DE2653574A1 - RELEASE DEVICE - Google Patents

Abstract

The tripping apparatus is particularly suitable for a railway installation. It has an integrator (17) which is connected downstream of the converter (10) in a first channel (14) and integrates the secondary-voltage pulses of the converter over a predetermined time, and has a comparator (18) in the same channel, which comparator compares the integrator output voltage with an adjustable reference voltage and, if the latter is exceeded, emits a trip command for a trip device. In order to achieve unambiguous and reliable differentiation between the short-circuit currents which are to be switched off and the operating currents which are not to be switched off, at least one further (15, 16) identically constructed channel, whose tripping limit can in each case be adjusted to a different value, is connected in parallel with the first channel (14) with its integrator and comparator. <IMAGE>

Description

Tripping device

The invention relates to a nut release device with a di / dt converter for the detection of short-circuit currents in a direct current system, e.g. in a railway system, with an integrator connected downstream of the converter in a first channel, which integrates the Secondary voltage pulses of the converter integrated during a specified time, and with a comparator that controls the integrator output voltage with an adjustable Compares reference voltage and, if exceeded, a trip command for a trigger releases (according to patent application P 23 38 918.6). This known The trigger device also contains an input amplifier and an output amplifier. At the output of the comparator or the output amplifier occurs during operation an output for an electromagnetic trigger when the integrator output voltage is greater than the set reference voltage. The well-known trigger device has In addition, a further comparator as a time-independent part element, which corresponds to the first channel is connected in parallel with the integrator and the comparator. This time-independent fetus is used to deal with the high short-circuit currents that are close at hand with a high current gradient, regardless of an integration time. These currents are already switched off by the first channel, but they are with a delay corresponding to the integration time. This integration time is with the very high and very steep short-circuit currents that are close at hand very short in itself, but still considered to be too long. Therefore you can for such short-circuit currents additionally take the direct route via the time-independent Select release.

A tripping device of the type mentioned is intended to serve to control short-circuit currents clearly distinguishable from the operating currents and in the presence of a short-circuit current switch off the system.

It has been shown in practice that in a railway system also distant Short-circuit currents with a relatively low current level and with a relatively low one Granular current steepnesses occur which are difficult to detect. To this too To be able to reliably detect currents, the reference voltage of the comparator should accordingly small, i.e. sensitive. However, this could be the case in some cases already to an unconditional release with operating currents with a higher Current control, e.g. for starting currents. It has also proven itself in practice shown that when so-called auxiliary companies are connected to a warning system (e.g. light or heating systems) current changes can occur whose steepness is in the range of the nearby short-circuit currents. These operating currents could thus also be used in one If the reference voltage is set to a relatively low level, this already leads to undesired tripping the system.

The invention is therefore based on the object of the known triggering device to be improved in such a way that an unambiguous and reliable one for all cases that occur Distinction between the short-circuit currents to be switched off and the currents not to be switched off Operating currents is possible. In the case of a trigger device, this task is the at the beginning said type solved according to the invention in that the first channel with his Integrator and comparator at least one further, identically structured channel is connected in parallel, the sensitivity of which can be set to a different value is. This makes it possible to select precisely the channel depending on the operating cases that occur to choose a clear distinction between a short circuit current and allows an operating current. A further distinction can be made between the short-circuit currents are between the remote short-circuit currents with a relatively low current level and the remote short-circuit currents with a high current slope and a high Current level.

For example, two channels can be provided, with the first channel only those currents lead to tripping whose current steepness is in the range of the current steepness of distant short-circuit currents and the magnitude of which exceeds a set value, while in the second channel only the currents lead to tripping, their current steepness is in the area of the near short-circuit currents and their current level is above the level of a set value.

The trigger device according to the invention is designed such that the selection of a certain channel automatically by the at the channel inputs pending signal takes place, with a switchover from one channel to another Channel points at certain changeover switches takes place, which is determined by the size of the current rise of the converter input signal can be determined. The switchover itself is preferably done at least via an electronic switch, e.g. in front of the integrator of a channel can be arranged, and with which the previously working channel is blocked will. According to a further feature of the invention, those of the current rise of the Converter input signal-dependent switchover points of the individual channels are selected in such a way that that this *) current steepness una Channels with increasing current steepness of the converter input signal come into operation.

