EP1176626A1 - High intensity radiation device and implementation of the same - Google Patents

Abstract

Electrodes (3, 3a) have mountings (6, 6a) of differing lengths. This is shown by a marking (7) at one end of the tube.

Description

The invention relates to a high-performance UV lamp, in particular a high-performance mercury low-pressure tube, for vertical operation, with one from a cylindrical one Both ends closed pistons formed from UV-permeable glass and a filling gas containing discharge space, in the region of each bulb end a first or second electrode provided with external electrical connections with an Electrode frame is arranged. The invention further relates to the use of the high-power UV lamp.

High-performance UV lamps also called high-performance tanning tubes, for example for the treatment or tanning of the human body by ultraviolet rays Find what are the length of the electrodes and use. Electrode frames concerned, symmetrical built up. That is, at both ends of the discharge space formed by a quartz glass bulb one electrode is arranged with an electrode frame, which has the same length has, like the electrode frame at the opposite end of the quartz glass bulb. in the With a view to increasing the efficiency and reducing the temperature of the so-called Cold spots in the electrode dead space (area behind the electrodes towards the end of the piston) were detected Spotlights developed with so-called long frame electrodes, which, however, have a shorter lifespan as such with short frame electrodes. Conversely, it should be noted that High-performance UV lamps with symmetrical short frame electrodes are long-lasting, but do not have an optimal vapor pressure curve in the area of the electrodes. Usually both types (short frame electrodes, long frame electrodes) of the high-performance UV lamps in the horizontal operation, for example in sun beds or tanning beds, in lighting equipment in the form of fluorescent tubes or in disinfection systems.

The vertical operation of the known high-performance UV lamps shows the aforementioned Disadvantages particularly clear, since the additional convection that occurs here, the unbalanced Radiant power increased over the length of the high-performance UV lamp.

It is therefore an object of the present invention to provide a high-power UV lamp for the vertical To provide operation of the aforementioned disadvantages of the prior art overcomes and stable even with a tightly packed arrangement of the individual emitters High-performance operation ensures that the radiator is correctly installed without additional Effort should be guaranteed.

The above object is achieved in that the length of the electrode frame of the first electrode relative to the length of the electrode frame of the second electrode deviates by an amount, the piston end with the longer or with the shorter Electrode frame has a label.

The high-power radiator according to the invention is characterized in that an electrode frame has a significantly greater length than the other electrode frame. The The temperature of the cold spot in the electrode death chamber is thereby on the longer electrode frame reduced, with a vertical arrangement of the radiator with the long electrode frame optimized the steam pressure and efficiency curve of the heater in the upper position becomes. In order to ensure correct assembly, the radiator according to the invention instructs At least one piston end has a label that shows the length of the respective electrode frame there. For example, a directional arrow and / or the Lettering "up" indicate that the long electrode frame is at this end and this The end of the high-performance UV lamp is to be installed at the top.

Advantageous refinements are specified in subclaims 2 to 5.

As advantageous with regard to the optimization of the efficiency curve of the radiator according to the invention in vertical operation it has been found that the length of the first electrode rack is the first Electrode compared to the length of the electrode frame of the second electrode by at least Deviates 5 millimeters. A difference in length of the electrode frames recognized as effective is 10 mm for approximately 2 meter long spotlights.

It is also useful if the UV-permeable glass of the bulb depending on the wall thickness of the bulb and emitted wavelength range of the radiator from a borosilicate glass or Quartz glass exists. For a wavelength range greater than 280 nm and a small wall thickness of the bulb (about 0.1 to 0.3 mm) can be used as a UV-permeable glass borosilicate glass become. Applications for this are usually in lighting technology, where for Conversion of the radiation into visible light expediently phosphors on the inner wall of the glass bulb are applied, the absorption of radiation in the desired Enable wavelength range. For the use of the radiator according to the invention in sterilization systems are larger piston wall thicknesses at lower wavelengths required so that due to high, permanent transmission quartz glass the material of the Choice for the bulb of the emitter.

