DE805657C - Automatic overcurrent switch for alternating current, especially motor protection switch - Google Patents

Description

Automatic overcurrent switch for alternating current, in particular Motor protection switch The invention involves an automatic power switch for alternating current, in particular a motor protection switch, finitely dependent adjustable response range depending on the incense streaks required in each case.

There are already such LTberstromatisschalter known in which the permissible amperage in accordance with the rated current of the power consumption can be set in that parallel to that in the secondary circuit of a current transformer lying trigger element, z. 13. Metal strip, an adjustable resistor switched is changed, through its regulation the (read trigger element flowing through partial flow -, can verden. These parallel resistors must, however, with regard to their resistance in terms of magnitude correspond to (the resistance of the triggering organ therefore only have small olin values, such as o.o2 ohin. Changes in the transition resistance therefore cause very strong distortions in the two partial flows, so that these Adjustment possibility leads to great difficulties.

Overcurrent releases are also known where by change the air gap in the iron path of the current transformer within a certain regulation range the transformation ratio of the current transformer can be changed. With these regulating current transformers All (read) failure of replacement in the various air gaps does not remain constant, so that the release times differ despite the same percentage Overload tl * These disadvantages inherent in the known arrangements are caused by the arrangement according to the invention in surprising and. easier Wise avoided, and it is hereby created an overcurrent breaker at which adhered to the stipulated release times within the regulation area will.

This is achieved according to the invention in that on a common, self-contained iron core except for one in series with the consumer, e.g. B. an electric motor, the primary winding that feeds the overcurrent release second winding and at the same time another one via a variable resistor closed third winding are arranged.

The regulation does not therefore take place in the arrangement according to the invention by changing the air gap in the iron core, not even by changing a resistance directly in the circuit of the overcurrent release, but by changing one resistor connected to a third winding. Its setting scale is permitted an exact setting to the desired maximum consumer current intensity within of the regulation area. The particular advantage of this arrangement is that you can now has a completely free hand with regard to the choice of the resistor, so that regulating resistors of such an ohmic value can be used in which contact difficulties are not exist more, because as the resistance increases, the percentage becomes of the variable contact resistance is becoming smaller and smaller. In addition, he becomes the contact and the current flowing through the resistance becomes smaller and smaller. It is only necessary that To bring resistance and the number of turns of the third winding into agreement.

This resistance is expediently applied directly to the iron core attached to the arrangement according to the invention and forms a structural unit with this.

The arrangement can be made according to a further feature of the invention be that the contact of the switching relay, which is closed in the rest position, is in series with the consumer is arranged in such a way that when the permissible maximum current is exceeded Immediate power interruption in the consumer circuit via an alarm or the like. The renewed closure of the consumer circuit can in itself known way by hand, for. B. by means of a push button, or by means of itself known timing relays. 1) a this switching relay due to its small size is only able to do relatively small mechanical work, is this arrangement Can only be used for low mechanical and electrical switching capacities. The entire Dimensions of this .Openers can be kept very small and the entire arrangement including that of the above-mentioned three windings plus regulating resistor existing current transformer housed completely closed in a small housing so that the overall arrangement represents what is known as a small self-locking switch.

To cope with larger switching capacities, which are known to be larger mechanical forces are required, the above-mentioned switching relay is used as a pre-relay, its contact in one of a direct or alternating current through which rest. or holding circuit in series with the holding winding of a known circuit breaker is arranged, which the consumer current when exceeded the permissible i @ laximal amperage interrupts.

The arrangement can also be simplified in such a way that the supply the holding winding of the self-switch via the contact of the switching relay from a or from two phases of the AC network feeding the consumer. After the circuit breaker has tripped, the contact of the Pre-relay automatically or, as already mentioned above, in a manner known per se by hand, e.g. B. effected by means of a push button, or by means of a timing relay so that after the contact of the pre-relay closes again, the holding winding the circuit breaker is fully energized again. Closing the self-switch again then takes place by hand in a manner known per se.

