DE708452C - Arrangement for generating electrical surges, especially for electrical welding systems - Google Patents

Description

Arrangement for generating current surges, in particular for electrical ones Welding systems The invention relates to an arrangement for generating and controlling of periodic or non-periodic current and voltage surges, in particular for electrical welding systems, by means of which the working current of the electricity consumer is influenced controllable gas or vapor discharge lines. The arrangement according to the invention However, apart from electrical welding systems, it is also suitable for a wide variety of types suitable for other purposes, such as flashing systems, X-ray equipment and the like, which are also: a current or voltage surge of a precisely defined period of time.

This task can be solved by means of: a timer device, which is switched on at the same time as the electricity consumer and one the working current controls the gas or vapor discharge path influencing the consumer. At acquaintances Arrangements of this type are the working current of the consumer through the discharge path, both on and off. In contrast, according to the invention the timer device with the consumer and 'the controllable discharge paths so arranged that the timer means during the set period of time blocks the discharge path parallel to the electricity consumer and then the at the beginning of the period: switched on by a mechanical switch. Electricity consumers short-circuits and switches off by igniting the discharge path. Porridge the known Arrangements: the working current must be used during the entire switch-on time of the consumer flow through the discharge path. The discharge path must therefore be dimensioned in this way be that they do not short-term the working current of the consumer, but during can lead to the entire service life of the consumer. The invention deviates from this at the. known arrangements bef Agten as a rule and, used the discharge vessel exclusively for determining the point in time at which the operating current is switched off shall be. The power consumer is switched on by a normal switch. The invention has the advantage that one can get by with one type of vessel which is essential is smaller; because a discharge vessel can have a significantly higher load for a short time than during a longer period of operation.

The drawing shows an exemplary embodiment of the invention. The drawing refers to an arrangement for generating electricity or Voltage surges from a direct current source using one controlled Gas discharge vessel. A consumer in the form of an ohmic resistor 2 is connected to a direct current source i via a mechanical switch 7. Parallel The controllable gas discharge vessel 3 with the anode 4 is connected to the consumer 2, through which the consumer can be short-circuited. Between the consumer and the direct current source is connected to a protective resistor 8 for this ensures that the direct current source is not overloaded when the consumer is short-circuited will. In the lattice circle of the discharge vessel;, d. H. between its cathode 6 and the control grid 5 is connected in series with a grid series resistor 9, a negative one Bias source I0 and an ohmic resistor i i, whose voltage drop to Control of the discharge path is used. This resistance i i is about a Auxiliary discharge path i4 and a mechanical switch 16 to a direct current source 15 connected. When the switch 16 is closed and the discharge path 14 is conductive, a current flows from the direct current source 15 through the resistor i i, so that between points 12 and B a main discharge vessel 3 ignites Control voltage arises. The auxiliary discharge path 14 is with the help of a capacitor 17 controlled, with a positive bias source i 9 and a grid series resistor 18 between the control grid 2o and the cathode 2i of the Auxiliary discharge path lies. The capacitor 17 can have an adjustable resistor 23 and a changeover switch 24 are charged from a direct current source 22 and also via the resistor 23 can be discharged when the switch 24 is thrown. The capacitor 17 determines the duration of the electricity or generated in the electricity consumer 2 Voltage surges.

Before the consumer 2 is switched on by the mechanical switch 7, the two switches 16 and 24 are in the position shown. This means that the capacitor 17 is negatively charged from the current source 22 and that its voltage keeps the discharge vessel 14 blocked. The main discharge vessel 3 is also blocked because there is no voltage across the resistor ii and the grid 5 is therefore kept negative by the negative bias voltage source io. At the moment the power consumer 2 is switched on, the two switches 7 and 16 are simultaneously closed and the switch 24 thrown. The load 2 is connected to the direct current source i via the switch 7 and the current surge is initiated. The changeover switch 24 short-circuits the capacitor 17 via the resistor 23. As a result, the capacitor 17 gradually discharges, and the negative reverse voltage generated by it in the lattice circle of the discharge vessel 14 gradually decreases until the positive bias voltage of the power source 19 causes the discharge gap 14 to ignite. At this moment, current flows from the current source 15 via the previously closed switch 16 into the resistor i 1. Its voltage drop ignites the main discharge vessel 3 and thereby short-circuits the current consumer 2. The power surge for this consumer is now over. The initial state is restored by opening the two switches 7 and 16 and switching over the switch 24. The two discharge vessels 3 and 14 are thereby extinguished.

Instead of interrupting the DC circuits of the two discharge vessels by the two mechanical switches 7 and 16, these discharge paths can also by other means known per se, e.g. B. by power surges deleted «Ground, whereby simplifications of the arrangement may result from unification of switching and control circuits. In the drawing there is such a thing in itself known extinguishing agent for the discharge vessel 3 in the form of a capacitor 26 and a mechanical switch 25 is shown. When the switch 25 the discharge path 3 short-circuits via the capacitor 26, the arc of this discharge path becomes extinguished because the arc voltage is briefly reduced below the ignition limit.

Claims (3)

PATENT CLAIMS: i. Arrangement for generating current surges, in particular for electrical welding systems, by means of a timer device, which at the same time is switched on with the power consumer and one is the working current of the power consumer controls influencing gas or vapor discharge path, characterized in that that the timer means during the set period of time the parallel to Electricity consumers lying discharge path blocks and on it at the beginning of the Period of time through a mechanical switch switched on electricity consumer Ignition of the discharge path short-circuits and switches off. 2. Arrangement according to claim i, characterized in that the mechanical switch (7) to a direct current source (i) Gas or vapor discharge path connected parallel to consumer (2) (3) by changing potential on one lying in its grid circle Resistance (i i) is ignited, which is connected to a direct current source via an auxiliary discharge vessel (14) (15) is connected, namely after one in the grid circle of this auxiliary discharge path lying capacitor (17) across its resistor (z3) during an adjustable Time has been discharged. 3. Arrangement according to claim i, characterized in that that the discharge path (3) connected in parallel to the consumer (a) with additional Equipment for arc extinguishing is equipped by preferably in per se In a known manner, an auxiliary switch (a5) can be switched on for the discharge path Capacitor (z6) is connected in parallel.