DE3600977C2 - - Google Patents

Description

The invention is based on a method of manufacture of porcelain or plastic in whole or in part encased crowns, bridges or prosthesis parts, which as Metal support at least partially perforated metal base have layers.

In the manufacture of crowns, bridges or prostheses parts that have metal supports as supports, it is the usual practice so far, an impression in the mouth of the patient and according to this impression to produce a model for the metal support, where before the production is preferably carried out by the casting process. Furthermore, it is already from US Pat. No. 4,492,579 known to manufacture so-called jacket crowns by that on the prepared model one in the form of a case folded thin filter made of precious metal brings and finishes, i.e. is pressed. Subsequently is this unfolded film, which with a lower temperature melting solder is coated heated, then a binder can then be applied brings and the porcelain mass are burned.

Furthermore, from DE-OS 32 43 020 A1 a shaping device Formation of retention bodies on dentures known, wel cher for fastening plastic or veneers Porcelain on crowns or bridges. This form body is a mesh-like retention grid made of a wax Plastic combination that can be burned out without residue and a corresponding, net-like in the finished casting Structure of metal on the surface results. From the DE-OS 34 09 863 A1 is a grid made of a flexible, compliant fabric made of warp and weft threads from one also known residue-free burning material, with the help of which a grid is made of cast metal, that can serve as an intermediate link in the mouth of a To fasten patient, being  the two abutment teeth are not fully prepared or be capped, but only by two wings attached to have a cast-on grid on the inside will. These grids in the form of wings are then on a remaining tooth attached, the on this natural tooth-applied cement penetrates the grid.

Furthermore, from the Swiss patent CH 4 24 081 a process for the manufacture of artificial tooth crowns is known, in which a warped, closed-edged metal braid strand serves as a connecting means of a prefabricated denture part made of plastic or porcelain with a remnant structure made of noble metal. Here, however, the metal braid is connected to the rest of the metal carrier of the crown in a casting process, where the closed edges of the metal braid must be above and below and the entire circumference of the braid section must be in wax. Furthermore, in this known procedure, the veneer is prefabricated from synthetic resin or porcelain and glued to the corresponding place of the metal braid using a polymerizable epoxy resin.

The object of the present invention is to provide an improved and simple method of manufacture at least partially with porcelain or plastic wisely encased crowns, bridges or prosthetic parts, which have metal supports as supports, in which however, the time consuming and often unsatisfactory one Casting process for the production of the metal support is avoided.

To solve this problem are the in the characterizing part of Claim 1 specified process steps.

In the method according to the invention, this metal mesh or this perforated metal foil as with the method of U.S. Patent 4,492,579 to that Model of the prepared tooth stump and refined on this, i.e. pressed, e.g. by means of a Hardwood rod, which surprisingly was found that the metal mesh or the perforated metal foil after the finishing or pressing exactly to the pre given shape. In this way prepare support made of metal mesh or perforated metal foil is then the kera in a manner known per se Mix basic mass applied and fired in the ceramic oven and on  finally the porcelain mass or the melting mass is opened brought and also burned.

According to a preferred embodiment, it is in the The method according to the invention is readily possible Places with particularly high mechanical stress or to determine the thickening of the metal base the prepared metal underlay mesh or perforated metal foil with single wires reinforce. These single wires can either be put on and pressed, but it is also possible to press one at a lower temperature than the metal mesh or the perforated metal foil melting solder over to pull drawn individual wires and this by geeig nice heating to the prepared metal base Solder metal mesh or perforated metal foil.

In the manufacture of bridges, the self-supporting Intermediate links according to the inventive method without more from the metal mesh or the perforated metal film are formed. The mesh or foils sections pressed together in the interdental areas or by wrapping them together with metal wire and together pull this wrapping wire to a stronger com compact bodies deformed and form at this point and in the area of the pontics a more or less com compact cap. This clenching can be done either with egg Use suitable pliers. With an advantageous Embodiment, however, the pressing is done by Wrapping with metal wire and contracting this me tall wire, so that in these cantilevered intermediate structure a constriction.  

The metal used in the method according to the invention mesh can either be a woven metal mesh, i.e. a metal network with e.g. so-called linen weave, it can be but also a knitted, i.e. a knitted net act, including spun threads to its manufacture be used or chains made of ring-shaped or oval links.

According to a further preferred embodiment, the This network wires with a lower temperature as the metal or metal alloy of the mesh melt the solder coated, which after finishing the metal network by suitable heating until the Solder a connection of the individual wires to each other follows. According to a further preferred embodiment can the wires of the metal mesh, which with a lower temperature melting solder are coated, however, even before the model of the prepared tooth stump by using the lower one Temperature melting solder and suitable heating bonded to each other up to the melting temperature of the solder be that. In this embodiment, the advantage is ge give that the individual wires no longer against each other can move. When using ductile metals or metal alloys, it can also be sufficient that the ge woven or knitted or knitted net by together press or slightly deform rollers, the Individual wires at the contact points so each other adhere to that when refinishing the net Shift the individual wires completely against each other or largely avoided.

When using perforated metal foils, these can also with a melt at a lower temperature zenden Lot be coated, especially when on such  carrier sheets made of perforated metal foils in the form of caps for crowns still links to be soldered or welded on.

According to a further preferred embodiment, it is possible in the method according to the invention, the carrier Metal pad only partially from a metal mesh or a perforated metal foil. This will through the metal mesh or the perforated metal foil Spot welding or soldering to others, previously specified made metal supports, these being castings can, connected.

