DE2152933A1 - IRRADIATION DEVICE - Google Patents

Description

Irradiation device The invention relates to an irradiation device with at least one gas discharge lamp and a device for regulating it Business, in particular for cosmetic purposes.

An irradiation device for cosmetic purposes is already known, with two high-pressure mercury vapor lamps with different electrical ones Services are provided. The high pressure mercury lamp is the higher provided electrical power with a filter that is only assigned to the UV-A range The spectral range of wavelengths from 5 150 to 3 600 .91E passes, while the High pressure mercury lamp with lower electrical power without filter is operated and accordingly the entire UV radiation in the wavelength range of supplies around 2,800 iE to approx. 4,000 iE. With this device the for electric high pressure mercury vapor lamps designed for different outputs during their Operation switched on for different lengths of time in order to use this as a product radiation dose defined from radiation power and radiation time Suitable for tanning human skin, appropriate to sunlight To achieve effect, the proportions of UT-A: IJV-B: UV-C in the ratio of about 200: 1: 0 s-marriages.

This is the total radiation dose, in particular via the "time" factor Controlling irradiation device requires extensive control means and has because of the filter used also has a poor efficiency.

The invention is based on the object of providing an irradiation device To create the type mentioned at the outset, without rushing with the aforementioned night afflicted and that, moreover, enables the ratio of the proportions of the To be able to change and regulate UV-A and UV-B radiation as desired in a wide range.

According to the invention, the object is achieved in that as a discharge lamp a mixed vapor lamp with, in particular, a mercury and metal halide filling, is preferably preceded by tin iodide, the radiation characteristics of which are in the W range can be set as a function of the wall temperature of the discharge vessel, wherein the mixed vapor lamp at a wall temperature of the discharge vessel from above 5000 C the characteristics of a metal halogen lamp and below 5000 C the characteristics a high pressure mercury lamp. That way one can be for therapeutic radiation suitable for cosmetic purposes is generated in a single discharge vessel and in a simple way the ratio of UV-A: UV-B radiation for the respective application adjusted accordingly. This arbitrary adjustability of the radiation components is especially beneficial for irradiation for the purpose of tanning the human skin, as their sensitivity to the skin type, age and gender of the person and also from depends on the season, which is accordingly different. It also educates human In the course of the treatment period, the skin has a filter against UV-B radiation in the form of a Corneal thickening, which is only caused by an increased UV-B component in the total radiation can be effectively countered.

The wall temperature of the discharge vessel is set after an embodiment of the invention in vo? 'Partial manner in that the Cathode of the IIischdan.pflarnpe with a ballast and a current regulator for Choice of the electrical power converted in the IIisondampflampe is connected.

This is the wall temperature that determines the radiation characteristics of the discharge vessel with the easily controllable electrical operation The power of the mixed vapor lamp can be preselected and adjusted as required over a wide range.

Another embodiment of the invention according to the generic term consists in placing the discharge vessel in the cooling air flow of a blower or ventilator to be arranged with adjustable power to influence the external heat dissipation. at this embodiment also depends on the wall temperature of the discharge vessel Depending on the radiation characteristics, the wall temperature and thus the various Operating states of the mixed vapor lamp with the easily controllable cooling capacity desired and freely selectable in a particularly wide range.

Another particularly advantageous one works on the same principle Embodiment of the irradiation device according to the type mentioned. Here In contrast to the arrangement described above, it is not the entire but only one Part of the outer surface of the discharge vessel is acted upon with cooling air.

For this purpose, an attachment is formed in one piece on the discharge vessel, the is provided with a heating coil on the outside.

Further advantageous details of the invention emerge from the following Description of the embodiments shown in the accompanying drawings explained.

1 shows an irradiation device with an associated circuit, FIG. 2 shows another embodiment and FIG. 3 shows another embodiment.

In Fig. 1, 1 is a particular made of quartz; Discharge vessel of a mixed vapor lamp referred to, in which two are preferably Tungsten electrodes 2, 3 are located. They are also in the discharge vessel 1 mercury 4 in liquid form and a metal halogen 5, in particular tin iodide introduced in solid form. The electrode 2 of the mixed vapor lamp is direct and the Electrode 3 via a ballast 6 and a current regulator 7, e.g. as a phase control device can be formed with bidirectional converters to the power supply network connected.

