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CROSS REFERENCE TO RELATED APPLICATION
This application is a national phase of PCT/DE87/00547 filed 25 Nov. 1987
and based, under the International applications P 36 40 163.3 filed 25
Nov. 1986, P 37 07 483.2 filed 9 Mar. 1987 and P 37 39 646.3 filed 23 Nov.
1987.
FIELD OF THE INVENTION
The invention relates to a dental coupling assembly and method of applying
same. A prior art dental coupling assembly is known from German Patent 35
25 298. Another dental coupling assembly is known from the German open
application 34 32 486. A common feature of this state of the art is that
the coupling assembly serves for a connection--which is first loose but
can be locked in position with a hardenable mass--between a dental
prosthetic structure and one of the two parts --male or female--of a
dental attachment or of an anchoring device. Thereby, an insertion--or
retention part is provided with outer shell surfaces and is insertable
into a hollow holding recess with play and is movable within the holding
recess with the tolerances desirable for the attachment--and
prosthesis-ancharing techniques, prior to the introduction of a hardenable
mass. The outer shell surface of the retention part has at least two
partial outer shell surfaces, which are inclined with respect to the
median axis of the recess and parallel with respect to the partial
inner-shell surfaces of the recess.
OBJECT OF THE INVENTION
While the known coupling assembly (German Patent 35 25 298) has performed
well in practice, the invention has and its object to improve the known
dental coupling assembly in such manner that can be possible in any case
to produced with less effort and that, in will facilitate the work done in
the patient's mouth for its insertion.
SUMMARY OF THE INVENTION
This object is achieved by providing a dental coupling assembly with a
brace attachable in the mouth of the patient to which a metal holding part
optionally formed by a model of synthetic material burning off without
residue, is fastened or can be fastened, having a recess with a
continuously closed inner shell surface, and wherein a retention part is
held with the aid of an adhesive, particularly a hardening cement, whereby
the recess is enlarged in comparison to the outer volume of the retention
part by a space affording free play to the retention part, and with a
complementary coupling part provided with a dental-prosthesis structure,
which engages with the retention part with at least one detachable
coupling connection. According to the invention, the recess and retention
part have over the entire extent of their axial length the inner wall
surface or the outer wall surface of a straight (right) circular cylinder.
The recess is closed at its one inner frontal side with an inner bottom
surface and the retention part is closed by an outer bottom surface facing
the inner bottom surface.
Thus, the recess and the retention part each represent over the entire
axial extent an inner shell or wall surface and the outer shell or wall
surface of a straight (right) circular cylinder. In addition, the recess
is closed by an inner bottom surface at one of its inner frontal ends,
while the retention part is closed by an outer bottom surface facing the
inner bottom surface.
The recess according to the invention, wherein the retention part to be
cemented is received with spatial play, is, for instance during repair in
the patient's mouth, particlualrly easy to make, with a cylindrical
instrument (cylindrical cutter or ther like). Such a straight
circular-cylindrical recess in the case of a holder model burnable without
residues, can be made as a plastic part through die casting, which is
easily extracted from the mold from the point of view of the tools.
Surprising in the case of the coupling assembly of the invention is the
fact that with a recess that is not undercut (compared to German Patent 35
25 298 and German open specification 34 32 486), it is possible to raise
the required thrust force for the locking between the retention part and
the complementary coupling part (e.g. female part and snap-button-like
male part). This surprising result apparently can be explained by the fact
that due to the precise alignment adjusting possibilities between the
retention part and the complementary coupling part, damaging can be
avoided. In this way, the cement connection between the retention part and
the recess can be made so that with some additional measure for safety, it
will have to absorb only the arresting force within the detachable
coupling connection, i.e. practically only the pure axial-force component.
This pure axial-force component in the case of an eye-like female part and
a therein lockable snap-button like make part made of spring segments can
be for instance of the order of 0.8 daN.
