RU93039548A - METHOD OF INVENTION OF DENTAL PROSTHESES AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (1)

The invention relates to medical equipment, specifically to orthopedic dentistry, and can be used in the manufacture of dentures. A method of manufacturing dental prostheses consists in modeling the wax of the prosthesis body, converting the wax model of the prosthesis to metal, finishing and polishing the metal parts of the prosthesis, layer-by-layer cladding of crowns and teeth of the prosthesis with composite materials based on light-cured oligomeric acrylates and highly dispersed silicon dioxide, and subsequent photo-curing of each of these layers by irradiating them depending on the type of photocurable facing composite material with a constant radiant flux ultraviolet or visible light ranges, characterized in that for curing each of the applied layers of the facing composite material using pulsed radiant flux from pulsed gas-discharge light sources combined in a single unit, operating sequentially in the cyclic mode of the visible light range, and the light energy in the pulse during its duration 1 ± 10% m / s and a duty cycle of 1600 ± 10% is not less than 2200 lm.s, and the irradiation time is in the range from 3 to 5 minutes, depending on the thickness of the nanosimulation about the layer. A device for manufacturing dentures comprises a housing with a base, a working chamber with a lid, a radiant energy source installed in the working chamber, a power supply unit and an electronic programmer, a sliding case mounted on the rails mounted on the rails for placing dentures in it and a reflective screen located above the case , the lid is pivotally connected by means of rods to the case of the pencil case with the possibility of its automatic extension from the working chamber, its installation in it when opening and closing were picked and as a source of radiant energy mounted together in a single unit pulsed gas discharge light sources, operating in the visible light range, wherein the radiant energy source mounted on the inner side of the reflecting screen and operate alternately in a cyclic mode. In the device for the manufacture of dentures, the inner walls of the retractable pencil case and reflective screen are made of material with a high reflection coefficient at the working wavelength of the radiant energy source.