DE652752C - Electric discharge tubes filled with metal vapor - Google Patents

Description

The invention relates to an electrical one used in particular for light emission Discharge tube with vapor of low-volatility metals, especially sodium vapor. Around It has already been proposed to reduce the heat losses of such a tube to form the wall of the tube as a double bell and the space between the two To vent walls. Through this training, in which the discharge tube so with is surrounded by a ventilated space that reduces heat loss, the emergence will be of the required vapor pressure when operating the tube.

According to the invention, the vented space between the walls is double-walled Sheath formed, -that encloses the tube with a gap, the air contains. . ·

It turns out that 'this design enables other great advantages in addition to the reduction in heat losses. Thus, the air present between the tube and the envelope equalizes the temperature distribution over the wall of the discharge tube, ie the air transfers heat from the hotter areas to the colder areas. The vapor pressure in the tube is determined by the lowest temperature in the discharge space. In order to obtain the required vapor pressure, the tube must be heated in such a way that the lowest temperature of the discharge space corresponds to the desired vapor pressure. The heating of other parts of the tube above this lowest temperature has no effect on the vapor pressure and is not only useless but also harmful, especially in the case of the tubes, whose operating temperature is very high. In general, the higher the temperature, the more attacked the glass wall by metal vapor. As is well known, sodium vapor lamps are made of special glass that is resistant to sodium vapor, at least on the inside of the wall. This glass also slowly degrades during operation. Steam attacked, whereby the back, light transmission, namely, the higher the temperature of the respective points is the wall at the operations more rapidly. Since in the embodiment according to the invention, as stated, the wall temperature is equalized and the

*) The patent seeker addressed the following as the inventors:

Cornells BoI ₁ Willem Uyterhoeven and Eduard Gerardus Dorgelo in Eindhoven, Holland.

Temperature of the various parts of the wall less above the lowest required Temperature, the tube wall is also less attacked by metal vapor, 5 "which increases the service life.

As a result of the temperature leveling, the risk that the tube The mechanical stress on the hottest parts of the wall is too high, while the ; required lowest temperature even with the use of a smaller amount of energy is achieved.

Another great advantage of the design according to the invention is that it is less Dependence on changes in the external atmosphere. If the tube z. B. hit by wind, it is generally the heat output of the discharge tube can be increased and the tube wall a accept lower temperature. Since the vapor pressure is heavily dependent on the wall temperature and the light emission is heavily dependent on the vapor pressure can be influenced, these have changes in the state of the. Environment (wind, temperature changes) have a strong influence on the discharge tube. It has now been found that this influence in the inventive Training is much smaller than if the discharge tube with a single-walled Surrounding envelope and the space between the actual tube wall and this envelope wall is vented.

It has already been proposed to use the wall of an incandescent lamp to reduce the Form heat losses as a double-walled bell and the space between the both walls of this bell to vent. It has also been suggested to use the incandescent lamp • with a special double-walled shell that leaves the space between the two of you Wändgn was vented to surround. In the case of incandescent lamps, however, those described above play a role Appearances and those with the inventive Training in this context achieved benefits irrelevant.

Just like the use of a special double-walled cover for an incandescent lamp also shows the embodiment according to the invention the advantage that the casing and the tube are manufactured, transported and separately can be exchanged.

The casing can be designed in a manner known per se cup-shaped so that it the shape of the vacuum glasses known from the use of liquid gases, so-called dewar vessels, owns.

The space between the discharge tube and the envelope is expediently sealed, thereby limiting heat loss.

For this purpose you can z. B. use a heat-resistant material such as asbestos. A very practical and easy to apply seal can be made with the help of a ring made of heat-resistant Fabric with a resilient core can be achieved. This ring can be pushed on in a simple manner, surrounding the discharge tube and causes a good seal due to its spring action. At the Such a ring can advantageously be used in the wall of the discharge tube create an annular indentation on which the ring rests. This ring gets through this a very definite fixed position.

The discharge tube is operated with the help of a transformer, and is the envelope Cup-shaped, so you can see this transformer below the open Arrange the end of the envelope. The heat developed in the transformer supports in in this case the heating of the discharge tube.

