DE695026C - High intensity arc lamp with motorized, thermally controlled electrode feed - Google Patents

Description

High intensity arc lamp with motorized, thermally controlled electrode feed The invention relates to a high-intensity arc lamp with motorized, thermal controlled electrode advance in such a way that when the electrode burns back a bundle of rays sucks on a thermal switch, the longitudinal axis of which is parallel to the path of the arc is noticeable, which is a device for accelerating the Triggers the advance of the electrode. It is already known that if the burn-back is too strong a second thermal switch is hit by a beam of rays near the electrode and causes the lamp voltage to be switched off, in order to burn the carbon holder and damage to the concave mirror arranged in the vicinity of the electrode To prevent drops of molten metal. The "well-known arrangement of a second thermal switch has the following disadvantage: Usually only the The first thermal switch is activated and the second is activated Switch me when an electrode or a more serious one is completely consumed Disturbance. a. As a result, the sensitivity of such a Th ermo. Switch the disconnection of the voltage is not sufficiently secured; also will in the case of a too fast advance the "second thermal switch is not applied at all; so that switching off in the event of such a fault does not occur either.

The invention now provides a delay relay - which by the switched on thermal switch is excited and the. Main switch of the arc lamp "pressed. The delay this relay is set so that it is a multiple of the normal duty cycle of the thermal switch, so that every time the thermal switch is interrupted before the delay time has elapsed is returned to its initial state. How the new arrangement works is so such that with each response of the thermos holder the delay relay is excited. According to the increasing speed due to the accelerated feed of the light spot thrown on the thermal switch, the circuit is only a certain time, on average a few seconds, d. H. so. closed for a long time, until the light spot on the thermos holder as a result of the advance of the electrode disappears, so that this interrupts the acceleration circuit again. With this moment the excitation of the delay relay is interrupted, so that this is returned to its initial state and not at all to trigger the main switch is brought. However, if the interruption of the thermal switch occurs after the normal Duty cycle is not activated, the delay relay becomes effective and causes this Switching off the lamp voltage. What is essential is that such a delay relay due to its frequent use in electrical engineering, the preference is sufficient assured reliability.

Also the mentioned drawback, that with the known facilities It is not possible to switch off the lamp voltage if the electrode is advanced too strongly is, can be remedied by a suitable design of the device according to the invention will. Is, as is known per se, in that the longitudinal axis of the thermal switch is parallel to the path of the arc, made sure that the through-one Optics created the image of the glowing crater not only when lagging behind the normal position of the positive electrode, but also when it is exceeded notices on the thermal switch, so, will too. in this case the thermos holder closed and the delay relay energized, so that according to the prescribed Time the lamp voltage is switched off. Instead of the separate arrangement of the control and delay relays can also both be structurally combined.

The operation of the safety switch according to the invention is described below with reference to a schematic embodiment.

The conductors i and 2 of the voltage source are connected to the carbon electrodes 3 and q. tied together. The drive motor S of the set of rules (not shown here) is connected to the same voltage source via a switch 6 which is held by a spring 7 in a position in which a reserve resistor B is connected in front of the drive motor. When the electrode 3 burns back, a picture of its crater is thrown next to the diaphragm io on the thermal switch ii, which closes the same: When this switch is closed, the control relay 6 is energized and the resistor 8 is switched off, so that the drive motor 5 and thus the Varschub the Electrode 3 is accelerated. Simultaneously with the star relay 6, the, for example, thermally controlled delay relay iz, which is connected to the main switch 13 , is excited. If the thermal switch ii is now opened again as a result of the advance, so. the excitation of the delay relay 13 is thus interrupted and this is returned to its initial state. However, if for any reason there is an interruption in the switch. ii is not on, the main switch 13 connected to the delay relay interrupts the power supply to the electrodes.

The same process occurs when, as a result of an excessive advance of the electrode 3, the image of the crater falls past the other side of the diaphragm onto the thermal switch. An interruption of the switch ii before the expiry of the delay of the relay i-- is prevented by suitable dimensioning, so that in turn the timely disconnection of the power supply by the main switch 13 : occurs.

Claims (1)

NATENTANSYRÜCHr: i. High intensity arc lamp with motorized, thermal controlled electrode feed, characterized in that a switched on by Iden Thermal switch energized delay relay that actuates a main switch of the arc lamp is provided whose delay time is a multiple of the normal duty cycle of the thermal switch and which is before the thermal switch is interrupted Expiry of the delay time is returned to its initial state. a. High intensity arc lamp with thermal switch and delay relay according to claim i, characterized in that the longitudinal axis of the thermal switch in a manner known per se parallel to the path of the arc is arranged with alternating crater position and a diaphragm is assigned to it, which the action of the thermal switch by the crater light both at Lagging behind behind a prescribed normal position as jauch allowed when crossing the same. G. High intensity arc lamp according to claim i and z, characterized in that the diaphragm is so dimensioned that at one Too strong @electrode advance of the thermal switch from the crater light to the action of the delay relay is applied.