DE761010C - Protection circuit for electrical resistance welding machines of high performance - Google Patents

Description

Protective circuit for large electrical resistance welding machines Power Electrical consumers are connected to the feeding network for comfort placed or separated from it by simple switches or by magnetic operated contactors. If the power consumption of such a consumer exceeds one certain maximum value, the connection or disconnection of the consumer can be done by contactors or switches are no longer working properly. Switch or magnetically operated Contactors must not be used above the maximum current strength permitted for them. However, if contactors etc. are connected in parallel, there is no guarantee of uniform distribution given by the river. One has therefore with the specified consumers with special Large power consumption so far helped that you split the consumer into several smaller ones Has divided individual consumers, these individual consumers again by Schalur or contactors can be switched off.

But it can still happen that it becomes necessary for all of them Only switch consumers on or off together. Then it becomes necessary to magnetically operated contactors or switches in the circuits the To couple individual consumers either mechanically or electrically. Such a Case is z. B. before when the individual consumer through a transformer are shown with subdivided primary winding. 'With particular advantage being such a transformer with a subdivided primary winding in resistance welding machines high performance, especially flash butt welding machines.

A transformer whose primary winding consists of several individual windings exists, despite mechanical or electrical coupling, the contactor is the individual circuits nevertheless endangered. Despite simultaneous on or off switch can namely for example in any lead to one of the primary windings an undesired interruption occur through which not all winding parts the primary winding are switched on at the same time. Occurs such an undesirable However, if there is an interruption, the switched-on transformer parts are overloaded, because the switched-on winding parts now take up the entire required current.

A protection circuit for generators has become known in which the individual generators are always in the same operating state and on the same busbars work. In the known protective circuit there are protective relays arranged so that they respond if equalizing currents between the generators flow via the connecting lines between the generators and the busbars. -Of the The invention is based on the object of a protective circuit for electrical resistors to create standing welding machines using protective relays known per se, through that of the one used in welding machines, with a subdivided primary winding provided transformer is protected against overload.

According to the invention, this is achieved in that the primary winding of the welding transformer into several. individual, parallel to the feeding network lying winding parts "is divided and with each winding part the primary winding of a current transformer is in series, while the secondary windings of the transformer are together with the excitation coil of a monitoring relay are in such a way in Brückenschalteng. that with proper distribution of the load on the individual winding parts Relay coil de-energized, but if it deviates from the set load sharing is excited. The monitoring relay advantageously triggers in the event of excitation a signaling device. It is still beneficial to use the monitoring relay to equip with I normally closed contacts that are in the circuit of excitation coils of the. the winding parts contactors that switch on and off. Further advantageous details of the invention are described below.

In the drawing, the subject of # .rnii (lung, for example illustrates, namely the figure shows the invention - ;, MASSIVE protection circuit a welding transformer with a subdivided primary winding.

The transformer 1 is with the winding parts 2 and 3 'as the primary winding and equipped with the secondary winding .I. The secondary winding 4. feeds the Consumer 3, of any kind, for example a resistance near-burn line, #, machine @@ in harn.

. The winding part 2 of the primary winding "d rch the contactor 6, the Wickllingsteil 3 by -'r the 'u contactor 7 is separated from the feeding letz 8 or applied to the same, the contactor 6 is provided with normally open contacts 15, the contactor 7 with Arbeitslkontal: tn 16. A current transformer 9 is located in the circuit of winding j, a current transformer I ir) in the circuit of winding 3. The secondary windings of current transformers 9 and io form a break circuit according to the invention with relay ii 12, which are connected in series with the holding contacts 13 and 16 of the contactors Cl and 7. This series connection of the contacts is bridged by the push-button switch 13, so that the excitation coils of the contactors 6 and 7 are connected in parallel to the network 8 when the switch is actuated lie.

The mode of operation of the switching arrangement according to the invention is as follows: The transformer i is switched on in the present example with the Hand by briefly operating the pushbutton switch 13. This causes the Circuits of windings -2 and 3 closed. The transformer i is connected to the feeding 'Zetz B. In such a case' - earth now according to the invention when properly Operation, d. 1i. even distribution of the load in the secondary windings of the Converter 9 and io induces voltages that are only used in your outer bridge circuit Impact come. During normal operation, the relay i i remains energized and consequently the contacts 12 are bridged. Since by switching on the contactors 6 and 7 as a result of push-button operation, contacts 13 and 16 are also bridged, the coils of the contactors 6 and 7 remain energized, and these keep the contactors in the Switch-on position.

Now occurs for an unforeseen reason at 1-. If a line interruption occurs, Mcklungteil 2 of the transformer i switched off, and part 3 is at risk due to the increase in power consumption. At the same moment, however, the bridge circuit according to the invention is also in equilibrium disturbed. The relay ii is energized and opens the contacts 12. By opening the contacts r2 but also the coils of the contactors 6 and 7 are de-energized and consequently the windings 2 and 3 are separated from the network 8 by opening the contactors.

Claims (3)

PATENT CLAIMS: i. Protection circuit for electrical resistance welding machines great performance, especially flash butt welding machines, using per se known. Protective relay, characterized in that the primary winding of the welding transformer divided into several individual winding parts lying parallel to the supply network is and with each winding part the primary winding of a current transformer in series lies, while the secondary windings of the transducer together with the excitation coil of a monitoring relay are in a bridge circuit in such a way that when properly Distribution of the load on the individual winding parts de-energizes the relay coil Deviation from the set nuisance distribution, however, is excited. 2. Circuit according to claim i, characterized in that the monitoring relay in the case of Excitation triggers a signaling device. 3. Circuit according to claims i and 2, characterized in that the monitoring relay is equipped with normally closed contacts is that in the circuit of the excitation coils which turn the winding axes on and off Sagittarius lie. To differentiate the subject matter of the invention from the state of the art the following publication has been considered in the granting procedure: German U.S. Patent No. 635,974.