In some cases a resistor is connected in series with the discharge tube. In this case, this resistor can be arranged in the space between the discharge tube and the double-walled envelope be where he's increasing the temperature of the. Discharge tube supported. the The arrangement of the resistor is easy, since there is almost no resistor developed heat is radiated uselessly. Often times it is advisable to use the resistance around the end of the discharge tube through the power supply wires are led to the outside. In this end the temperature is generally, lower than in the rest of the discharge tube. By placing the resistor near this end of the tube the temperature there can now be approximated in a simple manner to the temperature of the remaining part of the tube.

The invention is shown in the drawings, for example in some embodiments explained in more detail.

In Fig. Ι a discharge tube 1 is shown, which has an elongated shape and with two hot cathodes 2 and 3 and with two Anodes 4 and 5 is provided. The anode 4 is connected to one of the power supply wires the cathode 2 in connection, as is the anode 5 with one of the power supply wires the hot cathode 3 connected. 'Will the discharge tube with alternating current operated, the current goes alternately between the hot cathode 2 and the anode 5 and between the hot cathode 3 and the anode 4 via. The discharge tube contains a lot of sodium, its vapor at the

Light emission is involved; the tube also contains a certain amount of noble gas. The discharge tube ι is surrounded by a sleeve 6 with a double wall. The room 7 between these walls is vented, while the space between the discharge tube ι and the envelope 6 contains air. Around the top of the discharge tube a resistance wire 8 is wound around it. This resistor can be connected in series with the discharge tube and increases the temperature at the top of the discharge tube.

The upper end of the envelope 6 is sealed with a quantity of asbestos 9. The discharge tube ι and the sheath 6 can each be hung in a particularly suitable manner.

In Fig. 2, the discharge tube is numbered 10 and also here surrounded by a cover 6. Located in the lower end of the tube a pinch foot 11 to which the electrodes, not shown in the figure, are attached are. A screen 12 made of mica is embedded in the tube, which extends up to the Edge of the discharge tube extends and on the lower side of an indentation 13 in the wall of the discharge tube is in contact. The screen 12 has the purpose of interacting with the indentation 13 the lower end of the discharge tube from the upper Complete part that contains sodium vapor. This steam can as a result do not penetrate into the lower part of the discharge tube, which is a lower temperature than the during operation actual discharge space will assume. This prevents unwanted condensation, Sation of sodium vapor in this lower part of the tube is avoided.

At the location of the indentation 13, the discharge tube 10 is surrounded by a ring, which consists of a metal spring 14 with heat-resistant fabric 15, expedient Asbestos. The spring 14 (Fig. 3) consists of a helical, in the Metal wire shaped like a toroid. This feather is wound with asbestos, like that that a coating 15 is formed. The so educated Ring closes the space between the discharge tube and the vented envelope, so that the heat loss of the discharge tube is reduced even further. The ring described can be placed in a very simple manner between the discharge tube and the Sheath are brought, and the spring action of this ring causes * always a good one Seal.

The discharge tube 10 and the envelope 6 can both be provided with a base, with the help of which the tube and the sheath are fastened in a socket can.

Claims (7)

Patent claims: 1. Surrounded by a ventilated space. especially for light emission Serving electrical discharge tube with vapor difficult to evaporate metals, in particular sodium vapor, thereby characterized in that this space is formed by the walls of a double-walled envelope which the tube with enclosing a space containing air. 2. Electrical discharge tube according to claim 1, characterized in that the space between the discharge tube and the envelope is suitably sealed with asbestos. 3. Electrical discharge tube according to claim 2, characterized in that the space is closed off by a ring made of heat-resistant material, such as asbestos, with a resilient core. 4. Electrical discharge tube according to claim 3, characterized in that the ring rests on an annular indentation in the wall of the discharge tube. 5. Electric discharge tube according to claim 1, 2, 3 or 4, which with the help a transformer is operated, characterized in that the transfermator is arranged below the open end of the shell, which is cup-shaped in a manner known per se. 6. An electric discharge tube according to claim 1 to 4, with which a resistor is connected in series, characterized in that this resistor is in the space between the discharge tube and the shell is arranged. 7. Electrical discharge tube according to claim 6, characterized in that the resistor is attached around that end of the discharge tube "through which the power supply wires are led to the outside. 1 sheet of drawings