After a short burn-in time of around 3 minutes, the discharge has finished their steady state and thus the mixed vapor lamp reaches nominal operation, the nominal voltages being applied to the mixed vapor lamp and to the ballast 6. In this operating mode, the mixed vapor lamp works as a metal halide lamp, because as a result of the electrical power converted in the process, the inner wall of the discharge vessel 1 has a temperature of significantly above 5000C, in particular 8500C. These A high specific wall load causes such a high metal halide vapor pressure in the mixed vapor lamp that that the metal halide additives evaporate completely and consequently the spectrum the discharge mainly determined by these metal halide additives and a nearly; continuous spectrum without short-wave radiation in the W-C and with very small W-B portion is radiated.

When the lamp current is reduced by the current regulator 7 or an additional impedance below its nominal value decreases the specific wall load and thus also the temperature of the inner wall of the discharge vessel 1. Through this condenses the Metal halide partially, eliminating the influence of the metal halide vapor on the spectrum of the radiation becomes smaller, the influence of the high-pressure mercury arc increases in the spectral distribution of the light, and the line radiation in the UV-B range is more prominent. Thereby shift not only the radiation components in the W-B and UV-A range relative to one another, but the absolute value of the radiation in the W-B range is increased.

The lower limit for the adjustable via the current intensity using controller 7 Power conversion, of which the temperature of the inner wall of the discharge vessel 1 in is determined by the mercury vapor pressure which determines the arc voltage. This minimum current value for the lower limit is to be chosen so that the inner edge of the discharge vessel 5 1 does not fall below the temperature of 4000C, since the mercury in the discharge vessel 1 is completely above this temperature has evaporated.

Within this specified range in which the temperature of the Inner wall of the discharge vessel 1 and thus the partial pressures of the discharge the vapors involved is regulated by electrical measures, the radiation components can be reduced from W-A: W-B relative to each other from about 20: 1 at the lower limit to about 200: 1 set at the upper limit and also changed during operation will.

This over the temperature of the inner wall of the discharge vessel 1 1 Controlled shift of the radiation components to be emitted relative to one another can also be achieved by appropriate cooling of the discharge vessel 1 from the outside (Fig. 2). Thereby are for the external heat dissipation which takes place by means of forced cooling Provide fans 8, 9 or a blower with adjustable cooling capacity to the The temperature of the wall of the discharge vessel 1 is to be influenced in a defined manner. This influencing happens now such that the one characterized by high wall temperature Nominal operation, whereby the mixed vapor lamp works as a metal halogen vapor lamp without Forced cooling is set with pure convective cooling and through the controllable Forced cooling, the cooling of the wall of the discharge vessel 1 is carried out accordingly will. This controllable forced cooling has the condensation of the metal halide vapor on the inner wall of the discharge vessel 1 result, whereby the desired displacement of the spectrum towards shorter wavelengths is effected.

Another possibility, the partial pressures of the vapors in the mixed vapor lamp to control, consists in attaching an approach to the discharge vessel 1. This Approach, which is designated in Fig. 3 with 10, is only weak by the discharge heated and therefore assumes a lower temperature than that delimiting the arc Parts of the inner wall. Because the vapor pressure in an enclosed space is negligible small diffusion resistance is determined by the coldest part of the wall, can be the temperature of the wall of the approach 10, and thus the vapor pressure of the metal halide 4 by an additional heater 11, which is placed around the outer surface of the extension 10 is defined to be increased, thereby increasing the discharge characteristic of the high pressure mercury arc to that of the metal halide arc. A change in the proportions of UV : W-B: UV-A in a ratio of 1: 1: 1 to 0: 1: 1000 can be used in this way can be achieved.

Claims (4)

Claims 1. Irradiation device with at least one gas discharge lamp and one Device for regulating their operation, in particular for cosmetic purposes, characterized. that as a discharge lamp a mixed vapor lamp with in particular one Mercury and metal halide filling, preferably tin anodide, is provided, their radiation characteristics in the W range as a function of the wall temperature of the discharge vessel (1) is adjustable, the mixed vapor lamp at a wall temperature of the discharge vessel (1) from above 5000C the characteristics of a metal halogen lamp and below 500 ° C. it has the characteristics of a high-pressure mercury lamp. 2. Irradiation device according to claim 1, characterized in that the cathode (3) of the mixed vapor lamp with a ballast (6) and a current regulator (7) connected, and the wall temperature of the discharge vessel (1) by the converted electrical power is adjusted. 3. Irradiation device in particular according to claim 1, characterized in that that the discharge vessel (1) in the cooling air flow of fans (8,9) or one Fan with adjustable power is arranged. 4. Irradiation device in particular according to claim 1, characterized in that that a projection (10) is integrally formed on the discharge vessel (1) around its outer surface a heating coil (11) is arranged.