 7.
• the support plate 8 may consist of a simple plastic.
• four troughs 10 for positioning prosthetic teeth (not shown in Figure 3) are shown.
• the troughs 10 are a negative of the outer shape of four basal ends of prosthetic teeth, so that the prosthetic teeth can and must be used clearly and correctly oriented.
• different troughs 10 may also be provided for different denture teeth of different tooth types.
• four prosthetic teeth 1 are inserted into the wells 10.
• FIG. 4 shows a schematic plan view of the carrier plate 8 of a set according to the invention with four prosthetic teeth 1 inserted.
• the denture teeth 1 can be used only in a certain position and a specific orientation in the wells 10.
• the denture teeth 1 are only loosely inserted into the support plate 8.
• the Prosthetic teeth 1 adhere with a bonding agent in the wells 10 or hold by a suitable shape of the wells 10 in a slight interference fit in the wells 10.
• the coronal sides 3 of the denture teeth 1 are exposed in this arrangement.
• the prosthetic teeth 1 lie with the coronal side 3 in mating recesses 10. Also, a mixed alignment is possible, although not advantageous.
• FIG. 5 shows a schematic perspective view of the first clamping jaw 4 of a device according to the invention applied to the carrier plate 8 and to the prosthetic teeth 1.
• the inner surfaces of the recesses correspond to the outer shapes of the prosthetic teeth 1 in a central region, which begins at a height of the prosthetic teeth 1, which protrudes from the wells 10 of the support plate 8.
• the inner surfaces of the four recesses and the shape of the troughs 10 can be produced by a CAD / CAM method by using the molds used to make the prosthetic teeth 1 as a data set or by previously reading or scanning them.
• click mechanisms 12 or latching connections 12 are provided, which fit into corresponding counterparts on the connection surface of the second clamping jaw 6. The next process step, therefore, the second jaw 6 is created.
• FIG. 6 shows a schematic perspective view of two clamping jaws 4, 6 of a device according to the invention applied to the carrier plate 8 and to the four prosthetic teeth 1.
• the jaws 4, 6 are connected to one another via the click mechanisms 12 or latching connections 12.
• the jaws 4, 6 could also be divided once or several times into a larger number of jaws.
• Such a system has the advantage that only the desired Prosthesis teeth 1 are clamped and no unfilled passages remain in the device.
• Such a system represents a particularly variable and therefore particularly preferred further development of the present invention.
• the second clamping jaw 6 is also placed on the carrier 8 on the denture teeth 1. Just as in the first jaw 4, the second jaw 6 to the prosthetic teeth 1 matching recesses, which surround the prosthetic teeth 1 in a central region on one side and there lie flush and positive fit.
• the assembled jaws 4, 6 should press on the denture teeth 1 so that they are held stable and can not rotate about an axis in the plane of the jaws 4, 6.
• the recesses of the jaws 4, 6 or formed by the recesses of the composite jaws 4, 6 penetrate the device fully, flat and positive fit to the denture teeth 1, as this one hand, a stable grip of the denture teeth 1 in the device is ensured and on the other hand the risk of deformation or damage of the prosthetic teeth 1 by the hard jaws 4, 6 can be avoided.
• Figure 7 shows a schematic perspective view of the device in which the four prosthetic teeth 1 are fixed and the support plate 8 has been removed. It can be clearly seen that the basal sides 2 and the coronal sides 3 of the prosthetic teeth 1 are accessible on each side of the device and can be processed. The device is then clamped with the fixed four denture teeth 1 in a four-axis milling machine or other device for implementing a CAM method. The processing of the prosthetic teeth 1 can take place on the basis of data previously recorded in the oral cavity in order to adapt the denture teeth 1 to the oral cavity situation. For a good fit, the denture teeth 1 are basal processed and for good occlusion, the coronal sides 3 of the denture teeth 1 are processed. Such methods are known and for details, reference is made to WO 201 1/066 895 A1.
• the device After processing the denture teeth 1, the device is removed again from the milling machine and the two jaws 4, 6 separated from each other. The denture teeth 1 are then isolated and can be used in a patient.
