DE4012327A1 - Producing dental workpieces by copy milling - using dental jaw model for reception of dental workpiece which is ground in established direction on basis of milling template - Google Patents

Abstract

The dental jaw model (6) or similar undergoes an ideal preparation corresp. to the specified task and an analysis by a parallelometer, using a parallelometer grinding system (10). The preparation data are further transmitted to a computer (2) and a 3-D milling unit (3) and a grinding body (17), and servo motors (28a, b) are used with horizontal and vertical rotors. A milling template (4) is adapted for positioning in the mouth of the patient, e.g. using a turbine grinder (36) or a grinding body (17). Following the positioning and fixing of the template(s) in the mouth of the patient, the scanning of the grinding body (5/46) is carried out through the milled out part (26) of the template (4) and the ideal preparation of the jaw model (6) is transmitted to the natural teeth. Also supplied across the cable connections (14) are rotary and linear potentiometers, photo-electric measurement systems and laser interferometer or similar as displacement and angle sensors. USE/ADVANTAGE - Producing dental workpieces e.g. bridges and crowns using copy grinding. Time saving, improves accuracy and reduces possibilities of faults. Reduces stress on patient and dentist.

Description

The invention relates to a method for producing tooth technical workpieces or the like by means of copying milling.

When making a prosthetic work, especially in crown and bridge technology, but also in combination fixed and removable prosthetic Working and educating in conservative dentistry the preparation by means of rotating grinding wheels, the in a dental turbine or in a dentist Lich angled be clamped, an essential component.

The jaw situation prepared in this way has to be countered current state of the art on the most error-free Impression taking implemented in a plaster or plastic model be, the resulting expansion by known Model systems can be at least partially compensated.

In the manufacture of the dental workpiece in the vast majority of cases this is still the case today Metal framework based on wax modeling in the casting process represents, the die casting and the casting in the casting centrifuge are the best known methods.  

In recent times, moreover, in the casting process too Glass ceramic masses processed or the computer techno Logic is increasingly gaining ground, especially with deposits fillings, the preparation was evaluated using a photograph and then the restoration in a 3-D milling process will be produced.

While in the casting process after incorporation of the prothe table or preservative work of the marginal gap between Restoration and natural tooth are kept to a minimum can, shows the addressed computer technology in 3-D Milling processes currently still major defects, beyond that at least for the time being, such restorations do not allow loading working the occlusal surfaces so that the dentist the occlusal relief with its contact point relationships again produced using a rotating grinding wheel must become.

It should not go unmentioned that computer-based Milling processes add a lot of technical effort have poor marginal gap that on the other hand the Pa tient in a single session, for. B. with a ge milling ceramic restoration can be supplied.

Specifically, this means that such a patient often very long waiting time between preparation and completion spared in the laboratory, which ultimately only by one  provisional care can be bridged.

However, the provisional for extensive pro problematic care, in addition to the kos Metically often unsatisfactory appearance due to the plastic Gum irritation can occur and the contact Point relationships with the antagonistic teeth are often difficult and ultimately be made unsatisfactory.

With the above Explanation is based on the problem of Ab pressure after preparation not received where it due to bleeding that is often difficult to stop or because of the Dimensional behavior of the impression material too imprecise leads in the impression and ultimately in the model, whereby Possible errors due to improper mixing of the Ab pressure components can also occur.

Another possibility of error arises with the manufacturing against major prosthetic bridge work by straying the pillar axes, so that a common one thrust direction is often difficult to see on the patient and not infrequently a lot due to the grinding process Tooth substance is removed, causing the tooth to open pulpa or to the heat trauma of the tooth nerve with eating necrotization.

The present invention is therefore based on the object to create a method and device that it ge on the one hand the patient the annoying carrying in sufficient provisional to spare the number of he to reduce required dental appointments, an ideal and tooth-friendly preparation to carry out the to reduce stress for patient and practitioner adorn and specify the preparation as such and to simplify.

This has far-reaching consequences for the dental Care by making all dentists almost equally precise Work can be enabled by liberating session appointments for other patients more treatment time Is available because the process leads to stress relief, by creating more precise restorations in the laboratory the can and the quality differences between high valuable and still satisfactory prosthetic work to be leveled. In addition, in the environment the dentist will be asked other criteria that differ especially positive for the patient, not only the manual dexterity of the tooth doctor decides on his qualifications, but also human aspects, like dealing with his Move patients to the fore.  

When solving the task, reference is made to that in the Industry-known copy milling methods used.