It is also a feature of the invention that the recess as well as the
retention part are provided with surrounding shell surfaces (inner shell
surface and outer shell surface) and with bottom surfaces sealingly
fastened thereto. In this way, the retention part can act during its
insertion as a displacement body upon the cement previously introduced
into the recess, distributing it evenly over the inner shell surface of
the recess and the outer shell surface of the retention part. In
comparison thereto, the walling of the holding recess in the German open
specification 34 32 486 is axially slitted, thus not being sealed off,
while the holding recess of German Patent 35 25 298 has no bottom surface.
According to the invention the inner bottom surface of the recess is a flat
circular surface. The inner bottom surface of the recess can have,
alternatively, the shape of a concave calotte.
Advantageously the inner bottom surface and the inner shell surface of the
recess are connected to each other over a concavely arched circular
annular surface.
The outer bottom surface of the retention part can be a straight circular
surface or can have the shape of a convex calotte. Here too, the outer
bottom surface and the outer shell surface of the retention part can be
connected to each other over a convexly arched circular annular surface.
The retention part can be a pot-shaped eyelet-like female part with an
undercut central hollow space for a complementary coupling part which is
an anchor-like male part. The outer bottom surface of the pot-shaped
eyelet can consist of a bottom made in one piece and of the same material
as the eyelet particularly representing a rotating part. The retention can
be a pot-shaped internally threaded bushing.
The retention part can be a magnet or ferromagnetic component for a
complementary coupling part, which is a ferromagnetic component or a
magnet, respectively.
The recess can be provided extracoronally on the holding part of a post
tooth and intracoronally on a holding part of the root. The recess can
also be arranged in a connection bridge representing the holding part. The
recess can as well be provided at the free frontal side of an implant
forming the holding part.
Corresponding to the German Utility Model 85 18 324 (see there page 5, par.
2) a retention part, namely an eye-like female part, whose outer shell
surface is smooth and circularly-cylindrical over the entire axial length,
is cemented into a correlated hollow of a prosthesis part made of steel.
Corresponding to a further embodiment of the German Utility Model 85 18
824, an externally waisted eyelet is surrounded on the outside by a
sprayed ring of synthetic material, having a smooth circular-cylindrical
outer shell surface. The ring of synthetic material can be burned without
residue (see German Utility Model 85 18 324, page 6 par. 2) and therefore
is suited to be received with a clamp- or pressfit in an equally smooth
circular-cylindrical recess of a model made of synthetic material, which
can also be burned off without leaving residues. This model of synthetic
material is first connected to the wax model of a post tooth of the master
model, and then cast in metal together with the post crown, as a holding
part by the lost-wax method. Due to the fact that the synthetic material
ring burns off without residue, the eyelet is extracoronally integrally
cast with the metal holdign part. The parts according to the German
Utility Model 85 18 324 require a very precise tolerance-free doubling
work, in order to avoid deviations the parallelism. Particularly the
anchoring devices shown in the German Utility Model 85 18 324 and in the
German Patent 35 25 298 require a parallelism with minimum tolerance,
since the median axes of the eyelet and the anchor of the male part have
to coincide, thus practically not allowing any deviation from parallelism.
The invention improves on the object to further improve on the known method
by using the coupling assembly of the invention in such a way as to make
it possible that the retention part can be fastened in the recess of a
metal holding part in a simpler way or at least in the same way as before,
but with less preparatory precision work. In the method of the invention
the recess is provided with a receiving volume, which, with respect to the
space requirement of the retention part, is enlarged by a free-play space
for the retention part. Thereafter the shell-side and/or bottom-side
finishing area of the retention part and/or the recess are provided with a
hardenable cement, the retention part is inserted into the recess while
being held parallely to itself, aligned and there held in the aligned
position until the cement has hardened.