The sensitivity of a channel is preferably determined by the Influencing variables of the integration time, the reference voltage of the comparator and the Determines the input sensitivity of the integrator. According to another feature of the The invention can be used to set the integration time of the integrators Timing element can be influenced by a control variable in such a way that deletion of the integrated signal already occurs when the current rise di / dt of the 5fandler input signal becomes zero.

This device is mainly used to remotely control short-circuit currents to be able to grasp better. Since with such short-circuit currents the current gradient and current level can be relatively low, can be integrated over a longer period of time, to get an evaluable signal. However, since an integration via a two starting current jumps could be integrated in an undesired manner for a longer period of time, this would result in an incorrect reading. To avoid this, a deletion should already take place when the current change of the first starting current jump becomes zero.

In the drawing, an exemplary embodiment is shown in FIGS. 1-2 of the object according to the invention shown schematically.

Fig. 1 shows a block diagram of a trip device. Fig. 2 shows a diagram with the different channels.

According to FIG. 1, the tripping device is connected to a di / dt converter 10 with a Load 11 connected. The trigger device includes an input amplifier 12 and an output amplifier 13 and has three channels 14, 15, 16. Each channel has an integrator 17 and a comparator 18 to which the respective reference voltage can be adjusted. At 19 is a timing element that acts on all integrators denotes that can be influenced by a control variable 20 such that a The integrated signal is deleted when the current increases in the Converter input signal becomes zero. The channels 14 and 15 each have an electronic one Changeover switch 21. With 22 is drawn with a dashed line without delay Acting measuring element provided, with which, if necessary, a direct trigger without the Can be done via channels 14 to 16.

FIG. 2 shows a diagram in which the change in current is on the ordinate n I and the current gradient di / dt is plotted on the abscissa. '.fie to recognize different channels are assigned to different current slopes.

For the amplified signal ul = f (di / dt) arriving from transducer 10 3 channels 14, 15 and 16 are available, their integrators 17 this incoming Integrate signal at the same time.

The timer 19 is activated simultaneously with the arrival of the input signal encouraged and gives all integrators to integration for a predetermined period of time free. The channels 14, 15 and 16 each have a different sensitivity from one another set. The response value within a channel is indicated by lines 23, 24 and 25 shown in FIG. This response value can be set in the direction of arrow 26 in Height can be adjusted. Nit xi, x2 are the switching points of the channels, which are dependent on the size of the current rise of the converter input signal. Consequently all input signals enter the channel with a current gradient of less than x1 14 and all input signals with a current gradient greater than x1 and less than x2 is automatically only entered into channel 15. Furthermore, channel i6 is for everyone Converter input signals are provided, the slope of which is greater than x2.

Thus, an input signal of a distant short-circuit current arrives with a relatively low slope less than x1 automatically into channel 14 and then triggers when the response threshold 23 is exceeded. if on the other hand, a near short-circuit current with a high current gradient and with a high one Current value arrives; so channel 14 is automatically activated by the electronic switch 21 of channel 14 is blocked and enters channel 15. Here the short-circuit current exceeds the response threshold 24 in FIG. 2 and thus leads to tripping. However, if a Converter input signal of a starting current of a starting stage is present, -whose steepness is in the range of the near short-circuit current, this will also be Signal from channel 15 detected and channel t! will be blocked. However, this is because of the relatively small current level does not reach the response threshold 24 in FIG. 2, so that there is no release. The same considerations apply to switching on of auxiliaries, in which current slopes occur, which are also in the area of the nearby short-circuit currents Response threshold 24 in channel 2 according to FIG. 2 is not reached.

