NO127949B - - Google Patents

Description

Low pressure mercury vapor discharge tube.

The invention relates to a low-pressure mercury vapor discharge tube which, during operation, has a lowest outer wall temperature of 30-45° C and a "wall load" of more than 50 mW per cm<2> and is provided with an aid by means of which the mentioned lowest wall temperature at the mentioned load can be achieved.

By wall load, here is meant the pipe's total wattage divided by the pipe surface between the electrodes.

It should be noted that the mercury vapor pressure is indeed conditioned by the lowest internal wall temperature, but that the difference between the internal and external wall temperature of the pipes in question here is however so small that for practical reasons it can be counted on outer wall temperature.

In the case of a known tube of this kind, the aid consists of an unusually large distance between the electrodes and the tube ends, so that the aforementioned lowest wall temperature is behind the electrodes. This solution has the disadvantage that you get long, darker pipe ends.

In the case of another pipe, the aid consists of a kidney-shaped cross-section of the pipe. This concentrates the discharge to the middle part of the cross-section so that the ends of the cross-section, i.e. the sides of the pipe, have the lowest wall temperature. These tubes need a larger quantity of glass than the ones mentioned above and the manufacture is more difficult, and the tube is easier to press into pieces than a tube with a circular cross-section.

According to the invention, the aid consists of at least one in the pipe wall between the electric

the trodes placed bulge containing mercury, and whose radial extent perpendicular to the pipe axis is greater than 20% of the pipe radius.

This bulge can extend

annular around the tube.

In general, it is sufficient

a dome-shaped bulge.

With an outer diameter of the pipe of approx.

4 cm, the dome can have a height of approx. 1 cm

and an external diameter of approx. 1 cm.

The tube's filling gas can consist of neon with a pressure of approx. iy2 mm of mercury at room temperature.

Very good results are obtained when the filling gas is argon with a pressure of approx. 1 mm of mercury at room temperature.

An embodiment of the invention will be explained in more detail with reference to the drawing.

In the drawing, the tube flask for a low-pressure mercury vapor discharge tube is denoted by 1. The tube flask is closed at the ends, e.g. by means of a common compression construction 2 in which the power leads 3 to the activated glow electrodes 4 are fused.

The tube flask can be provided on the inside with a layer that converts the radiation produced by the discharge into radiation with a longer wavelength. Of course, such a layer is omitted when the radiation produced by the discharge is to be used directly.

The middle part of the tube flask is provided with a dome-shaped protrusion 5 in which there is a mercury quantum 6, e.g. of 5 mg.

The bulge 5 may optionally be annular and extend around the cylindrical tubular flask 1, as indicated by dashed lines 7. In a practical embodiment, the length of the tubular flask 1 was approx. 120 cm, the inner diameter approx. 36 mm, the outer diameter approx. 38 mm, the distance between the electrodes and the nearest touching end approx. 35 mm. The dome 5 rises approx. 10 mm out of the tube flask and the diameter of the dome was approx. 11 mm.

With a filling of argon with a pressure of 0.8 mm of mercury at room temperature and a load of approx. 100 watts, which was set using a series-connected impedance, the tube voltage was approx. 80 volts and the load current approx. 1.45 amp., which corresponds to a wall load of approx. 74 mW per cm<2>. The temperature was then on the downward-facing outer surface of the dome-shaped protrusion approx. 38° C.

The tube provided a luminescence layer of halogen phosphate with a color temperature of approx. 4,200° C, an efficiency of 61 lumens per Watts consumed performance. Of course, the electrodes 4 are dimensioned for said current strength.

When the tube together had a filling gas of neon with a pressure of iy2 mm of mercury at room temperature, and the load of 100 Watts set, the tube voltage was 125 volts, the discharge current

Claims (4)

about. 0.9 amp. and the temperature at the top of the dome-shaped bulge approx. 38° C and the efficiency approx. 57 lumens/Watt. 1. Low-pressure mercury vapor discharge tubes which during operation have a lowest outer wall temperature of 30-45° C and a "wall load" of more than 50 mW per cm<2> and is provided with an aid by means of which the mentioned lowest wall temperature at said load can be achieved, characterized in that the aid consists of at least one bulge located in the pipe wall between the electrodes which contains mercury, and whose radial extent is perpendicular to the pipe axis is greater than 20% of the pipe radius. 2. Discharge tube according to claim 1, characterized in that the bulge extends annularly around the tube. 3. Discharge tube according to claim 1, characterized in that the bulge is dome-shaped. 4. Discharge pipe according to claim 3, with an outer pipe diameter of approx. 4 cm, characterized by the fact that the dome is approx. 1 cm high with an outer diameter of approx. 1 cm.