In a modification of the current procedure, the natural teeth of a bit to be restored next by removing caries or by ab take old fixed restorations with the subsequent Therapy of the old abutment teeth for the later one Preparation prepared.

In particular, the interdental area between a new one Restoration and a tooth that is not to be touched exactly to represent the interdental space by grinding of the later pillar tooth opened. Because in general especially for crowns, the crown margin in the invisible Area, d. H. in the shadow of the gum pocket the existing sulcus must then be placed be opened with suitable threads or with the electric motor.

In this way, an optimal impression is obtained, whereby all conventional and suitable impression materials Can be used that a precise reproduction of a allow existing situation.

Apart from the interdental spaces that opened up to final preparation z. B. with a composite plastic can be locked and apart from the necessary  post restoration after removing old crowns and bridges through suitable temporary restorations is the patient first of all another dental treatment spared.

The impression obtained is now z. B. with a Milled plastic poured exactly and bubble-free, so that the resulting jaw model is the natural situation tion reproduces almost 1: 1.

To be created according to the dentist's instructions The model will then become the dental workpiece using a parallelometer to measure larger Bridge formations a common direction of insertion with mini painter later substance sacrifice of the natural tooth increase.

In this direction of insertion, the dental jaw model using standardized grinding wheels with an optimal Provide preparation, at the same time or by means of Storage unit of an intermediate computer a later point in the copy milling process Milling template is created in the required Device is aligned so that it is perpendicular to The direction of insertion is fixed and identical to their position transferable to the patient's mouth on the jaw model is.  

In the duplication process by copying already processed The preparation can be helpful for jaw models to divide into several steps so that later several Milling templates are available that allow step by step the model preparation on the natural Transfer teeth.

In a preferred embodiment, the milling cutter blones are placed in the patient's mouth so that the abduct groping two- or three-dimensional free milling the teeth to be prepared.

The mentioned free cuts have one with the Direction of insertion of the dental workpiece correct ponding circulation based on the preparation limit of the height of a prepared crown varies.

Alternatively, it is conceivable that within the ring gear free milling is created in the milling template, which is then computer-controlled on a smaller scale lie and later the dissection of the na Allow door tooth, being only two dimensions are to be converted.

The model-adjusted milling template is made according to the place the prosthetic work in the same position fixed in the patient's mouth and the free cuts parallel  drive around to the direction of insertion, preferably in the off the drive of the grinding wheels with a guide plate, a guide ring, a roller bearing or the like and if necessary with a holding magnet to secure the on direction of parallel movement is provided.

The grinding wheel can also be driven by a spring elements, a spring bolt or the like to the Free milling pressed and the force-metered movement the grinding wheel along with the insertion direction a spring, controlled with spring plates or the like will.

It is important to note that the abrasives for the model preparation and the grinding tools for the Preparation in the patient's mouth in the work area other are coordinated.

To scan the milling template, on the one hand, in Pa the grinding wheel itself with a portion for the direction of insertion and a portion for the Scan the edge relationship, on the other hand it is conceivable that the grinding wheel holder be preferred used turbine as a tracing aid is.  

It should also be mentioned that the working area of both Slightly conical or tapered grinding wheel should be on the one hand to incorporate the dental tech African workpiece to facilitate, on the other hand sufficient To ensure friction on the tooth.

In addition, it can be helpful to work areas of the grinding wheel are stepped so that the step shown on the tooth as an auxiliary line to occlusal height reduction can be used in the model situation in the laboratory for making the pro theoretical work was carried out without exact specification.

It is to be added that the grinding unit as the drive unit The dental turbine can be used for the mouth on the other hand, it can be helpful to use a modified one Turbine to use the guide above plate, the guide ring, a roller bearing or the like, the spring elements or spring bolts as well as the compression spring or has the spring plate integrated. Even the one at handle required for normal dental work the dental turbine is part of the registration The process is oversized and can be based on a ver smaller size can be reduced.

It must also be added that the milling templates are made Made of metal or plastic and in two dimensions Scanning area are designed flat.  

In a preferred embodiment, these are with a ferro magnetic layer, so that a holding magnet for security tion of the parallel movement to the direction of insertion can be used. The milling stencils on the opposite side of the scanning plane with imprint well-shaped impressions or with the help of fixations elements such as brackets or the like or with the help of retentions for auxiliary material such as impression material fixed.

Milling templates with tongue protection and integrated suction device feasible.

In the compilation, advantageous results designs of the device from claims 11-33.