The method according to the invention creates the possibility to counteract
the tolerances resulting from the doubling technique during the
manufacture of prosthesis arrangements. At the same time, with this method
it is possible for the retention part, e.g. an eyelet-like female part
which is at first movably arranged in the still soft cement bed of the
holding recess, to be after thereafter adjusted with a very precise fit in
the recess. Such a precise adjustment is particularly important in the
case of the snap-button type couplings, where the mutual engagement of the
parts-as mentioned-allows only very narrow tolerances, these couplings
consisting of a femal part eyelet and of a coaxially engaging male part
anchor. First of all, it is essential that the method be performed with
the simplest possible means, since a right circular-cylindrical pot-shaped
hollow is easily made with a spatial surplus, without considering
tolerances worth mentioning.
From the German open specification 34 32 486 (compare there FIG. 9 in
connection with page 19, last paragarph, as well as page 20, par. 1) a
device for the connection of a model cast structure as part of a removable
prosthesis with the its anchor can be seen. The concept "anchor" is not
accurate in this case, since only a telescopic crown is shown as an
"anchor", which, considering its special function, cna not at all be
compared with the features of the generic snap-button anchor. The know
connection arrangement provided in order to balance the tolerances is
connected on one side to the crown and on the other side with the model
structure. The connection arrangement between the model structure and the
crown consists of a female hollow part, wherein a male connection part is
first movably received, and than after adjustment, is permanently arrested
in a very precisely established position with a filler. Thus, in the
device of the German open specification 34 32 486, the positions of the
individual elements of the telescopic crown -which can not be compared at
all to a snap-button anchor--are not influenced. In contradistinction,
with the method of the ivention, the mobility of the arrangement prior to
the hardening of the cement is used in the case of the otherwise very hard
to adjust known retention part (for instance an eyelet-like female part)
in order to establish from the start a precisely aligned arrangement
between the retention part and the complementary coupling part.
German open specification 85 18 324 describes a method whereby first a
holding part made of residue-free burnable synthetic material is connected
to the wax model of the post tooth of a master model and then, through the
lost-wax technique, a post crown is cast in metal with the holding part
and the retention part is received and fastened in the metal holding part.
In accordance with the invention, this known method is further improved,
so that at first the recess arranged in the optionally pot-shaped plastic
holding part is formed with a receiving volume increased by the space
required for the play of the retention part in the metal holding part,
after which the retention part is set with a parallel pin in the recess
provided with a hardenable cement and is held together with the parallel
pin in the adjusted position until the hardening is completed. The method
according to the invention enables the tolerances created during doubling,
which influence the position in space of the metal holding part produced
during casting, to be completely eliminated with respect to the precise
mutual position of the two elements of the snap button.
This is the case because the inserting position of the retention part is
not transmitted through the doubling process, possibly with tolerances,
but rather is finally defined in the last stages.
The invention is also applicable to repair in the moouth of the patient,
whereby an existing used retention part, e.g. an eyelet-like female part,
has to be replaced with a new one. After removal, removal or by drilling
out, of the worn retention part, it is sufficient to widen the recess and
after that to build in the eyelet, according to the method characteristics
defined in patent.
The method of the invention can also be analogously applied to extracoronal
and intracoronal (axial) arrangements. Besides the recess can be provided
in a connection bridge forming the holding part or in the free frontal
side of an implant forming the holding part or of an implant insertion.
The recess can receive alternatively a pot-shaped eyelet, a pot-shaped
internally-threaded bushing, a circular-cylindrical magnet, or a
corresponding ferromagnetic part.
BRIEF DESCRIPTION OF THE DRAWING
The above and other objects, features and advantages of my invention will
become more readily apparent from the following description, reference
being made to the accompanying highly diagrammatic drawing in which:
FIG. 1 and 2 are sectional views which illustrate the method for the
insertion of a pot-shaped female eyelet part,
FIG. 3 is a sectional view which shows the insertion of pot-shaped female
eyelet in the course of a repair process,
FIGS. 4 and 5 are sectional views of two different embodiments of metal
holding parts, each of which has showing an extracoronal holding recess;
FIG. 6, analogous to FIG. 1, FIG. 7 analogous to FIG. 2, FIG. 8 analogous
to FIG. 3, show the method for the insertion of a pot-shaped eyelet in
connection respectively with an intracoronal arrangement., i.e. root-cap
arrangement;
FIG. 9 is a longitudinally sectioned view of an implant-holding part,
FIG. 10 is a schematic perspective view of a bridge-like holding part;
FIG. 11 is an axial section through a pot-shaped threaded part,
FIG. 13 is a frontal view of a magnet and
FIG. 14 is an axial section through a ferromagnetic body.
