DE1169016B - Under abnormal operating conditions the current in a load circuit interrupting fuse circuit - Google Patents

Description

Under abnormal operating conditions, the current in a load circuit Interrupting Fuse Circuit The invention relates to a sub abnormal Operating conditions the current in a load circuit interrupting fuse circuit. This fuse circuit is generally applicable in those cases in which as a result of malfunctions in the apparatus, danger to the operating personnel or to the apparatus itself is to be feared. In this context, lifting systems, Elevator systems, in short, systems are thought that are controlled automatically, but where human operation is not completely unnecessary. The inventive Safety circuit is of particular importance when used in resistance welding machines, in which the supply of compressed air for the movement of the electrodes by automatic Control of the air valves is regulated. Should be due to some malfunction this air supply and therefore the movement of the electrodes after the workpiece take place, while someone is busy removing or adjusting the workpiece this can have serious consequences for the person concerned and / or the workpiece to have.

Differential protection circuits are known in which two Points that are different to the protégé in a comparison circle with each other can be compared and if the signals are unequal at the selected two positions signals are triggered. Here, however, the current in the load circuit controlled by a signal from a timer, it becomes the potential compare this signal with the potential at a point behind the circuit, and there is no switching element through which the load circuit is dependent interrupted by abnormal operating conditions.

A safety circuit is also known in which the current is interrupted in the load circuit under abnormal operating conditions and the current through a circuit by a signal from a timer is controlled. However, the combination of gates used here leaves only a limited one Possibility for an interfering signal to arise, and only with very specific ones Switching states a switch-off command is given. An improvement in that regard Making such fuse circuits is the object of the invention.

In a security circuit of the type mentioned, in which the current through a circuit by a signal from a timer is controlled, the specialty of the solution according to the invention is that the potential of this signal with the potential at one behind the circuit Point is compared in a comparison circle and that one in this comparison circle if these two potentials do not match, the resulting interference signal is a separate one Switching element controls, whereby the load circuit in abnormal operation of the Circuit is interrupted, the circuit having one or more transistors contains, the control signal is fed to the input of the circuit while a voltage divider is provided at the output of the circuit, and that the tap this voltage divider with one of the inputs of an OR gate and a point of Control signal line with the other input of this serving as a comparison circuit Or gate is connected, the output of which with a separate switching element containing Circle is connected.

The difficulties become greater when the same timer signal is two or should control several independent air valves separately, as is the case, if at different points on the workpiece or alternately on several workpieces is welded; In this case, two air valves must never be operated at the same time. If, however, the same timer signal as a function of a separate selection signal controls one of two independent load circuits, these difficulties can also be eliminated by using each of the output voltages of the various circuits corresponding output signals to both an AND gate as well as a second OR gate become, the output of the second OR gate and the control signal to the two inputs of a second AND gate and the outputs of the two AND gates to the inputs of the first mentioned Or gates are fed.

In all of these cases it is also possible that the circuit is off consists of several transistors connected in cascade, the last of which is above added a rectifier circuit in a low voltage AC circuit that is fed from the grid via the secondary windings of a transformer and the load circuit via the primary windings of a load transformer or feeds the load circuits.

Another feature of the invention is that by the Fuse, the welding circuit is also interrupted.

The invention is based on the embodiments shown in the drawings explained in more detail. In Fig. 1 shows a simple fuse circuit, provided in the event that only one air valve needs to be controlled; in Fig. 2, a fuse circuit is shown in which two air valves of the same Timer signal can be controlled.

