DE1904469B2 - CIRCUIT ARRANGEMENT TO PROTECT AN ELECTRIC MULTIPLE MEASURING DEVICE AGAINST OVERLOAD - Google Patents

Description

The invention relates to a circuit arrangement for protecting an electrical multimeter against overload with an overload protection relay with at least two separate Release windings.

The invention is particularly suitable for universal measuring instruments, in which separate current and voltage terminals are available, so that the measuring mechanism via a switch from the one Measurement condition (e.g. current measurement) switched to the other measurement condition (voltage measurement) must become.

A protective circuit for electrical measuring instruments is already from the German patent specification 854 824 became known, in which a relay fed by a full-wave rectifier is provided, which switches off the measuring instrument when dangerous currents and voltages occur, so that this cannot be damaged. In this circuit, the circuit is with the overload protection relay arranged parallel to the measuring circuit, so that a certain part of the measuring current does not flow over the measuring mechanism.

Another protective circuit with an overload protection relay arranged in parallel to the measuring mechanism is from the German Auslegeschrift 1 147 312 known. The measuring device described here has several Measuring ranges and has the task of adapting or changing the respective relay circuit adapt the response sensitivity of the relay to the selected measuring range. These are in the circuit contained the relay winding further resistors are provided, which are simultaneously with can be switched with the measuring range switch.

Furthermore, from the French patent specification 1 527 550 an overload protection device for electrical multimeters with a protective relay that interrupts the measuring circuit in the event of overload became known in which the protective relay has two windings. One winding of the protective relay is implemented with low resistance and switched directly into the Mei3stromkreis, while the other

The present invention relates to a circuit arrangement for protecting an electrical multimeter against overload and has the task.

to avoid overloading with such a device even if the selector switch of the measuring device is on, so that a protective relay arranged in the measuring circuit does not respond can, but the secondary resistance chain is overloaded will. The invention solves the problem that in a measuring device with separate current and Voltage connections for direct and alternating current or voltage that have a release winding in the Measuring mechanism circuit and the other in connection with a bridge rectifier parallel to the shunt resistors is arranged for current measurement.

This means that extensive protection is provided for the device in any case, even if, for example due to improper handling or errors, an overload occurs. The overload protection relay can be set in action by both triggering coils and the entire measuring device is removed Disconnect input terminals, even if the selector switch is set to the wrong measurement type.

In a further development of the invention, the knee voltage of the bridge rectifier is dimensioned so that when measuring with nominal currents, no current can flow through the winding of the protective relay. That has the advantage that no temperature compensation of the protective relay circuit needs to be made, in particular, the so-called thermal transient processes, for example when heated, are also eliminated the device from the outside, for example by direct sunlight.

In the following, the structure and mode of operation of an exemplary embodiment of the Invention explained in more detail.

In the schematic basic circuit diagram, 1 denotes a measuring mechanism which, via the changeover switch 2 either in series with the series resistors 3 for voltage measurement or in parallel with the shunt resistors 4 can be switched during current measurement. In the measuring circuit, in series with the measuring instrument 1, the release winding 8a of a relay is arranged, the relay winding being dimensioned in this way is that the relay responds in the event of an overload, which affects the components of the device and in particular the measuring mechanism has grown. The relay then disconnects, for example, the entire measuring circuit via its relay contacts 5 to 7 from the input terminals.

A bridge rectifier 9 is connected in parallel to the shunt resistors 4 for current measurement

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Sf-hiit? for η « η " ⁶ ~ "" ^ucl » ^{su ua} » also protection for the device is given if the selector switch is, for example, on voltage so that no current flows through the first release winding 8 a, which is in line with the measuring mechanism can push button f ^^ ^stan dskette ^g (shunt chain) üE tests _W rd, for example, if a measurement connection with excessively high currents has already been made between terminals + and I

Also in this case, in which only the secondary chain is overloaded, the ReVa! s then switches the device off due to its winding 8 6 the incoming measuring circuits

The loosening tension of the bridge gusset used is dimensioned in such a way that when measuring with nominal currents, no current duüh dk Winding of the protective relay flows because the rectifier diodes are still practically working in the restricted area. There is then no need for temperature compensation of the protective relay circuit with the measurement Rated currents are made, which also takes into account thermal transient processes, which can occur when the device is heated from the outside, for example, is not applicable.

The rectifiers 9 for the second trigger winding of the protective relay parallel to the shunt chain still have a second task. Because both trigger windings of the relay are applied to a common iron core could be a

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which has a negative result. The rectification can result in a formation of the alternating current but not done.

1 sheet of drawings

Claims (2)

Patent claims: 1. Circuit arrangement for protecting an electrical multimeter against overload with an overload protection relay with at least two separate trigger windings, characterized in that in a measuring device with separate current and voltage connections for direct and alternating current or -voltage one trigger winding in the measuring mechanism circuit and the other in connection with a bridge rectifier arranged in parallel to the shunt resistors for current measurement is. 2. Schaltunesannrriniino · nar-h intjira ^ t ^ « characterized in that the knee tension of the bridge equals! κ hters is so dimensioned that at Measurement with nominal currents no current flows through the winding of the protective relay. Winding is switched on via a pointer end contact in an auxiliary circuit. The low resistance Relay winding served the purpose of preventing damage to the measuring mechanism pointer if at Sudden high overload currents of the pointer knock against the end contact with great force would. In this case it causes the measuring device to be switched off immediately via the relay contact. The second relay winding will be at minor ίο Exceeding the respective measuring range end value excited by actuating the pointer end contact. The protective device described in this patent specification however, it is not suitable for electrical measuring devices with separate current and voltage Conclusions, since they do not protect their electricity