The method according to the invention allows minimal Preparation effort for an exact situation imprint and by means of a situation produced therefrom models, possibly step-by-step using a duplicated model situation, an ideal pillar preparation for admission of a dental workpiece that is in front of the specimen tion of the natural teeth for inclusion manufactured.

The device according to the invention enables in copy milling process the production of milling templates, which the exact implementation of a model preparation in the patient  ensure mouth.

The invention is described in the following description of embodiments shown in the drawings explained in more detail.

Show it:

Fig. 1 shows a schematic representation of the general view of the cutting device with the pictorial sequence of the individual steps,

Fig. 2 is a placed on a natural tooth milling template in a vertical arrangement to the indicated direction of insertion as well as an abrasive with Ab tastanteilen and its working range in a turbine as a driving device,

Fig. 3 is a milled clearance with höhenvariablem circulation,

Fig. 3a with the undercut höhenvariablem circulation in section,

Fig. 4 is a detail view of an abrasive body for the model preparation,

Fig. 4a shows a variant of such abrasive grit with stage

Fig. 5 is a detail view of an abrasive body for Free milling the milling template,

Fig. 6 is a detail view of an abrasive device for the preparation of natural abutment teeth with Ab tastanteilen and working area,

Fig. 7 shows a possible grinding device for the patient's mouth with Abtastanteilen in the receiving region for the illustrated grinding body, with a guide plate, magnet, and spring elements in a section through a free-milling in the preparation phase of a natural abutment tooth,

Fig. 8 shows a variant of a milling template with tongue protection and integrated suction device.

Fig. 1 shows a schematic representation of the overall view of a preferred copy-milling device with the pictorial sequence of the individual steps up to the implementation of the model preparation in the patient's mouth. In addition to a known parallelometer ( 7 ), this consists of a grinding device ( 10 ) with a grinding body ( 1 ), a computer ( 2 ) with a preferred intermediate storage unit, a computer-controlled 3-D milling unit ( 3 ), which is controlled by a computer ( 2 ). is controlled and manufactured in the milling template ( 4 ) which, fixed in the patient's mouth, allows the preparation of the natural tooth by means of grinding bodies ( 5 ).

Fig. 1 makes it clear that model ( 6 ) is first analyzed using a parallelometer ( 7 ) for optimal preparation, model ( 6 ) being fixed in model carrier ( 8 ) which can be moved on the parallelometer base plate ( 9 ) is arranged.

In the parallelometer-like grinding device ( 10 ) the grinding body ( 1 ) is arranged, the ideal preparation in model ( 6 ) on the vertical rotor ( 11 ) and the horizontal rotor ( 12 ), which in turn allows a rotational movement around the guide element ( 13 ) , the insertion direction of which was determined by means of a parallelometer ( 7 ). Here model carrier ( 8 ) is used, in the model ( 6 ) z. B. spatially adjustable by means of an invisible spherical cap and fixable by fixation element ( 29 ). Via the cable connections ( 14 ) and z. B. via rotary and linear potentiometers (not shown here), photoelectric measuring systems, laser interferometers or the like as path and angle sensors, computer ( 2 ) receives the information about the movement coordinates of grinding wheels ( 1 ), which is driven by the drive device ( 30 ). rotates. This information can be stored in a buffer of the computer ( 2 ) or transferred to a floppy disk.

Computer ( 2 ) passes the tapped information from grinding device ( 10 ) to the 3-D milling unit ( 3 ), the z. B. on the indicated servomotors ( 28 b, a) controls the vertical rotor ( 15 ) and the horizontal rotor ( 16 ), while the Ro tion in the variant shown is done by a servomotor ( 28 c) and wherein horizontal rotor ( 16 ) grinding wheel ( 17 ) records. For feedback for comparison and for correcting the position of grinding wheel ( 17 ) in computer ( 2 ), position and displacement sensors comparable to the grinding device ( 10 ) and corresponding actuators are preferably used. Is preferably in the grinding device ( 10 ) or already in the parallelometer ( 7 ) milling template ( 4 ) on a duplicated model ( 18 ) perpendicular to the insertion direction adapted to the patient, and with model carrier ( 8 ') on the base plate ( 19 ) of the 3D -Milling unit ( 3 ) has been transferred.

The preparation of the milling template ( 4 ) takes place in the illustrated variant with a turbine-like grinding instrument ( 36 ) and grinding tool ( 17 ).