In Fig. 1, the air valve K, a resistance welding machine, is operated via the terminals Bu, and Bu, from the secondary winding of a transformer T, when the switching contact Re, / 1 of the relay Re, is closed. The primary winding S, from T, is fed from the secondary winding SZ of the transformer T3 via the switching transistor Tr and the rectifiers Gr and Gr. The primary winding S, from T3 is connected to the terminals Bu. and bus connected to the AC network. There is a pulsating passage of current through the primary winding S i from T i when the transistor Tr i is made conductive. Tr, becomes conductive in that a] signal (= - 6V) is fed to the base electrode of Tr, via Bug, whereby Tr, is made conductive. As a result, the voltage at the base electrode of Tr, drops, so that Tr, also becomes conductive, the base voltage of Tr, drops and Tr, becomes live. This causes the voltage between the collector electrode and the emitter electrode of Tr to decrease, and the voltage of the point F becomes zero. The voltages at points D and F are fed to the OR gate Prt, whereby, if one of these voltages is -6 V, Tr, and therefore also Tr, is made conductive, so that Re, after switching on via Dr, about Re, / III holds itself. Tr, is therefore always conductive, since in the normal operating state: a) During a rest period Tr, is blocked, ie the voltage of F by a suitable choice of R "and R, 3 is -6 V and the voltage of D is zero and therefore Tr, is conductive, b) during an operating period Tr, is open, i.e. VF = 0 V and VD = -6 V, i.e. Tr, is also conductive.

Should a fault, e.g. B. if Tr ,, Tr. Or TrS, Tr, be conductive while no control voltage is fed to Bug , then both VF and VD are equal to 0 V, so that Prt, is blocked, Tr, is no longer conductive , also Tr "not, so that Re, drops and the air valve circuit is interrupted by Re, / 1, as well as the control circuit of the welding current by Re, / IV. In FIG actuated by a current through the terminals Bu, and Bu, or Bu, and Bu4 from the secondary winding of the transformer T or TZ when the switching contact Re, jl or Re, / II of the relay Re, is closed S, from T, is fed from the secondary winding SZ of the transformer T3 via the switching transistor Tr, and the rectifiers Gr, and Gr., And the primary winding S, from T2 is also fed from the secondary winding of the transformer T3 via the switching transistor Tr2 and the Rectifiers Gr, and Gr, fed ng S, from Tr, is connected to the network via the bus and bus terminals.

If Tr, is conductive, there is a pulsating passage of current through it the primary winding S, from T, and when Tr, is conductive, through the primary winding S, from T2.

The air valve K, must not be actuated when the air valve KZ is operated and vice versa.

Tr, becomes conductive in that a] signal (_ -6 V) is fed to an AND gate Prt via Bug and Bu at the same time, so that the voltage at point D is equal to -6 V. This makes Tr, conductive, the voltage of the base electrode of Tr, drops, Tr, also becomes conductive, and the base electrode voltage of Tr, drops, whereby Tr, becomes conductive. When Tr becomes conductive, the voltage at point F becomes zero.

Tr, becomes conductive by the fact that a] signal is fed to the AND gate Prt, via the bow and the bus , whereby the voltage at point E is equal to -6 V. This makes Tr, conductive, the voltage of the base electrode of Tr, drops, Tr, also becomes conductive, whereby the base voltage of Tr, drops and Tr, becomes conductive. When Tr2 becomes conductive, the voltage at point G becomes zero.

One can now distinguish between six different cases a) There is neither a timer signal at Bug , nor a selection signal at Bu or Bus, that is, no] signals are fed to Prt or Prt, i.e. the voltages VD or VE are equal to zero, so that Tr or Tr is not conductive. VF and VG are equal to -6 V and are applied to the AND gate Prt, whereby the potential of the point H becomes -6 V. Characterized in that the two voltages VF and VG also the OR gate are fed Prt, the potential of the point K is also equal to -6 V. This voltage VK is applied to the base electrode of said emitter amplifier transistor Tr7, which also has the potential of the point M becomes equal to -6 V. This voltage is compared by the AND gate Prts with the potential of Bug , which is equal to zero, so the potential of the point L is also equal to zero. By supplying this potential to the OR gate Prts at the same time as the potential of the point H (-6 V), the potential of the point P, i.e. the base electrode of Trs, becomes equal to -6 V, whereby Tr, becomes conductive and as a result Tr, also conductive so that the contacts of Re, remain closed, since Re, holds itself through Re, / I11.

