DE3108700A1 - Denture model - Google Patents

Abstract

In a denture model for the fabrication of dental replacement parts in which dental stumps are releasably fixed via pins to a dimensionally stable baseplate, the reception bores for the pins in the baseplate are to be adapted to the pin shape in sections only, whereas in other sections between the wall of the bore and the outer surface of the pin there is no contact. By the reduction of the bearing surface of the pin in the bore of the baseplate, removal of the pins from the baseplate is facilitated.

Description

DENTAL MODEL

The invention is based on a denture model according to the preamble of claim 1.

In the associated main patent (patent application P 29 49 697.7-35) a Uerfahren is described for the production of a denture model in which the pins first anchored in a predetermined position on a plate made of a dimensionally stable material will. This plate with the pins is then filled in over the one filled with model material Uebißabdruck laid that protruding from the plate pin sections in the hardening Immerse the model material.

The plate thus initially serves as an auxiliary device for correct positioning Determination of the pins and then immediately as a base plate for the Eebite model.

To fix the pins on the base plate are in the main patent several alternatives are proposed. With one of these alternatives, which can be found in the Has already proven itself in practice, a cylindrical mounting hole is first made in the plate incorporated.

Then the pin comes with a conical section pressed into this hole when heated, the material of the base plate is briefly plasticized in the area of the mounting hole. It is already indicated that the hole through a correspondingly designed soldering tip of the.

conical pin shape can be adapted what the later insertion of the pen relieved.

With this method you can achieve a particularly good fit between the wall of the receiving hole and the outer surface of the pin and that over the total length of the pin section dipping into the base plate. This is in Interest in a good guidance of the pens is welcome. On the other hand, however, must be taken into account that the removal of the model from the Base plate requires a certain amount of force.

The static friction between the pin and the base plate is proportional great because the pin has an extensive bearing surface on the wall of the hole is present. This is of particular importance when the angle of inclination of the bearing surfaces is relatively small, which is usually necessary for small teeth.

In particular with slim, almost cylindrical pins, there is a decrease of the denture model from the base plate is very tedious, because it must be taken into account that the material of the base plate when it cools down tightly to the outer surface or The bearing surface of the pen fits snugly so that a kind of press fit is created. This is special disadvantageous if the pen does not have a perfectly smooth surface.

All of these factors contribute to pulling the pins out of the base plate difficult do not play a significant role in practice if one works carefully. However, it has been shown that especially when working under time pressure a model modeled with wax will be irreparably deformed if not on it make sure that all pins slide evenly out of the base plate.

The invention is therefore based on the object of the method according to to develop the main patent in such a way that the model despite sufficiently good guidance the pins in the mounting holes of the plate without much effort and in particular can be removed from the base plate without jerking.

According to the invention, this object is achieved with the characterizing features of claim 1 solved, the invention is based on the idea that the removal the pins is made easier if you consider the expansion of the storage area, i.e. the måntel area of the pin, which fits snugly against the wall of the hole in the base plate, scaled down. In other words, this means that the receiving hole is only in sections the pin shape is adapted, but in other sections between the wall of the hole and the surface of the pen is not in contact.

The idea of the invention can be implemented in several ways.

The sections of the pin forming the bearing surfaces can be cylindrical when the height of the bearing surfaces is small compared to the thickness of the plate. Even a convex design of the bearing surface sections is conceivable.

However, an embodiment is preferred in which the bore and the pin are conical in the area of the bearing surfaces. The angle of inclination can be this conical bearing surface, the larger the smaller the height of the bearing surface without the post becoming too thick overall and then with narrow tooth stumps may no longer be used.

An embodiment is conceivable in which the pin has only one bearing surface has approximately in the middle area, otherwise not closer to the wall of the bore rests in the base plate. However, the guidance is then usually not precise enough and model material could also flow into the space, causing loosening of the pen difficult. A design in which the Pen has several bearing surfaces, which in a possible large distance from each other are arranged. Optimal results are achieved when the pen is free End face tapering storage area and a storage area in the area of the parting plane between the model and the plate. The height of the two storage areas. can then be very small without fear of tilting the pin in the hole got to. The angle of inclination can be increased for storage areas with a low height, without the pen thickness exceeding a permissible level.

It is now possible to achieve angles of inclination of up to 450, where significant static friction is no longer noticeable.

The base plate is processed as follows: With a first alternative a mounting hole with a drill is made in the plate from the model side incorporated, the contour of which is exactly in the area of the later bearing surface sections corresponds to the shape of the pen. So you use one specifically for the intended one Use case produced twist drill, which is graded according to the pin shape Has conical sections.

The pin can later be placed in these holes without any additional measures be plugged in.