The metal mesh or the perforated metal foil, which at the method according to the invention can be used be made of any metal or metal alloy stand, as they usually do for metal bases for crowns, Bridges or prosthesis parts of dental technology who used the. It can be a precious metal alloy, e.g. Gold alloy, palladium alloy, etc. act according to a be preferred embodiment, however, is a network or a perforated film used, which is made of niobium or a Alloy containing niobium. It can be either pure niobium, an alloy of 99% niobium + 1% Zircon or alloys made of 50-60% Ni, 25-30% Zr, 2-8% Nb and the remainder Mn, vanadium and usual contaminants act.

When using metal nets have their wires over Licher diameter from 0.01 to 0.3 mm, preferred from 0.05 to 0.1 mm. When using perforier metal foils usually have a thickness from 0.01 to 0.3 mm, advantageously from 0.05 to 0.1 mm, and the perforation of the metal foil consists of  Holes, preferably round holes with a through knife from 0.1 to 0.4 mm, advantageously from 0.2 up to 0.3 mm. The perforation holes in the metal foil do not have to be round, of course it is also a so-called honeycomb grid, whose holes are hexagonal. Likewise, the holes be approximately rhomboidal, whereby it is recommended similar to expanded metal to stretch the foils, on the one hand for edge fastening, on the other hand by a better penetration of the opaque base layer, the to achieve so-called opaquers, whereby through the slightly arched structure an additional attachment the metal foil embedded in the ceramic mass is achieved.

The proportion of free space or perforated area for metal mesh or metal foil is usually in Range from 25 to 75 and advantageously in the range from 40 to 60% of the total area.

According to a further preferred embodiment on the model of the prepared tooth stump first an adapter film placed as a base, which a Thickness from 0.1 to 0.3 mm. This has the advantage that the inside of the finished crown, bridge or the Prosthesis part after firing the ceramic materials (Opaquer, dentin and incisal materials) on the surface, on which they are placed on the prepared tooth stump lies, is smooth. Such an adapter film is in particular particularly advantageous if it is removable Prosthesis parts, i.e. prosthetic parts, which not by means of cement or synthetic resin  for permanent use in the mouth. These adapters foil can also be a foil made of a precious metal alloy, made of niobium or a niobium alloy, such as they were previously mentioned. Instead of precious metal containing niobium Free alloys can be used for both the adapter film as well as for the metal mesh and the perforated metal also foil the known Ni-Cr alloys, Cr-Co alloys and Ti alloys are used. The adapter film can also be an art known per se be a foil. Instead of an adapter film, a known placeholder paint can be used.

As previously described, the metal support does not have to completely from the metal mesh or the perforated me tall film exist. This is particularly the case when occlusal or lingual areas completely Metal should exist, then the metal network or the perforated metal foil only for the remaining ones Surfaces as a metal base for the crown, bridge or Prosthesis part is used.

It is also possible with the method according to the invention Lich, either the metal mesh or the metal foil or after finishing with a pasty solder to coat, which is then melted, the Ab cutting of protruding wires without moving of the wires on the initialized, i.e. later than metal underlying service area, is possible.

It is also possible with the method according to the invention Lich, preformed parts made of mesh or perforated metal to use foil, e.g. Hats or caps for crowns or tubular molded parts for intermediate links, these Tubes can be perforated, but also tunnel-shaped foils or power supplies or cage-like structures, which then to the remaining parts of the metal support, which  both from metal mesh or perforated metal foil as can also consist of castings, soldered or dot can be welded. Preformed hats or caps Crowns are particularly easy and time-saving to be sparingly refined to the specified shape of the model.

In the method according to the invention, apart from that, is simple advantage and time-saving manufacturing method given that the basic mass to be applied and also as porcelain mass to be applied as a result of the Wrapping the net or perforated film, d. H. the complete coverage of this network or this film as a result of passing through the openings and that Flow around the metallic surfaces, stick much better and form a much more stable mechanical structure, so that flaking as a result of high tension stresses can hardly occur anymore. The same effect of the better Mechanical stability is also around with plastic clad crowns, bridges or prosthesis parts reached, as by the full or largely complete Flow around the plastic around the metal surfaces a lot better anchoring or adhesion of the plastic achieved becomes.

Claims (11)

1. A process for the production of porcelain or plastic fully or partially encased crowns, bridges or prosthesis parts, which have at least partially perforated metal supports as metal supports, characterized in that as perforated metal supports, metal nets or perforated metal foils around the model of the prepared tooth stump be laid around and finished on and then the porcelain or plastic coating is applied. 2. The method according to claim 1, characterized in that the metal mesh or the perforated metal foil the finishing on the model with additional single wire or perforated or non-perforated metal foils before applying the porcelain or plastic sheathing is reinforced. 3. The method according to any one of claims 1 or 2, characterized characterized in that in the manufacture of bridges the metal mesh or the perforated metal foil to the Pontics at least partially to a stronger compact body before applying the porcelain or Plastic casing is pressed together. 4. The method according to claim 3, characterized in that pressing together by wrapping with metal wire and Contracting takes place.   5. The method according to claim 3 or 4, characterized in net that after pressing or contracting soldering is performed. 6. The method according to claim 1, characterized in that a metal mesh or a perforated metal carrier Metal foil is used, the surfaces of which are coated with a lower melting solder. 7. The method according to claim 1, characterized in that a metal net is used, the wires to which Contact points welded together or by means of Solder are soldered or by mechanical assembly presses are adhesively connected. 8. The method according to claim 1, characterized in that through the metal mesh or the perforated metal foil Spot welding and / or soldering to cast metal carrier are attached. 9. The method according to any one of the preceding claims, characterized in that a network or a per Forced film made of niobium or a niobium containing Alloy is used. 10. The method according to any one of the preceding claims, characterized in that a before thin metal foil or plastic foil or a square holder lacquer under the metal net or the perforated Metal foil is placed. 11. Crowns covered with porcelain or plastic, Bridges or prosthesis parts, manufactured after Method according to one of claims 1 to 10.