DE3731321A1 - Irradiation device for photopolymerisable plastics - Google Patents

Abstract

By using a plurality of lamps, a multidimensional (three-dimensional) irradiation chamber with uniform irradiation intensity from all sides is formed for polymerising photopolymerisable plastics. By this means, shadow regions are avoided and good uniformity of the through-curing is achieved.

Description

From the German patent specification P 32 15 664.2 is a radiation device for dental prostheses, in particular for veneers known from crowns and bridges. This device works with a flat flash lamp. This flash lamp is above of the radiation room. This results in the Disadvantage that especially with larger and more complicated ones Crown and bridge work areas in the veneer with somewhat dim lighting (shadow areas) occur. This results in an uncomfortable in these shadow areas sufficient polymerisation of the plastic, causing discoloration leads.

The invention has for its object a method or to create a device that is as uniform as possible and intensive all-round radiation guaranteed.

The radiation device according to the invention solves this problem in that firstly the radiation necessary for the polymerization is produced by several lamps and secondly, these Lamps are arranged around an irradiation room in such a way that the light radiation from several sides into the radiation room comes up with.

These lamps are preferably rod-shaped Flashbulbs. These lamps are arranged so that they are on four or five surfaces of a cuboid irradiation room. The radiation from each lamp is on the Side facing away from the irradiation room by a reflector reflected in the radiation room. The reflector should be designed so that it absorbs all the radiation from the flash lamps can also reflect the radiation in the hard UV range.  

Another advantageous arrangement, especially for improvement The surface of the veneer results if at least partially during the polymerization process Pressure is exerted in the radiation room. Here are the Lamps are preferably arranged outside the radiation room.

It has also proven to be very advantageous if the Flash lamps flashed when the mains voltage passes zero will. This increases the lamp life and the Heat emission from the lamps reduced.

Furthermore, it has proven to be very advantageous Flash lamps do not have a fixed flash frequency, as in of the patent specification P 32 15 664.2, to operate, but the flash time from the charge level of the flash con to make them dependent. This way everyone contains Flash the same amount of light. By simply counting the Flashes can thus be used in a very simple way to polymerize the light-curing plastic necessary light dose determine.

This allows changes in the light dose that due to network fluctuations e.g. B. in a device as in the German. Patent P 32 15 664.2 described, caused, prevent.

The invention is described below with reference to the figures schematically illustrated embodiment explained in more detail.

Fig. 1 and 2 show the three-dimensionally spanned by the flash lamps (11, 12, 13, 14, 15, 16) irradiation chamber (20).

The flash lamps are each surrounded on the side facing away from the radiation chamber by a reflector ( 17, 18, 19 ). Since the flash lamps also emit very high-energy UV radiation and this radiation also contributes a very significant part, particularly with regard to surface hardening, to the polymerization. it is advantageous to manufacture the reflectors from high-purity aluminum at least on the side facing the lamps. In addition, these reflectors should be bright anodized because of the better surface quality. The overhead lamps ( 11, 12 ) can also be replaced by a clever arrangement of the reflectors. In this way, the introduction of the workpiece to be irradiated (No. 21 ) is made considerably easier.

The reflectors ( 17, 18, 19 ) can also consist at least partially of dielectric thin-film filters. Likewise, filter glasses can be attached between the lamps and the radiation chamber, which transmit the active short-wave radiation up to approx. 500 nm and absorb or reflect the radiation above.

However, it has been shown that the depth of polymerization and in particular the surface hardness of the corresponding ones light-curing plastics are improved when the radiation of the lamps, especially flash lamps, unfiltered the workpieces collapse. But then it's for one to ensure forced cooling of the workpieces.

The elements marked with ( 22 ) in FIG. 1 or FIG. 2 are responsible for the cooling or for the electrical supply of the lamps.

Claims (13)

1. Irradiation device for the radiation polymerization of light-curing plastics with a receiving device for the plastic to be irradiated and with a radiation source, characterized in that the radiation source consists of at least two lamps that span a multidimensional radiation space. 2. Irradiation device according to claim 1, characterized in that that the radiation room is at least two-dimensional is. 3. Irradiation device according to claim 1, characterized in that that the radiation room is three-dimensional. 4. Irradiation device according to claim 1, characterized in that that the lamps are flash lamps. 5. Irradiation device according to claim 1 and 4, characterized characterized in that the lamps have a straight rod-shaped To have shape. 6. Irradiation device according to claim 1, 2 or 3, characterized characterized in that the lamps are curved in themselves.   7. Irradiation device according to claim 1, 2 or 3, characterized characterized in that each lamp with a reflector is provided. 8. Irradiation device according to claim 1 to 7, characterized characterized in that at least partially during the Irradiation time Pressure in the irradiation room on the is polymerized to be polymerized. 9. Irradiation device according to claim 1 and 4, characterized characterized in that the flash lamps at a constant Voltage on the flash capacitor can be ignited. 10. Irradiation device according to claim 1, 4 and 9, characterized characterized that the flash lamps during the live zero crossing of the mains voltage are ignited. 11. Irradiation device according to claim 1, 4 and 9, characterized characterized in that the light dose by counting the Lightning is determined. 12. Irradiation device according to claim 1-11, characterized characterized in that the radiation from the lamps is unfiltered occurs on the plastic to be polymerized. 13. Irradiation device according to claims 1-12, characterized characterized in that the parts to be irradiated a forced cooling are subjected.