With channel 14 and channel 15 all occurring short-circuit currents can be controlled - be clearly and reliably differentiated from the operating currents. It speaks the tripping device always switches on when there is a short-circuit current. However, he does speak not for operating currents, not even if their current gradient is in the range of the nearby short-circuit currents. In addition to the 1st

and 2nd channel 14, 15, a 3rd channel 16 can also be provided, the only responds when there are current gradients above the switchover point xk. This channel can be set so sensitively that it causes very high short-circuit currents can be switched off practically instantaneously. But if you want such a high Do not allow short-circuit currents to run through an integrator, so can an instantaneous direct triggering by means of the instantaneous measuring element 22 connected in parallel take place.

As can be seen from FIG. 2, the switching points x1 and x2 be shifted in the direction of a higher or a lower current gradient (See the dashed lines in Fig. 2).

The adjustment of the switching points x1, x2 and the setting of the Response values 23, 24, 25 are made by a potentiometer on the tripping device.

The function of the current rise triggering can be in the usual Way to be checked by a test device, not shown.

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Claims (12)

Claims 1. Trip device with a di / dt converter for detecting Short-circuit currents in a direct current system, e.g. in a railway system, with a the converter in a first channel downstream integrator that generates the secondary voltage pulses of the converter integrated during a given time, and with a comparator, which compares the integrator output voltage with an adjustable reference voltage and if it is exceeded, issues a trigger command for a trigger (according to patent application P 23 38 918.6), characterized in that the first channel (i4) with its integrator (17) and comparator (18) at least one further, similarly structured channel (15, 16) is connected in parallel, its sensitivity to a different one Value is adjustable. 2. Trip device according to claim 1, characterized in that the selection of a certain channel (14, 15, 16) automatically by the one at the channel inputs pending signal occurs. 3. Trip device according to claim 1 or 2, characterized in that an Emschaltuno from one channel (18) to another channel (15) at certain Switching points (x1) takes place, which depends on the size of the current rise of the lfandler input signal are dependent. 4. Trip device according to claim 3, characterized in that the the Switching points assigned to different current slopes of the converter input signal (x1, x2) of the channels (14, 15, 16) are adjustable. 5. Trigger device according to one of, ilisprüche 1 to 4, thereby marked shows that they depend on the increase in current of the Landler Sinsangssignales Switching points (x1, x) of the individual channels (14, 15, 16) are selected such that the individual channels with increasing current gradient of the converter input signal come into function. 6. Trip device according to one of claims 1 to 5, characterized in that that the switch from one channel (14) to another channel (15) each over at least one changeover switch (21) takes place, with which the previously working channel (1) is blocked. 7. tripping device according to claim 6, characterized in that the changeover switch (21) is an electronic switch, one in front of the integrator (17) Channel (1i) is arranged. 8. Trip device according to claim 1, characterized in that the sensitivity of a channel by the influencing variables of the integration time, the reference voltage of the comparator (18) and the input sensitivity of the integrator (17) are determined will. 9. tripping device according to claim 1, characterized in that the Timing element (19) used to set the integration time of the integrators (17) can be influenced by a control variable (20) so that a deletion of the integrated signal occurs when the current rise di / dt of the converter input signal becomes zero or falls below a predetermined value for a certain period of time. 10. Trigger device according to one of claims 1 to 9, characterized through two channels (1! ins), the switchover point (x1) of which is selected in such a way that im first channel (14) only lead to tripping currents whose steepness is in the range the current steepness of distant short-circuit currents and their level is a set Value (23) exceeds, and that im second channel (ins) only the Currents lead to tripping, the rate of which is in the range of the nearby short-circuit currents and whose current level is above the level of a set value (26), which is chosen so that it is above the operating currents. 11. Trigger device according to one of claims 1 to 10, characterized through three channels (14, 15, 16) whose switching points (x1, x2) are chosen so that the short-circuit currents in the first channel (14) and those in the second channel (15) Short-circuit currents are detected up to a certain current steepness and that such short-circuit currents are triggered almost instantaneously in the third channel (16) 1 whose current gradient is greater than the current gradient from the second channel (15) detected currents. 12. Trip device according to claim 1, characterized by one of the channels (111, 15, 16) parallel-connected time-independent measuring element (22) for an instantaneous Triggered by very high converter output pulses.