If alternatives are also conceivable that allow a separate take on the milling template ( 4 ), the variant shown is particularly useful insofar as the surface already on the model-side milling template z. B. tooth impressions or holding elements can be attached, which allow the later fixation of the milling template ( 4 ) in the patient's mouth. This last-mentioned process is also shown in FIG. ( 1 ), where a patient is sketched, on whose lower jaw a milling template ( 4 ) is fixed, the turbine ( 20 ) with grinding body ( 5 ) tracking the ideal model preparation in the patient's mouth.

Fig. 2 shows in a preferred embodiment, placed on a natural tooth (21) routing template (4) in perpendicular right arrangement for the indicated direction of insertion (22) and a grinding body (5) with Abtastanteilen (23/24) and a working area (25) in a Turbine ( 20 ) as a drive-drive device.

In the figure shown, the free milling ( 26 ) created by the 3-D milling unit ( 3 ) is positioned over tooth ( 21 ), the grinding wheel ( 5 ) with its scanning portion ( 23 ) and the guide plate ( 48 ) being movable in parallel is, while the scanning portion ( 24 ) taps the vertical dimension dimension. In the variant shown, grinding wheel ( 5 ) is taken up in a conventional turbine ( 20 ). The grinding wheel ( 5 ) is (not shown here) resiliently mounted in the turbine head, so that it strives for its deepest position determined by the height-variable rotation of the milling template in the course of its axis.

Fig. 3 shows disproportionately free milling ( 26 ) with the high variable revolution ( 27 ).

Fig. 3a also shows disproportionately the free milling ( 26 ) with its height-variable circulation in section.

Fig. 4 shows a detail view in a preferred embodiment of an abrasive body (31) for the model preparation. It is divided into a drive shaft ( 32 ), a work area ( 33 ) and, in the form shown, has a stop ( 34 ) for receiving the grinding wheel ( 1 ). Usually, contrary to the illustration, as shown in FIG. 2, the working area is tapered.

Fig. 4a shows a variant of the grinding body (31) with step (35) that facilitates the occlusal reduction of the natural tooth at the end of the preparation. Of course, when using such a graded grinding instrument, those with different working areas must be available.

Fig. 5 shows a detailed view of a grinding wheel to create the free millings ( 26 ) of the milling template ( 4 ). This grinding wheel is also provided with a drive shaft ( 37 ) and a stop ( 38 ). A special feature is that the milling parts ( 39/40 ) are matched to the scanning parts ( 23/24 ) of the grinding wheel ( 5 ).

Fig. 6 shows a detail view of an abrasive device for the preparation of natural abutment teeth (21), wherein the Abtastanteile (23/24) are integrated into the grinding wheel. In the form shown, this grinding wheel ( 5 ) has a diamond-coated working area ( 41 ) and the known shank area ( 42 ).

Fig. 7 shows a possible turbine-like drive device ( 43 ), it being emphasized in this variant that the parallel scanning area ( 44 ) and the vertical scanning area ( 45 ) are part of the grinding wheel holder ( 55 ) and the grinding wheel ( 46 ) Ar beitsbereich ( 47 ) and stop ( 57 ). To ensure parallel travel, guide plate ( 48 ) is used, which fixes the drive device ( 43 ) to the routing template ( 4 ) with a magnet ( 49 ) parallel to the direction of insertion, but allows travel in the plane of the routing template ( 4 ).

Furthermore, Fig. 7 shows that for pressing the drive device ( 43 ) to the free milling ( 26 ) spring element ( 51 ) is used, which is overlapped here in guide ( 56 ) of the milling template ( 4 ), while for the metered vertical feed of Grinding body ( 46 ) compression spring ( 52 ) is used.

Fig. 7a shows spring element ( 51 ) in plan view with free savings ( 50 ) for the passage of grinding wheels ( 5 ).

Fig. 8 shows a variant of a milling template ( 4 ) with free milling ( 26 ) shown and, as a special feature, tongue protection ( 53 ) with integrated suction device ( 54 ).