Radiation in the wavelength range is used for the high-power UV lamp according to the invention between 170 nm and 1000 nm considered appropriate. For different purposes certain wavelength ranges are preferred. This is the preferred UV spectrum for tanning between 280 nm and 400 nm, for fluorescent tubes approximately between 380 nm and 780 nm as well as for spotlights that are used in sterilization systems in the area between 170 nm and 300 nm.

It is also expedient if the electrical power consumption of the high-power UV lamp Does not exceed 300 watts, as this heats up the high-performance lamp in the Operation is limited. This goes with a reduced power loss and thus higher efficiency associated.

The high-power UV lamp according to the invention is particularly advantageously found in a tanning, Sterilization, or lighting device use where it is mounted vertically.

A particularly preferred use of the high-performance UV lamp is in a tanning device in the form of a sun shower. The sun shower covers as a cabin in the a person can stand upright, an essentially cylindrical housing, on the inner wall of the high-performance radiator according to the invention in a vertical orientation are arranged so that the piston end with the short electrode frame in the lower Area of the sun shower and that with the long electrode frame in the upper area of the Sun shower is located. The high-performance spotlight instructs for correct and easy installation marking on at least one end of its quartz glass bulb. Of course reverse installation (short electrode rack above) for certain individual cases the high-power UV lamp according to the invention possible.

The invention is explained in more detail below with reference to a drawing. In the drawing shows the only figure in a schematic representation of an embodiment of the invention High-performance radiator.

According to Figure 1, the interior of the lamp bulb 1 made of quartz glass is cylindrical constructed, with the electrodes 3, 3a along the axis 2 of the lamp bulb 1 face each other symmetrically. The total length of the high-performance UV lamp is 2 m. This example is a high performance mercury low pressure tube for use in sun showers. The electrodes 3, 3a are each made of quartz glass existing lamp bulb 1 vacuum-tight embedded bushing 4 with the outer connection 5 connected. The electrodes 3, 3a are each with an inside of the Lamp bulb 1 facing electrode frame 6, 6a provided which has a bell-like shape having. The length of the electrode frame 6 differs from that of the electrode frame 6 a by 15 mm. On the outer wall of the lamp bulb 1 is in the range of Electrode frame 6 a label 7 in the form of an arrow (not in the figure shown), which points in the direction of the outer connection.

Claims (7)

High-performance UV lamp, in particular high-performance mercury low-pressure tube, for vertical operation, with a discharge space formed by a cylindrical bulb, which is closed at both ends, and made of UV-permeable glass and contains a filling gas, in which a first or one in the area of each bulb end second electrode provided with external electrical connections is each arranged with an electrode frame, characterized in that the length of the electrode frame (6; 6a) of the first electrode (3; 3a) compared to the length of the electrode frame (6; 6a) of the second electrode (3; 3a) deviates by a certain amount, the piston end with the longer or with the shorter electrode frame (6; 6a) having an identification (7). High-power UV lamp according to claim 1, characterized in that the length of the electrode frame (6; 6a) of the first electrode (3; 3a) differs from the length of the electrode frame of the second electrode by at least 5 millimeters. High-power UV lamp according to claim 1 or 2, characterized in that the UV-permeable glass is quartz glass or a borosilicate glass depending on the wall thickness of the bulb (1) and the emitted wavelength range of the lamp. High-power UV lamp according to one of claims 1 to 3, characterized in that the lamp emits radiation in a wavelength range from 170 to 1000 nm. High-power UV lamp according to one of claims 1 to 4, characterized in that the electrical power consumption of the lamp is 300 watts or less. Use of the high-performance UV lamp according to one of claims 1 to 5 in one Tanning device or in a sterilization device or in a lighting device. Use according to claim 6, characterized in that the tanning device comprises a sun shower, which has a substantially cylindrical housing, on the inner wall of which the high-performance UV lamps, in particular high-performance mercury low-pressure tubes, are arranged in a vertical orientation such that the piston end also the short electrode frame (6; 6a) is located in the lower area of the sun shower, the piston end with the longer or with the shorter electrode frame (6; 6a) being marked (7).

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