SPECIFIC DESCRIPTION
At the top of FIG. 1, a female eyelet-like part 10a having an inner
retention surface 11 for the snap-button-like engagement with a male
anchor-like part 26 (see FIG. 3) is illustrated. In the present case,
eyelet 10a and anchor 26 correspond basically for instance with the
arrangements shown in German Utility Model 85 18 324 (FIG. 1 and 2).
The eyelet 10a is received in an adjusted position by the inner braceable
clamping jaws 12 of a parallel holder, or parallel pin 13.
Also adjusted in position is a metal holding part 15, whose basic
construction can also be seen from German Utility Model 85 18 324 (see
there FIG. 3). The metal holding part 15 is fastened to a post crown (not
shown) by means not shown in the drawing, such as for instance a bracket
16 made in one piece therewith and a fastening plate 17 (see FIG. 4 and
5).
The holding piece 15 is provided with a holding arrangement 21 open towards
the parallel pin 13, which is limited by the inner shell surface 18 (here
the inner wall of a right circular cylinder) and by the circular bottom
surface 19. The bottom 20 of the metal holding part 15 is therefore
closed.
In the hollow recess 21 is a certain amount of fluid cement 22, which
suitably has a short pot time, i.e. is quick-hardening.
The outer bottom surface 23 of the eyelet-like female part is continuous
i.e. the eyelet is closed by a bottom 24. The eyelet 10a represents a
one-piece rotating part.
The parallel pin 13 carrying the eyelet 10a is now introduced in to the
direction y towards the holding part 15 and inserted in the recess 21
until the eyelet 10a makes contact with the cement 22 and with continuing
the movement reaches the final insertion position as shown in FIG. 2.
During insertion, as a result of the radial clearance a, the eyelet 10a can
move free play, which allows an adjustment or alignment with a radial
component and/or also with an additional axial component (along the
direction y). As can be seen from FIG. 2, the cement 22 is displaced in
the annular space R between the fastening area on the eyelet side formed
by the outer shell surface 25 and the inner shell surface 18, rising in
the direction opposite to the direction y, and then finally hardens. Until
the hardening is completed, the parallel pin 13 is left in its holding and
adjusting position seen in FIG. 1 and removed only after the cement has
hardened.
The repair process in the mouth of the patient according to FIG. 3 differs
from the illustrations in FIG. 1 and 2 in that the eyelet 10a is already
engaged in a well defined position with the male anchor 26 (complementary
retention component), whose shank 27 is cemented in a receiving hollow 28
in the prosthesis. By lowering the removable prosthesis part 29 in
direction y, the insertion position of the eyelet 10a according to FIG. 2
is finally reached, analogously to the representations of FIG. 1 and 2.
Thus, in the representation of FIG. 3, the removable dental prosthesis 29
acts like the parallel pin 13 shown in FIG. 1.
In FIGS. 4 and 5, various embodiments of holding recesses 21 are shown.
These have the inner shell surface of a right circular cylinder.
Generally, the outer shell surfaces of the retention parts (see FIGS.
11-14) can have contour which is geometrically similar to the respective
contour of the inner shell surface 18 (FIGS. 4 and 5), whereby in any case
the adjustment-and movement distances a (see FIGS. 2) are insured. However
the retention parts generally (FIG. 11-14) can have various outer shell
surfaces. Suitably, the outer shell surface 25 of each retention part,
here the eyelet 10a, is the surface of a straight circular cylinder. The
outer bottom surface 23 and outer shell surface 25 are connected to each
other over a convexly curved circular annular surface 36.
