DE410555C - Selective timing relay - Google Patents

Description

Selective timing relay. For the S, elective effect in electrical; networks is: it is desirable to have relays whose delay time is proportional to the Distance from the point of the fault, i.e. proportional to the impedance of the line from Error points up to the relevant switch and ultimately proportional the quotient of the voltage by the current strength.

In the previously known apparatus there is a certain amount of this Difficulty in that the phase shift is included in the value of the time delay, d. H. time is not just about voltage and current. but also from the phase shift becomes dependent.

According to the present invention, such a distance relay is now. thereby made independent of the phase shift. that two measuring systems are assembled in such a way that the time achieved until the contact is actuated is proportional to the quotient of their torques and that one measuring system below the power factor cos @p, the other measuring system the quotient of voltage and current Consideration of the power factor One embodiment would be that z. For example, two measuring systems, known per se, can be used, one of which is proportional to a torque possesses and moves with a constant damping, so that the speed is proportional to the same value, while. send the other system has a deflection proportional to cos (p. The former moves forward from the occurrence of the error and is called the running system, the latter, the stationary one, immediately adopts a certain position. If the running system encounters the The time until then is the quotient of the ZVeg, ie the deflection of the adjusting system, by the speed of the running system.

A quotient meter is known per se as a standing system Use type, e.g. B. a cross iron system whose deflection is proportional to the value cos cp is. Instead of the pointer, there is an Archimedean cam disk Spiral, so that equal angles of rotation correspond to equal magnifications of the radius.

The second running system can be generated by using a quotient system known per se without a leveling force, e.g. B. a cross-coil or cross-iron instrument, used and one winding of the.: Voltage, the other can be excited by the current. Since the magnetic fields are concatenated here, the phase shift is also included in the measurement result, and the torque obtained is, as stated above, proportional: Another solution for adjusting the same value or the same torque and the same speed results from using: a wattmeter without retraction force or, in other words, a counter system whose disk is braked by a magnet excited by the tension. One can also use a tension field of a counter system itself for the braking.

Is the driving torque of such a counter system proportiona '. and the braking effect is proportional E2, the result is a speed proportional The use of an instrument that reacts to phase shift allows different measurement of the sensitivity for inductive and capacitive load. In the case of inductive loading, which is mainly used in the event of a short circuit, i.e. with a very high current intensity, the device can be roughly adjusted, i.e. the quotient instrument is given a relatively small deflection in this area by measuring the slope of the disk serving as a stop with Archimedes' spiral makes small.

In the capacitive part, the system works mainly in the event of an earth fault, where, under certain circumstances, switching off at relatively low currents is desired and therefore a much greater sensitivity is desirable. You can do that through it realize that you get the part of the stop disc that is under capacitive load get in the way; of the current negative system and the 'again about as Archimedean spiral will be formed, gives a considerably larger pitch, so that this increases the sensitivity.

This different effect can be supplemented by the fact that the Phase shift meter is equipped with contacts through which the sensitivity of the running system, which is used as a quotient separator or wattmeter with voltage damping is equipped, reinforced in the capacitive area, weakened in the inductive area will. The phase shift instrument can be used as a display instrument at the same time be used whose deflection after the inductive. or capacitive side immediately shows whether the fault is a short circuit or a ground fault.

Claims (5)

PATENT CLAIMS: i. Selective timing relay, the timing of which depends on the distance between the relay and the point of failure, characterized in that a measuring system (the stationary system) that adjusts itself after the phase shift and one which operates at a speed proportional to the value moving measuring system (the running system) are assembled in such a way that the tripping time is equal to the quotient of the power factor by the named speed. 2. Selective timing relay according to claim i, characterized in that purely of Moving part of the running system when it hits one of the stationary systems controlled disc causes the contact. 3. Selective timing relay according to claims i and 2, characterized in that! as a running system a wattmeter with damping is used by a magnet excited by the voltage. q .. Selective timing relay according to claims i and 2, characterized in that the running system is a quotient meter known type is used whose fields are excited by the current or voltage. 5. Selective timing relay according to claims i and 2, characterized in that d, ate the standing phase shift system automatically increases the sensitivity in the capacitive Increased area, decreased in the inductive area, through appropriately shaped Control discs on their own system and through auxiliary switching, the excitation of the current Systems.