DE649006C - Discharge tubes containing vapor, surrounded by an evacuated cover, in particular for emitting light beams - Google Patents

Description

Discharge tube containing vapor, surrounded by an evacuated envelope, particularly for emitting light beams. The invention relates to one of one evacuated envelope, vapor - containing discharge tube with at least two parallel pipe parts, e.g. B. U-shaped discharge tubes, which in operation have a high Assumes temperature and is used in particular to emit light rays. The evacuated Cover is used for thermal insulation and makes it easier to reach a high temperature the tube and the required vapor pressure inside the tube. The usage Such a shell is especially important when the tube is less volatile vapor Metals (vapor pressure at zoo ° G less than i nim), e.g. B. sodium contains.

According to the invention, the discharge tube is made exclusively by one resilient member holding onto the mutually facing sides of the pipe wall supported against the shell. This makes it easier and more economical Way a fixed position of the discharge tube in the envelope reached.

The resilient organ does not always need to be directly against the envelope but can also rest indirectly on the shell. Between the discharge tube and the sheath can e.g. B. be arranged a cylindrical glass screen with the Sheath firmly connected or rests on it with the interposition of resilient rings. In this case, the resilient member supports the discharge tube against the cylindrical one Screen and in this way indirectly against the shell.

It is known to use high pressure mercury and sodium vapor lamps to be resiliently supported against a surrounding evacuated envelope. For this purpose, in particular uses annular springs arranged between the discharge tube and the envelope. It is also known to use the curved part of the discharge tube in U-shaped sodium vapor lamps to be encompassed on its full circumference by a holder loop.

The resilient support used according to the invention has opposite this known design has particular advantages. The springs cause heat to dissipate, which there often leads to a lowering of the lowest prevailing in the discharge space Temperature and thus leads to a reduction in the steam pressure. To this pressure reduction To make up for this, the stress on the tube must be increased, resulting in greater overheating the hotter parts of the discharge tube and an enlargement of the uselessly consumed ones Energy means. -According to the invention holds the resilient member that is against the Sheath supports that Carrot not by its outer L, mriß, but only on the facing sides of the pipe wall. These. Place the pipe parts are as a result of the opposite no ;. lateral heat supply hotter than that outer sides @ facing the shell for pipe parts. The steam pressure in the RöhW does not depend on the temperature of the facing sides of the interior parts determined, and the heat dissipation from these caused by the resilient organs Pages does not need to result in a reduction in the vapor pressure.

If necessary, such a heat dissipation through the resilient Allow organ, according to which the part of the tube wall held by this organ assumes a slightly lower temperature than the outside of the pipe parts. One must then supply a little more energy to the tube, but retains a design that is still more advantageous than if the resilient organ is the tube on the outside that holds the pipe parts in place. In addition, one achieves the advantage that the vapor deposition forms near the point of contact between the tube wall and the resilient organ, so that the outer sides of the pipe parts remain free from precipitation.

It is expedient to arrange the resilient member in such a way that it is the discharge tube holds on to the transition of the parallel pipe parts.

The connection between the resilient member and the tube wall can can be brought about in different ways, e.g. B. with the help of a glass bead. One simple solution is obtained if one has the resilient organ by its own Can clamp spring force between the pipe parts.

Advantageously, a coil spring is used, which one on the The transition of the pipe parts is jammed between these pipe parts due to its own spring force, this transition is formed in such a way that the, helical spring by more than iSo 'is encompassed by the tube wall. As a result, it is impossible that the spring shifts in the direction of the axis of the pipe parts.

The drawing shows an embodiment in FIGS. I and 2, for example of the invention.

The depicted discharge tube serving to emit light i has a U-shaped shape and shows where the parallel legs interlock pass over, in a known manner, a smaller cross-section than in the straight parts the pipe leg, the distance a between the facing sides made the pipe leg a little larger near the transition of this leg ; has been than the normal distance b. The discharge tube is at the ends with bifilar wound glow electrodes with a strong electron-emitting material a fitted. The two '.gVc' nzufülirtingsdrälite led to the outside through the pinch point 3 each glow electrode are connected to each other, so that during normal operation the Glow electrodes are heated by the discharge. There is a in the tube Noble gas, e.g. B. neon, under a pressure of 10 mm. The tube also contains a Amount of sodium, the vapor of which emits an intense yellow light, disrupting normal operation.

The discharge tube is at the pinch point with the help of wires ¢ 5 attached to the glass envelope 6 forming the tube. This envelope is evacuated and with a base? provided, whose contacts with the power supply wires of the Glow electrodes are connected; z «-ischeii of the discharge tube i and the envelope 6 a cylindrical glass screen 8 is arranged, which is open on both sides and on lower end to the. Shell 6 is kind of melted. To clarify the drawing the cover and the screen are shown in cross-section.

The discharge tube is against the cylinder by the coil spring 9 8 and thus supported against the shell 6. This spring is approximately circular due to the opening formed at the transition point between the pipe legs, inserted and is by its own spring force with the intermediate storage of a mica plate i o clamped against the tube wall. This springy cover can be made easier Way can be achieved in that the length of the relaxed spring is slightly larger is chosen as the inner diameter of the cylinder 8, so that the spring upon insertion is compressed in the cylinder in the longitudinal direction and consequently in radial direction expands, whereby the located between the pipe legs Part of the spring is pressed firmly against the tube wall. The resilient clamping can can also be obtained by twisting the helical spring when inserting it. because the distance a is greater than the distance b, the coil spring is increased by more than i 8o 'encompassed by the tube wall, so that the spring also prevents displacement in the The longitudinal direction of the pipe legs is secured.

In this way, a simple and solid, unbreakable storage is achieved of the discharge tube within the envelope without any unfavorable effect Heat dissipation needs to be accepted. Also, the spring only catches proportionally little light. The invention can also be used when the Tube more than two, e.g. B. has three or four parallel legs. Of course the tube can also be supported against the casing by several resilient organs; z. B. can be the tube shown with the help of a second coil spring, which in near the pipe ends can be clamped between the pipe legs will.

Claims (3)

PATENT PROVISIONS: i. Discharge tube surrounded by an evacuated envelope, containing steam and with at least two parallel tube parts, which assumes a high temperature when in operation, in particular for emitting light rays, characterized in that the discharge tube is secured by a resilient member which holds it exclusively on the mutually facing sides of the tube wall is supported against the shell. - 2. Discharge tube according to claim. i, characterized in that the resilient organ is the discharge tube at the transition between the parallel tube parts holds on. 3. Discharge tube according to claim i or 2, characterized in that the resilient member clamped between the pipe parts by its own spring force is. q .. discharge tube according to claim 2 and 3, characterized by a helical spring, which is encompassed by the tube wall by more than 18o ".