Reference symbol list

1 grinding wheel
2 computers
3 3-D milling unit
4 milling template
5 grinding wheels (patient)
6 model
7 parallelometers
8 model carriers (parallelometer)
8 ′ model carrier (3-D milling unit)
9 parallelometer base plate
10 grinding device
11 vertical rotor
12 horizontal runners
13 guide element
14 Cable connection
15 vertical runners
16 horizontal runners
17 grinding wheels (eD milling unit)
18 duplicated model
19 Base plate of the 3-D milling unit
29 turbine
21 natural tooth
22 direction of insertion
23 sample rate
24 sample rate
25 work area
26 Free milling
27 circulation
28 a servomotor for horizontal movement (x)
28 b servomotor for vertical movement (y)
28 c servomotor for rotation (z)
29 fixation element
30 drive device / turbine
31 grinding wheels
31 ′ grinding wheel (variant)
32 drive shaft
33 work area
33 ′ work area
34 stop
34 ′ stop
35 gradation
36 grinding instrument
37 drive shaft
38 stop
39 milling content
40 milling share
41 work area
42 shaft area
43 drive device
44 parallel scanning range
45 vertical scanning range
46 grinding wheels (variant to 5)
47 Work area
48 guide plate
49 magnet
50 exemption
51 spring element
52 compression spring
53 Tongue protection
54 suction device
55 grinding wheel holder
56 leadership
57 stop
57 ′ stop

Claims (33)