Another alternative is to use the Base plate incorporated a hole, the diameter of which is larger in sections is than the pin diameter, but is smaller in the area of the bearing surfaces. The pin is then pressed into this receiving hole in the heated state, so that the storage areas as in the process according to the main patent by brief plasticization of the base plate material are formed with an accurate fit. This version has the Advantage that serial step drills can be used and special designs are not necessary.

The above problem can be solved in another way, for which protection is also claimed in the context of this application. With this solution the height of the bearing surface can correspond to the thickness of the panel if you do without it, to form the bearing surfaces by hot deformation. This solution is characterized by that from the model side a continuously conical hole worked into the plate is, the contour of the drill exactly the contour of the conical pin section that is inserted into the plate.

This solution is based on the knowledge that if you do without The plasticization of the base plate does not have to worry about a press fit of the pins and the roughness of the surface of the pins no longer play an important role plays, so that the static friction is reduced to a tolerable level, as shown in Try has shown.

The drilling dust generated during the drilling process acts like a sliding substance between the pin and the borehole wall and facilitates the removal of the Pencils. This drilling dust should therefore not be blown out of the hole.

The invention and further advantageous embodiments are described below explained in more detail on the basis of several exemplary embodiments shown in the drawing. The individual figures of the drawing each show a section through the base plate in the area of a receiving hole, it being noted that the drawing only intended to express the principle, but not true to scale shown sir1d A tooth stump 1 of a blower model is on a pin 2 detachably anchored in a base plate 3 as a model material for the tooth stump or plaster of paris is usually used for the entire model. The base plate consists of a dimensionally stable material, for example acrylic glass. The pins are made of metal, preferably made of brass.

In the embodiment of Fig. 1, the pin 2 has a cylindrical Section 10, to which a conical section 11 of low height H sn closes. The conical section 71 merges into a cylindrical collar 12 to which in turn, a cylindrical section 13 adjoins, which is ribbed in a well-known manner or is knurled and inseparably stuck in the tooth stump 1.

The bore 4 in the base plate 3 consists of a cylindrical Section 21, a first conical section 22, a cylindrical section 23 and a second conical section 24. The bore was made in this shape through a correspondingly designed step drill from the model side into the base plate 3 incorporated.

It is now important for the present invention that the pin 2 ini t Iseiller IlolltelflRche only partially rests against the wall of the hole, but that in the largest area there is no contact between the pin and the base plate given is. In the embodiment of FIG. 1, there is a storage area in the Area of the cylindrical section 21 and another bearing surface in the area of the second conical section 24. The height H of these bearing surfaces is essential less than. the length of the pin section dipping into the bore 4 or the thickness of the base plate.

Due to the small size of the storage areas, they fit exactly the wall of the hole, the pin can get out of the hole much more easily be pushed out.

In the embodiment of FIG. 2, the pin 2 has a conical one Section 14, to which a cylindrical section 15 is connected. These two Sections are stuck in the base plate 3.

The bore 4 has a cylindrical portion 25 and one thereon subsequent conical section 26, which extends into the area of the parting plane between Plate 3 and model 1 is enough. The angles of inclination of the conical sections of the pin and bore are the same and are denoted by «in the drawing. You can see that in this version only one storage area L in the middle area of the base plate given is. So that in the space between the cylindrical surface 15 of the Pin and the conical section 26 of the bore no Madell material flow into it can, one becomes a kind of washer 5 over the immersed in the model material Turn over section 13 .. Also in this embodiment, the height H of the storage area L much less than the thickness of the base plate.

In the embodiment according to FIG. 3, the pin 2 has two conical sections 16 and 17 with an angle of inclination of about 45 °.

These two spaced apart sections are the conical Surface 16 runs out into the free face of the pin, while the other is conical Section 17 cuts the dividing line between the base and the model - form Lagerr surfaces L and are close to the wall of the hole 4. Between these two Sections can be seen a further conical section 18 with a smaller one Tilt angle.

The bore 4 has a first conical section with an angle of inclination of about 450, a cylindrical section 28 and another conical section 29 with an angle of inclination of about 45 °. This hole can also be used with a appropriately trained step drills are incorporated into the base plate. It should be noted that 'the height H of the bearing surface L is less than the Height of the conical section 27 of the bore.

In the embodiment according to FIG. 4, the pin has between two conical ones Sections 16 and 17 have a cylindrical section 19.

The conical section 17 ends in a collar 12, but not is arranged in the area of the base plate, but dips into the model material.

The bore 4 originally consists of only two conical sections 30 and 31. The conical section 30 has an angle of inclination from 45 ° and later serves as a storage area.

the much smaller conical section 31 has a smaller angle of inclination and runs out into the parting line between the base and the model, as shown in dashed lines is shown.