In the case of multiphase electricity, e.g. B. with three-phase current, can now depending on the to managing switching capacity in each phase, the above-mentioned switching relay alone or one from the switching relay and an automatic switch common to all three phases existing arrangement can be provided, in the latter case for safety reasons the contacts of all pre-relays are connected in series. Every single pre-relay is assigned to one of the above-mentioned small current transformers with regulating resistor. This arrangement ensures that the consumer is switched off even if if the current exceeds the maximum permissible value in only one phase.

To explain the invention and its mode of operation are in Drawing shows some of the possible embodiments of the subject matter of the invention, and Fig. 1a is a circuit diagram of the arrangement according to the invention for small Switching capacities, Fig. 1b a circuit diagram of the arrangement according to the invention for large Switching capacities, Fig. 2 the basic mechanical structure of the invention Arrangement, Fig. 3 is a circuit diagram of the arrangement according to the invention for multi-phase alternating current, Fig. 4 shows the course of the secondary current as a function of the primary current in a Current transformer with air gap regulation, Fig. 5 shows the course of the secondary current in Dependence on the primary current in the arrangement according to the invention, Fig. 6 the change the switch-off times depending on the load in arrangements with air gap regulation, Fig. 7 the change in the switch-off times depending on the load at the arrangement according to the invention.

According to Fig. 1a, the consumer 9 is on the Switch contact 7 and dic I'i-iinary winding i of a small current transformer connected to the network 8. On the same z @ square consisting of individual U-shaped alloyed sheets In addition to winding i, windings 2 and 3 are also applied to the iron core. At the. Winding 2, the overcurrent release 6 is connected, its contact 7 in the idle state closed is. A small, variable resistor 5 is connected to the winding 3, whose resistance value can be chosen arbitrarily. Assume that the current strength in the consumer circuit and therefore also in the primary winding i is constant, so recognizes one that by changing the resistance 5 in the circuit `Vicklung 2 - Switching relay 6 flowing current is also approximately proportional to the change of the resistor 5 changes. The resistor 5 is now set so that at a in the consumer circuit network 8 - winding i - contact 7 - consumer 9 permissible amperage the current flowing through the winding of the switching relay 6 does not make it respond brings. If the permissible current strength is exceeded, the relay 6 responds and opens its contact 7, whereby the consumer 9 is switched off from the network 8. After eliminating the problem, the contact 7 z. B. by hand by means of a push button or the like. To be closed again. Instead of the electromagnetic shown in the drawing Overcurrent release 6, a bi-rivet strip can also be used. Also can arbitrary triggers are used - are.

The arrangement according to Fig. 1 1) corresponds essentially to the arrangement according to Fig. I °. Here, the consumer circuit is not immediately interrupted by the contact 7 'of the relay 6', but a circuit consisting of your contact 7 'and the winding io of a circuit breaker is opened as soon as the relay 6' responds due to overloading of the consumer circuit. Instead of the opening contact 7 ', a closing contact can also be used, the zero-voltage coil io being replaced by an operating current coil.

As a result of the opening of the contact 7 ', the holding winding io des Self-switch de-energized, so that the switching contact i i 'of the self-switch under the action of a spring force is opened and the consumer circuit in front of the mains is switched off will. The holding winding to of the circuit breaker is supplied via the closed Contact 7 'from a direct or alternating current of any kind. Appropriately this local circuit can be fed directly from the network 8.

In Fig. 2 is the structural design of the arrangement according to the invention shown. The shown small stream \ i-aridler consists of the layers stacked on top of each other L-shaped metal sheets formed iron core 4 with the in a common bobbin housed windings t, 2 and 3. Z @ square way @ forms the primary winding i, through which the consumer current flows, the outer winding. while the coil 2, which is used to feed the switching relay 6, and the one with the regulating resistor 5 connected winding 3 lie directly above the iron core 4, namely next to each other. The regulating resistor 5 is directly on the iron core by means of a small one Console attached and covered by a perforated mudguard or the like.