It should be pointed out that the circular cylindrical recesses 21 (see
FIG. 1-10) already mentioned in FIG. 1-3 are particularly advantageous,
since they are very easy to make and also since the retention part, here
the eyelet 10a is to be held with a purely axial component withdrawal
which is opposite the direction y. The recess 21 of FIG. 5 also differs
from the recess 21 of FIG. 4 in that the circular-cylindrical inner bottom
surface 19 is joins to the inner shell surface 18 via a concavely curved
annular surface 30.
For the sake of clarity, it may also be mentioned that the holders made of
a synethetic material which burns without leaving residues, not shown
here, are identical in shape with the holders 15 shown in FIGS. 1-5.
The description of FIG. 1 can be analogously and to a very large extent
applied to FIG. 6 which uses the same reference numerals. But, as a
difference from FIG. 1, FIG. 6 shows an intracoronal, axial arrangement,
wherein W is a root cap made of metal, 15 indicates the metal holding part
and 21 represents the pot-shaped hollow (recess) and its bottom area. The
root or its model is indicated at 33.
FIG. 7 again is analogous to FIG. 2 and the applicable description showing
the completed root-cap arrangement. In this way FIGS. 6 and 7 illustrate
the method of insertion of a retention part, here an eyelet-like female
part 10a, in the course of producing a new root cap.
FIG. 8 shows analogously to FIG. 3 and the applicable description the
insertion of the retention part (e.g. eyelet-like female part 10a) in the
course of a repair process of a root-cap arrangement in the mouth of a
patient. Here the root 33a is flanked by the gum 32 and receives removable
prosthesis 20 made of synthetic material with artificial tooth 35. To an
inner side of the prosthesis 29 at 28 the undercut to whose inner side at
28 the undercut retention area 27 of the anchor 26 is cast at 34.
In the embodiment of FIGS. 9 to 14, various retention parts are shown at
10a, 10b, 10c and 10d.
FIG. 9 shows a screw with external thread 38, to be inserted in an implant
which is not shown in the drawing, and whose head forms the metal holding
part 15 with the recess 21.
FIG. 10 shows schematically a bridge-like component 15 with two recesses
21, made of an synthetic material burning without residue or of a dental
material.
FIG. 11 shows again separately the pot-shaped female part 10a, previously
shown in FIG. 1, 3 and 6-8. The retention inner shell surface of the
eyelet 10a is seen at 11 and the entire undercut retention hollow is
represented at 39.
FIG. 12 shows a pot-shaped bushing 10b with internal threading 37 for
receiving the external threading of a pin (not shown) of a male anchor
part 26.
FIG. 13 shows a magnet 10c with a pole surface P in a frontal view and FIG.
14 shows a ferromagnetic body 10d, which can be cemented in the hollow 21,
when there is another magnet instead of the magnet 10c. The magnetic
surface H of the ferromagnetic body 10d is provided for adhesion to the
pole surface P of a magnet 10c.
It has also to be mentioned that, as a rule, all retention parts 10a, 10b,
10c, 10d shown in FIG. 11 to 14 can be cemented with any one of the
recesses 21 shown in FIG. 1-10, in the manner proposed by the invention.
Inner shell surfaces 18 and outer shell surfaces 25 of the recesses 18 and
the retention parts 10a, 10b, 10c, 10d are always smoothly circularly
cylindrical and optionally may be shot-blasted. An axial contour (e.g. a
groove) which has not been shown could be worked into 18 or 25, if an
additional insurance against torsion about the axis y is required. All
retention parts 10a, 10b, 10c, 10d are plunger-like displacement bodies,
through which the cement 22, which flowable, is evenly distributed to rise
in reverse in the annular space R, without the possibility of the inner
retention surface 11 being inadvertently impaired by the cement 22.
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