b) A timer signal is present, but no dialing signal, or vice versa. In this case the potential of D or E, as in case a), is equal to zero, i.e. VF = VG = -6 V, i.e. GH = -6 V and VK = Vnr = -6 V. Prt is an and Gate, i.e. VL = 0 V or -6 V, depending on Vv> i.e. VP = -6 V, so that the situation again corresponds to that in case a).

c) There is a timer signal and a dial signal. Depending on whether the selection signal is applied to Bu, or Bu $, VD or VE becomes equal to -6 V, whereby Tr, or Tr2 becomes conductive and VF or VG becomes zero. Since the voltages VF and VG are not equal, GH is therefore equal to zero. VK = Vvr, on the other hand, is -6 V. VN is also -6 V, so VL = -6 V. Now VP is equal to -6 V, and just as in the previous cases, Re, remains excited.

d) There is a timer signal and a selection signal at Bu, and as a result of a fault, Tr2 is also conductive. Then VF = VG = 0 V, GH = OV, VK = Vvr = OV, i.e. VL = OV and VP = 0 V. Tr, is not conductive and therefore Tr9 is not either. Ren thereby drops out and interrupts the control circuit of the air valves by means of its contacts Re, / I and Re, / II and at the same time the welding current control circuit by means of Re, / IV. It is evident that the same applies in the event that the selection signal is supplied to Bu $ and is conductive as a result of a disturbance Tr.

e) There is neither a timer signal nor a selection signal and VF or VG = 0 V due to a fault in the circuit of Tr or Tr2. Then VH is equal to 0 V, VK = Vm = -6 V and since VIV = 0 V, VL = OV, i.e. VP = 0 V, whereby Re, also drops.

f) There is neither a timer signal nor a selection signal and GF and VG are equal to zero as a result of a fault in the two circuits of Tr and Tr2. Then GF = VG = 0 V, so VH = 0 V, VK = VM = OV, VN = OV, so also VL = 0 V and VP = 0 V, whereby Ren also drops with the consequences already described.

Claims (4)

Claims: 1. Under abnormal operating conditions, the current Interrupting fuse circuit in a load circuit, in particular for use in resistance welding machines, where the current is passed through a circuit through a signal originating from a timer is controlled, d a - characterized by, that the potential of this signal with the potential at one behind the circuit lying point is compared in a comparison circle and that one in this comparison circle if these two potentials do not match, the resulting interference signal is a separate one Switching element controls, whereby the load circuit in abnormal operation of the Circuit is interrupted, the circuit having one or more transistors contains, the control signal is fed to the input of the circuit while a voltage divider is provided at the output of the circuit, and that the tap this voltage divider with one of the inputs of an OR gate and a point of Control signal line with the other input of this serving as a comparison circuit Or gate is connected, the output of which with a separate switching element containing Circle is connected. 2. Security circuit according to claim 1, wherein the same timing signal depending on a separate selection signal, one of two independent load circuits controls, characterized in that each of the output voltages of the different In circuits, output signals correspond to both an AND gate and a second OR gate, the output of the second OR gate and the control signal the two inputs of a second AND gate and the outputs of the both AND gates are fed to the inputs of the first-mentioned OR gate. 3. Fuse circuit according to one of the preceding claims, characterized in that that the circuit consists of several transistors connected in cascade, from those the last via a rectifier circuit in a low voltage AC circuit is included, which is fed from the network via a first transformer and feeds the load circuit via a load transformer. 4. Fuse circuit according to one of the preceding claims, for use in a resistance welding machine, characterized in that the welding circuit is also interrupted by the separate switching element. Documents considered: German Patent No. 722 195; German interpretative document No. 1088 608.