In Fig. 3 a simplified circuit diagram of the arrangement according to the invention for three-phase three-phase current is shown, in which each individual phase of the three-phase network 8 is secured against overloading in the consumer circuit. As can be seen from the drawing, an arrangement according to the invention is provided in each of the three phases, which are individually adjusted to the permissible current strength in the consumer circuit. The switching or. Pre-relays 6, 6a, 6b correspondingly assigned contacts 7, 7a, 7b are connected in series, so that when only one of these contacts 7, 7a or 7b is opened, the holding winding io of the automatic switch switched on in the three phases is de-energized and by simultaneous opening of the contacts ii , ii °, l ib the power supply to the consumer 9 interrupts. The reconnection of the consumer after the malfunction has been eliminated takes place in the manner already explained above.

As practical experience has shown, the control range corresponds the arrangement according to the invention the control range of the known arrangements with air gap regulation. This control range is approximately i: 2, i.e. H. is the arrangement according to the invention z. B. usable for a range from io to 2o amps etc. within the respective The inventive arrangement can range both for the lower and for the upper limit value is set with constant response reliability and response time will. However, it is the known arrangements with parallel resistance to the release because of the contact difficulties and the arrangements with regulation of the air gap Far superior in current transformers, as the following explanations show.

It is well known that the ratio of primary current: secondary current in current transformers with air gap regulation is not constant over the entire control range, as can be seen from Fig. 4. Here the upper curve 12 shows the course of the function Isek - f (4r) with the smallest air gap, while the curve 13 shows the course of this function with the largest air gap of the transducer. In comparison with this, in the arrangement according to the invention these two limit values of the control range corresponding curves 14 and 15 practically coincide, that is to say that in the arrangement according to the invention the ratio: primary current: secondary current is almost constant over the entire control range.

This is also the reason that in the known arrangements with Air gap regulation the switch-off times in the upper limit of the switch-off times are significantly different from each other in the lower limit of the regulation range, as can be readily seen from Fig. 6. at an overload with 6 times the normal consumption results in the known arrangements in one limit value of the control range a normal, the regulations of the VDI corresponding switch-off time of 5 seconds (cf. curve 16) while taking the same Requirements for the other limit value of the control range are a switch-off time of 3.25 seconds (see curve 17). In contrast, in the arrangement according to the invention result for both the upper and the lower limit value of the control range the same switch-off times. Like the corresponding curves 18 and i9 in Fig. 7 can be seen, the difference in the switch-off times is in the event of a 6-fold overload only 5.0-4.92 = 0.08 seconds; while the corresponding difference in switch-off times in the known arrangements working with air gap regulation 5, o-3.25 = 1.75 Seconds.

The arrangement according to the invention is therefore the known one with air gap regulation Far superior to working arrangements, as they allow exact adjustment within the> of the entire regulation area.

Claims (5)

PATENT CLAIMS: i. Automatic overcurrent switch for alternating current, in particular motor protection switch, with a response range that can be set as a function of the respective consumer current required, characterized in that a primary winding (i) lying in series with the consumer (9) is provided on a common, self-contained iron core (4) the overcurrent release (6) feeding the second winding (2) and a further, via a variable resistor (5) closed third winding (3) are arranged. 2. Arrangement according to claim i, characterized in that the changeable, connected to the third winding Resistance directly on the iron core containing the three windings (1, 2, 3) (4) is attached and forms a structural unit with this. 3. Arrangement according to Claims -i and 2, characterized in that a closed in the rest position Contact (7) of the overcurrent release (6) in line with the consumer (9) in this way it is arranged that if the permissible current intensity is exceeded in the consumer circuit it causes an immediate interruption of the consumer circuit. 4th Arrangement according to claim i and 2, characterized in that switching off the Consumer circuit especially for large switching capacities through the contact (7 ') of the overcurrent release (6') takes place via an overcurrent switch (i i '). 5. Arrangement according to claim 1, 2 and 4, characterized in that the feed the trip coil (io) of the overcurrent switch (ii ') via the contact (7') of the Overcurrent release (6 ') takes place from the zii protective network.