Device for treating dental castings

An apparatus for treating the surface of a dental inlay for a tooth has a cup enclosure with a restricted opening therein. A hollow stem is slidably received in the cup and releasably held in a chosen position. An inlay holder is at the end of the stem within the cup enclosure and in the path of a stream of grit particles projected from the reservoir through a nozzle extending through the opening into proximity with the inlay holder.

BRIEF SUMMARY OF THE INVENTION 
For preparing the surface of a dental inlay for a tooth, there is a 
provided a temporary inlay holder including a hollow stem disposed within 
a cup enclosure having an aperture near the inlay holder through which a 
grit blasting gun can project in order forcibly to discharge grit carried 
by the gun against the exposed surface of an inlay in the holder. 
Preferably, the stem and the cup are relatively adjustable. 
PRIOR ART 
None is known to the applicants.

DETAILED DESCRIPTION 
There are many instances in the practice of dentistry in which it is 
helpful to provide a metal insert or inlay for a tooth. The inlay is 
usually a rough casting of a precious metal such as gold or silver and is 
cemented into a prepared portion of the tooth being repaired. The inlay 
casting as received from the mold sometimes has a generally unsatisfactory 
surface for cementing into the receptive cavity. We have therefore 
provided a means for improving the surface of the inlay so that it is 
adapted better for appropriate fixing into position. 
For that purpose, we provide a hollow stem 6 having a generally sliding 
engagement with a larger surrounding cup 7. The interengagement of the 
stem and cup is preferably such that they may be positioned in different 
axial relationships to each other. For that purpose, the stem 6 has one or 
more holes 8 or grooves in its periphery. These are receptive of 
spring-pressed retaining balls 9 or the like. The stem at its remote end 
is adapted to be connected to a tube or other suitable flexible connector 
to a source of vacuum such as that normally found in any dental office. 
The stem 6 at its upper end is provided with a number of openings 11 
through its walls to afford ready access between the interior 12 of the 
cup and the interior 13 of the stem. At its upper end the stem is 
permanently secured to a receiving device 17 or work holder shaped like a 
thimble and in which is lodged a body 18 of a putty-like material. An 
inlay 19 or the like can easily be embedded temporarily in the putty-like 
material and thus held generally in any one or more selected positions in 
the work holder for subsequent work on the inlay. 
The cup 7 is of a generally tapered configuration and ends at one margin in 
a generally circular cylindrical rim 21 adapted to receive a comparable 
rim 22 on a cover 23. The cover has a relatively large opening 24. A 
portion of the cup is masked or shielded by a transparent plastic sheet 26 
having a port 27 therein big enough to pass the receiving device or work 
holder 17 therethrough when the hollow stem is lifted. Access to the 
interior 12 of the cup can be readily attained by removing the cover. Even 
with the cover in place, the operations within the cup can be easily seen 
through the transparent cover 26 at any time. 
Cooperating with the structure just described, there is a reservoir 31 of 
generally tubular shape having a reduced lower end 32 and having a closure 
cap 33 thereon. The reservoir has a central tube 34 projecting therefrom 
to afford a nozzle 36. The lower ends of the receptacle and of the nozzle 
are readily received through the port 27 in the transparent cover 26. 
There is a connector 37 on the closure cap 33 carrying a pipe 38 extending 
alongside the tube 34 to a point near the lower end of the reservoir 31. 
Compressed air, readily available in a dental office, is furnished through 
a fitting (not shown) engaging the connector 37. 
In use, the reservoir 31 is partly or entirely filled with an appropriate 
grit or abrasive such as small particles of a hard material. Aluminum 
oxide particles of about 2.5 microns in size are effective. The vacuum and 
compressed air connections are made. Compressed air entering through the 
pipe 38 stirs up and agitates the grit particles and causes them to be 
buoyant within the reservoir 31 so that some of them entrain in and flow 
outwardly through the center tube 34 and the nozzle 36 into the interior 
of the cup 7. 
Preferably, the reservoir 31 is held and directed or aimed so that the 
particles of grit impinge directly upon various surface areas of the inlay 
19 and rework the surface to afford a series of micropores. These are not 
normally visible to the naked eye but do show readily upon inspection by a 
scanning electro-microscope. The inlay 19 is positioned one or more times 
in the putty-like holding body 18 so that any and all parts of the inlay, 
both external and internal, can be treated. When the treatment has been 
completed to the user's satisfaction, the reservoir 31 is withdrawn from 
the port 27 in the sheet 26, the cover 23 is removed, and the inlay 19 is 
taken out of the holding matrix 18. The inlay can then be appropriately 
installed. 
It has been found that with this surface conditioning treatment, surface 
impurities are removed and there is afforded a slightly pocked or matte or 
irregular surface. This assists the operator to detect occlusal proximal 
interferences. Furthermore, the anchoring of the inlay in the tooth cavity 
with the customary materials is substantially improved.