1. A process for the production of dental workpieces or the like by means of copy milling, characterized in that a dental jaw model or the like ground by means of grinding bodies for receiving an example of a dental workpiece in a fixed direction and that at least one preferably simultaneously or later in the copy milling process and manufactured in the patient's mouth fixed milling template by means of abrasive bodies coordinated in the working area which will transfer the model preparation to the natural teeth. 2. The method according to claim 1, characterized, that the model preparation according to the tasks position by a parallelometer-like grinding instrument is carried out, its movement by means of Position and / or displacement sensors in at least one axis at the latest at the end of the preparation.   3. The method according to at least one of claims 1, 2, characterized, that preferably at the same time or by means of intermediate storage with the model preparation via a computer-controlled 3-D Milling unit at least one milling template is manufactured, those for transferring the model preparation to the natural teeth. 4. The method according to at least one of claims 1-3, characterized, that the milling template preferably at right angles to the fixed direction of insertion of the dental workpiece is fixed. 5. The method according to at least one of claims 1-4, characterized, that several milling templates preferably with intermediate spit Saving time separately or simultaneously with the model preparation and form a sequence that Gradually allow preparation on the teeth. 6. The method according to at least one of claims 1-5, characterized, that the milling template / s is placed in the patient's mouth be that the free millings to be scanned over the teeth to be prepared.   7. The method according to at least one of claims 1-6, characterized in that the free cuts with the direction of insertion of the dental workpiece corresponding circulation in the form of a stage or the have the same, each for recording the third Dimension is adjusted in height to the model situation. 8. The method according to at least one of claims 1-5, 7, characterized, that the free cuts after placing the milling template in the patient's mouth within the dental arch and ent are placed appropriately proportioned, the Be movement of the grinding wheel after tapping the free milling precisely determined by means of a computer and is processed further. 9. The method according to at least one of claims 1-8, characterized, that the fixation of the milling template / s in the patient's mouth on impression-shaped impressions of the milling cutter blone / n, on prepared and tapped milled areas on the teeth or by means of auxiliary elements such as brackets or the like and / or auxiliary materials such as an impression material, done.   10. The method according to at least one of claims 1-9, characterized, that the tapping of the free millings parallel to the one thrust direction. 11. The device for performing the method according to at least one of claims 1-10, characterized in that a parallelometer-like three-dimensionally movable grinding device ( 10 ) is provided with at least one grinding body ( 1 ) and when grinding a dental model ( 6 ) or The like is coupled via a computer ( 2 ) in the copy milling process to a second grinding device ( 3 ) and grinding body ( 17 ), in which at least one milling template ( 4 ) is anchored, the free cuts ( 26 ) obtained being matched to one in the working area ( 25 ) The grinding wheel ( 5 ) can be bypassed in parallel and can be scanned vertically. 12. The apparatus according to claim 11, characterized in that a dental jaw model ( 6 ) or the like is anchored in the grinding device ( 3 ). 13. The device according to at least one of claims 11, 12, characterized in that the anchoring of the dental jaw model relative to the grinding body ( 1 ) is spatially adjustable ( 8/8 ') and fixable ( 29 ). 14. The device according to at least one of claims 11-13, characterized in that the grinding bodies ( 1 ) with their receptacle are adjustable relative to the anchored dental model ( 6 ) or the like and then can be moved parallel in one plane and perpendicular to this. 15. The device according to at least one of claims 11-14, characterized in that the drive of the grinding device ( 10 ) z. B. as an electric motor or as a turbine ( 30 ) or the like is formed. 16. The device according to at least one of claims 11-15, characterized in that the grinding bodies ( 1 ) have a drive shaft ( 32 ) and a working area ( 33 ). 17. The device according to at least one of claims 11-15, characterized in that the computer ( 2 ) is provided with a storage unit. 18. The apparatus according to claim 11, characterized in that in the second grinding device ( 3 ) at least one milling template ( 4 ) is anchored at right angles to the axis of the grinding body ( 17 ). 19. The device according to at least one of claims 11, 18, characterized in that the grinding bodies ( 17 ) have a working area ( 39/40 ) and a drive shaft ( 37 ). 20. The device according to at least one of claims 11, 18, 19, characterized in that the receptacle of the grinding bodies ( 17 ) perpendicular to the plane of the milling template ( 4 ) is parallel and additionally movable in its longitudinal axis and that, if necessary, also position correction to position - And / or displacement sensors and actuators are available. 21. The device according to at least one of claims 11, 15 18-20, characterized in that the drive of the grinding device ( 3 ) separately z. B. is designed as an electric motor or as a turbine or at least partially coupled to the drive unit of the grinding device ( 10 ) or is identical. 22. The device according to at least one of claims 11, 18 20, characterized in that the milling templates ( 4 ) consist of metal or plastic and are preferably flat in the 2-dimensional scanning area. 23. The device according to at least one of claims 11, 18, 20, 22, characterized in that the milling templates ( 4 ) on the opposite side of the scanning plane have impression-like impressions or fixation auxiliary elements such as brackets or the like or with retentions for auxiliary material such as an impression material are provided. 24. The device according to at least one of claims 11, 18, 20, 22, 23, characterized in that the milling templates ( 4 ) consist of ferromagnetic material or have a ferromagnetic area for the effect of a magnet ( 49 ) or in / on the Scanning level are provided with auxiliary elements for parallel tapping of the free millings ( 26 ). 25. The device according to at least one of claims 11, 18, 20, 22-24, characterized in that the grinding body ( 5 ) has a drive shaft ( 42 ), a scanning area ( 23 ) for the two-dimensional milling templates, a scanning area ( 24 ) for the third dimension perpendicular to it in circulation ( 27 ) and a working area ( 41 ) matched to the grinding body ( 1 ). 26. The device according to at least one of claims 11, 14, 16, 19, 25, characterized in that the working areas ( 33/41/47 ) of the grinding body ( 1/5 ) are step-shaped, the step (s) ( 35 ) are designed as a height marking and thus as an auxiliary contour for the last necessary occlusal reduction of a natural tooth crown or the like. 27. The device according to at least one of claims 11, 25, 26, characterized in that the drive of the grinding bodies ( 5/46 ) by means of a dentistless turbine ( 20 ) or a differently shaped turbine drive ( 43 ) or via a micromotor or the like . 28. The device according to at least one of claims 11, 25, characterized in that the scanning range of the free millings ( 26 ) in the grinding wheel receptacle ( 55 ) of the drive unit ( 43 ) as part ( 44 ) for the direction of insertion and part ( 45 ) is formed for the vertical edge relationship of a tooth crown or the like. 29. The device according to at least one of claims 11, 27, 28, characterized in that the drive ( 20/43 ) of the grinding body ( 5/46 ) with a guide plate ( 48 ), a guide ring , a roller bearing or the like, possibly with a holding magnet ( 49 ) for securing the parallel to the insertion direction Ver mobility is provided. 30. The device according to at least one of claims 11, 27-29, characterized in that the drive ( 43 ) of the grinding element with a spring element ( 51 ), a spring bolt or the like is seen ver, which / for pressing the scanning area ( 44 ) the grinding wheel ( 5/46 ) is provided parallel to the direction of insertion on the contoured free milling ( 26 ). 31. The device according to at least one of claims 11, 27-30, characterized in that the drive device is provided with a spring ( 52 ), spring washers or the like for force-metered movement of the grinding body ( 5/46 ) in the course of the insertion direction. 32. Device according to at least one of claims 11, 18, 22-24, characterized in that the milling templates ( 4 ) in the region of the lower jaw are provided with a circumferential tongue protection ( 53 ) for dental use. 33. Device according to at least one of claims 11, 18, 22-24, 32, characterized in that a suction device in the form of a multi-perforated tube ( 54 ) for the dental use on the milling templates ( 4 ) to remove the necessary cooling water, Hose or the like is fixed with an integrated suction nozzle or is present separately.