• Figure 8 shows a schematic perspective view of an alternative device according to the invention with three jaws 4, 6, 14, are fixed in the twelve prosthetic teeth 1 in two rows.
• the first jaw 1 and the second jaw 6 each have six semicircular recesses for receiving the prosthetic teeth 1.
• the middle third clamping jaw 14 has on each of two opposite edge sides six semicircular recesses, so that the third clamping jaw 14 has a total of twelve recesses.
• the denture teeth 1 may have been previously placed on two support plates or another support or a holder in the positions and orientations shown in each case in a row or the denture teeth 1 are simply inserted into the recesses of the central support plate 14.
• the positions need not be exact on the support, since the prosthetic teeth 1 are brought into the correct position and orientation when applying and fastening the jaws 4, 6, 14, if only small deviations were present on the support.
• the first jaw 4 is inserted with a spring 7 in a groove of the third jaw 14 and the two jaws 4, 14 thereby secured to the fixed prosthetic teeth 1 in the recesses together.
• six further denture teeth 1 are applied via a carrier system or without a carrier system to the remaining six free recesses of the third jaw 14 and the third jaw 14 is connected by a spring 15 in a groove of the second jaw 6 with this.
• the middle jaw 14 already rests or loose is attached, then the prosthetic teeth 1 inserted into twelve wells of the support plate and placed in the twelve recesses of the middle jaw 14. Thereafter, the other two jaws 4, 6 are applied from the outside to the denture teeth 1 in the support plate and to the middle jaw 14. Thereafter, the carrier plate is removed, resulting in the structure shown in Figure 8.
• FIG. 9 shows a schematic plan view of a further alternative embodiment of the invention.
• three prosthetic teeth 21 are fixed between two clamping jaws 24, 26.
• the occlusal surfaces of the prosthetic teeth 21, that is, the coronal sides of the prosthetic teeth 21, can be seen in FIG.
• the two clamping jaws 24, 26 are not directly adjacent to one another but are separated from each other by the prosthetic teeth 21 and a gap 30.
• a perforated plate 27 is fixed in each case, via which the clamping jaws 24, 26 can be fastened to one another.
• the attachment is carried out with a respective screw 28, which is inserted through holes 27 of the perforated plates 27 of both jaws 24, 26 and is fixed on the opposite side by a respective lock nut 29.
• the prosthetic teeth 21 are positively and flush in three recesses of the jaws 24, 26 at. Due to the spacing of the two clamping jaws 24, 26, the entire pressure is applied only to the prosthetic teeth 21, so that a particularly stable holding is achieved.
• the pressure is mainly from two directions (in Figure 9 from the right and left), while the holding force in the direction perpendicular thereto (in Figure 9 from above and below) is weaker than in a completely surrounding fit.
• the recesses of the clamping jaws 24, 26 do not form passages through the device. Instead, remains in the assembled state in the device, a gap 30, wherein the prosthetic teeth 21 are positioned within the gap 30 in the designated recesses of the jaws 24, 26.
• a simple screw clamp with flat pressing jaws would be unsuitable, because this would stress the denture teeth 1, 21 too much punctually and a rotation about the axis of the contact points would be possible. Therefore, it is of central importance for the present invention to produce a flat or positive contact between the prosthetic teeth 1, 21 and the clamping jaws 4, 6, 14, 24, 26.

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• 2013
  • 2013-11-19 DE DE102013112747.9A patent/DE102013112747A1/de not_active Ceased
• 2014
  • 2014-11-07 US US15/037,396 patent/US20160278893A1/en not_active Abandoned
  • 2014-11-07 ES ES14798767.1T patent/ES2687190T3/es active Active
  • 2014-11-07 WO PCT/EP2014/074034 patent/WO2015074897A1/de active Application Filing
  • 2014-11-07 EP EP14798767.1A patent/EP3071142B1/de active Active
  • 2014-11-07 CN CN201480063184.4A patent/CN105744910B/zh active Active

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