DE563542C - Mercury vapor lamp - Google Patents

Description

Mercury vapor lamp The invention relates to mercury vapor lamps for alternating current operation, in which two short riser pipes are arranged on the anode side which open into the common light tube and where at the junction the ignition takes place between the anode riser tubes and the light tube. With these Mercury vapor lamps can cause problems that occur after the arc has been ignited when stoving through the strongly heated, highly ionized and therefore conductive Gases and mercury vapors balance the voltage between the anode poles in the Risers takes place. This can cause the arc to go out.

These drawbacks are remedied according to the invention in that above of the two anode pole vessels, a condensation chamber is arranged for both anode pole vessels is common, as well as directly with the two anode pole vessels and also still is connected to the light tube by a special tube. Through this pipe are the hot conductive gases and. Vapors derived from the anode riser pipe and fed to the common condensation space, where they are precipitated. The at Further burning of the arc, newly emerging gases and vapors are in the same Way through the connecting pipe to the condensation chamber. That way will the stability with the simplest means and the least possible expenditure on expensive quartz of the arc significantly increased when burning. At the same time it is achieved that a certain voltage equalization between the mercury surfaces of the two anodes can take place in the anode body itself, but not in the riser pipes.

The anode body preferably consists of a uniform hollow body, the lower part of which is divided into two rooms by a wall, while the upper part Part forms the common condensation space. The condensation chamber and the connecting pipe are therefore not divided.

According to another embodiment of the invention, the anode part designed as a U-shaped tube, the legs of which receive the anode mercury, while its vertex is the joint that is connected to the light tube Forms condensation space. These types of construction simplify the manufacture of the anode part and achieved a further saving in quartz.

Several embodiments of the invention are in the accompanying drawings for example shown.

Fig. I shows the mercury vapor lamp in side view and in part Section, Fig. Z in plan.

Fig.3 shows a plan in another embodiment, Fig. Q. a Part of the light tube in plan. i is the anode body that consists of consists of a uniform hollow body, which in its lower part by a Wall 2 is divided. The two short anode riser pipes connect to the lower part i 3, 4, which lead into the uniform light tube 5. 6 is the cathode body. The upper part of the anode body forms a uniform condensation space 7 and this uniform space is according to the invention by a single tube 8 with the light tube 5 connected. The tube 8 is preferably located at the junction of the anode riser tubes with the light tube so that the hot ones in the anode riser tubes are high ionized vapors etc. through this connecting pipe to the condensation room be derived. Since only a single connecting pipe is provided and the wall in the anode body is limited to the lower part, the effort is also required Quartz low.

According to Fig. 3, the anode riser tubes can form a common tube 9, which is divided in its longitudinal direction in the middle by a wall io into the two tubes a and b . If the mercury in the two anode riser pipes d and b is at different levels during the course of the burning process, for example by the distance c, then a double thing is achieved: The heat that is generated by the longer arc in pipe b is at c partially transferred through the partition to the mercury located in the adjacent tube a, so that the mercury in the riser tube a evaporates more. At the same time, the higher amount of mercury in the anode riser pipe a cools the arc and the vapors in the anode riser pipe b. The evaporation of the mercury is therefore slowed down in this riser pipe. In this way, a possible height difference between the O_uecksilberpolen of the two anode riser tubes d and b is quickly compensated for.

Claims (3)

PATENT CLAIMS: i. Electric mercury vapor lamp for alternating current operation with two anode pole vessels at one end and a cathode pole vessel at the other end of the light tube, in which the anode pole vessels each open into the light tube with a short riser pipe, and the ignition takes place on the anode side at the connection point of the anode riser tubes with the light tube, characterized in that that a condensation space is arranged above the two anode pole vessels, which is common to both anode pole vessels, and is directly connected to the two anode pole vessels and also through a special tube with the light tube. 2. Electric Mercury vapor lamp according to claim i, with a partition between the two Anode pole vessels, characterized in that the septum is only in the lower Parts of the common condensation space is located and that from the condensation space to the light tube leading connecting pipe can be undivided. 3. Electric mercury vapor lamp after Claims 1 and 2, characterized in that its anode part is a U-shaped tube is formed, the legs of which receive the anode mercury, while its apex forms the common condensation space connected to the light tube.