The heated pin is then inserted into such a hole. The lower conical section 17 of the pin deforms the wall of the bore and forms a second storage area.

In contrast to the previous exemplary embodiments, this is now the case Contour of the drill in the bearing surface sections not in the full extent of the contour adapted to the pen.

The embodiments shown in the drawing can be used in can be modified in many ways. For example, three or more could be Storage areas are provided, all conical Larler surfaces could also be used be formed by hot working when the pin is formed to be Diameter in the area between the bearing surfaces is less than the base area of the conical section. Such an embodiment is shown in FIG. the original bore could even be cylindrical, as shown by dashed lines in c-s is.

FiC. S finally shows an embodiment in which the pin 2 over ivil1e esarte, length measured in the base plate with the surface directly rests against the borehole wall. In this version, however, it must be subject to hot deformation wprc'en apart from the base plate, because otherwise the pin due to the press fit can only be quiet with increased effort. So in this version in the base plate 3 incorporated a conical hole from the model side, which penetrates the entire base plate.

The angle of inclination is constant and corresponds exactly to the angle of inclination of the corresponding pin section. The pen can also be used in this version solve easily and smoothly, which is mainly due to the fact that the home The drilling dust produced during the machining process forms a kind of sliding layer. Also Of course, it must be taken into account that conical volumetric flows after one short movement of the pen, no circumferential contact surface between the pen and Drilling wall is given and therefore in the following the pin solely due to gravity falls out of the hole. In the case of cylindrical bearing surfaces, it would have to be during A certain force is applied over the entire distance (thickness of the base plate) will.

Finally, it should be noted that it is of course not It is imperative that the pin in each case completely covers the base plate interspersed. The 6 basic ideas of the invention explained above can also can then be used to advantage, for example, with thick base plates but short pins only need blind holes. On the other hand, you will of course, for reasons of cost, choose the thickness of the plate only as large as this is essential for proper guidance of the pins.

Claims (11)

BIT MODEL Claims SebiBmodell for the production of dental prosthesis parts such as inlay cast fillings, crowns, bridges, denture prostheses and dg1., in the case of the positive Replicas of the tooth stumps made from model material can be detached using pins are fixed to a base, the base being a prefabricated plate ous a is dimensionally stable material and the pins on this plate in one to one another parallel position and are determined according to the patent (patent application P 29 49 697.7-39), characterized in that the pin (2) is in a receiving bore (4) in the base plate (3) inserted section at least one bearing surface (L), which rests precisely on the wall of the mounting hole (4), the height (H) of the bearing surface (L) is less than the length of the one immersed in the mounting hole Pin section or the thickness of the base plate (3). 2. G. bit model according to claim 1, characterized in that the pin is conical in the area of the bearing surface (L), the angle of inclination (α) of the bearing surface (L) with respect to the pin axis greater than 30D, preferably 450 is. 3. denture model according to claim 1 or 2, characterized in that the pin (2) has at least two bearing surfaces (L) at a distance from one another. 4. denture model according to claim 3, characterized in that the pin (2) a storage area tapering towards the free end face and a storage area in the Has the area of the parting plane between the base plate (3) and a tooth stump (1). 5. denture model according to claim 4, characterized in that the receiving hole (4) is cylindrical in the area between the Lsgerflhchen (L). 6. Seblßmodell according to claim 4, characterized in that the receiving bore (4) is conical in the area between the bearing surfaces (L), the The angle of inclination (M) differs from that in the area of the bearing surfaces (). 7. denture model according to at least one of the preceding claims, characterized in that the pin (2) in the area between the conical bearing surfaces CL) is cylindrical. 8. Sebiss model according to at least one of claims 1 to 6, characterized characterized in that the pin (2) in the area between the conical bearing surfaces (L) is also conical, the angle of inclination (») being different from that in Area of the storage areas (L) deviates. 9. r, bite model according to at least one of the preceding claims, characterized in that the mounting hole (4) from the model side by means of a drill is incorporated into the base plate (3), the contour of the drill at least in Area of a storage area (L) exactly the contour of the Pins3 (2) corresponds. 'Where'. Denture model according to at least one of the preceding claims, characterized in that the receiving bore (4) from the model side by means of a drill is incorporated into the base plate (3), the diameter of the Drill in the region of at least one bearing surface (L) is smaller than the diameter of the corresponding conical pin section, and that at least one bearing surface (L) is formed by brief plasticization of the base plate material. 11. Geometric model for the production of dental prostheses according to the generic term of claim 1, characterized in that in the base plate (3) from the model side A conical hole through the hole was machined using a conical drill is, the contour of the drill being exactly the contour of the corresponding pin section corresponds, and that the pen directly into this without any additional measure Location hole (4) is inserted.