DE102007003176A1 - Line safety switch for use as downstream line safety switch, has integrator determining integral of square of current value, and comparator comparing integral with preset value, where conditions are fulfilled, if preset value exceeds - Google Patents

Abstract

The switch (18) has a latching mechanism (32) separated away from a stationary contact element (24) under preset conditions of a movable contact element (26) moved away from the element (24) and an ammeter (40) measuring a value of current flowing between input and output terminals (20, 22). An integrator (44) determines integral of square of the current value over time if and as long as the current value exceeds a preset value. A comparator (46) compares the integral with another preset value, where the preset conditions are fulfilled, if the latter preset value exceeds.

Description

The The invention relates to a circuit breaker.

It deals in particular with the problem of selectivity: A circuit breaker should react differently, depending on whether it is upstream or downstream in a cascade connection. 1 shows an example of a whole with 10 designated cascade with an upstream circuit breaker 12 and three downstream circuit breakers 14 , with each downstream circuit breaker 14 a consumer 16 assigned. Now enters the field of consumers 16 a short circuit, so it would not make sense if the circuit breaker 12 would open, because then all three branches would shut down at the same time. Rather, it is sufficient if the branch is turned off, in which the consumer 16 which triggers the short circuit. Thus, therefore, the downstream circuit breaker 14 in the respective branch off, while the remaining circuit breaker 14 in the other branches should not turn off. On the other hand, it is possible that it is the downstream circuit breaker 14 does not manage to switch off. In this case, but then has the upstream circuit breaker 12 switch off. Conventional circuit breakers are designed so that they switch off as quickly as possible. For the upstream circuit breaker 12 , which may not shut down immediately, but first the downstream circuit breaker 14 give the opportunity to switch off, therefore, special requirements are given.

simultaneously should from the conventional construction a circuit breaker if possible little deviated. A conventional circuit breaker has an input and an output terminal, a fixed one Contact element and a movable contact element for producing an electrical conductive connection between input terminal and output terminal by touching the stationary contact element by the movable contact element, and means for moving away the movable contact element from the stationary contact element in a short-circuit current. These Means usually include a solenoid which moves a plunger anchor with a plunger, the movable contact element of the stationary contact element wegschlägt. additionally There is in the circuit breaker a switching mechanism, which the task has, under predetermined conditions that of the stationary Contact element first not permanently moving movable contact element now permanently to keep away from the stationary contact element or in particular actively disconnect from this, d. H. even further away. Especially is it possible that the means for moving away are insufficient, a current flow permanently to prevent, but that an arc between the movable contact element and the stationary contact element forms, this then extinguished itself moved back the movable contact element and then again from the Moving means is moved away. The switch lock then has the task of permanently moving the movable contact from the stationary Keep away and completely suppress the arc.

It Object of the invention, a circuit breaker with the mentioned features of a conventional Circuit breaker in such a way that this particular as an upstream circuit breaker, but possibly also in addition as a downstream circuit breaker in a cascade circuit can be used.

The Task is by a circuit breaker with the features according to claim 1 solved.

• – Mittel zum Messen des Werts des zwischen Eingangsanschluss und Ausgangsanschluss fließenden Stroms,
• – Mittel zum Vergleichen des gemessenen Stromwerts mit einem ersten vorbestimmten Wert,
• – Mittel zum Ermitteln des Integrals des Quadrats des gemessenen Stromwerts über die Zeit, falls und solange der gemessene Stromwert den ersten vorbestimmten Wert überschreitet,
• – Mittel zum Vergleichen des ermittelten Integrals mit einem zweiten vorbestimmten Wert.

According to the invention, the circuit breaker thus comprises:

• Means for measuring the value of the current flowing between the input terminal and the output terminal,
• Means for comparing the measured current value with a first predetermined value,
• Means for determining the integral of the square of the measured current value over time, if and as long as the measured current value exceeds the first predetermined value,
• - means for comparing the determined integral with a second predetermined value.

By the interaction of the said means will be the above mentioned meets predetermined conditions, where the switch lock becomes active. These are particular then fulfilled, when the second predetermined value is exceeded by the determined integral becomes.

The first two means, ie the means for measuring the current value and the means for comparing the measured current value, ensure that the means for determining the integral do not have to work constantly. Rather, it is the task of the means for determining the integral, then to determine a measure of the heat emitted by the flowing current, if this flowing current is a short-circuit current, ie exceeds a minimum value. The reason that such a measure is chosen is that the losses of the short-circuit current can cause damage to the devices. By the means for comparing the determined integral with ei At a predetermined value, the loss energy is limited. The latter predetermined value should be suitably chosen so that the requirement of selectivity is met: If a short-circuit current occurs behind a downstream circuit breaker, a respective movable contact element moves away from the fixed contact element in both the upstream and the downstream circuit breaker arcing out. Looking at the arrangement in the branch with the short circuit, you will find exactly two arcs in a row. As a result, the maximum short-circuit current is effectively limited, and the determined integral does not reach the predetermined value in the upstream circuit breaker, if this is suitably selected. Rather, the short-circuit current causes a respective downstream circuit breaker opens, so that an opening of the upstream circuit breaker is unnecessary. In contrast, it looks different when a short circuit between the upstream circuit breaker and the downstream circuit breaker arises. Then, relatively high short-circuit currents flow, and the detected integral relatively soon reaches the predetermined value. As intended, then the switching mechanism permanently separates the movable contact element of the stationary contact element, ie the upstream circuit breaker opens permanently.

By a simple extension can be a circuit breaker according to the invention also consider the special case that a periodic, z. B. sinusoidal, fluctuation of the current causes the measured current value regularly a predetermined value although exceeds but just as regularly again falls below, so constantly with to restart the determination of the integral without that this exceeds the (second) predetermined value. In this case It may be default that the circuit breaker inside to turn off a predetermined time interval. This default is fulfilled by that provided a counter which is the means for comparing the measured current value is arranged downstream with a predetermined value. The counter counts how often in the predetermined time interval the means for comparing determine the measured current value with a predetermined value, that the predetermined value exceeded by the measured current value becomes. The predetermined condition, i. H. that the switch lock is active is and the movable contact element permanently from the stationary separates is given when the counter has counted a predetermined minimum number of events. This ensures that that not a single current spike in a half-wave, like her during switching operations may occur, equal to a shutdown of the circuit breaker causes. is the minimum number three is no more than a single repetition the current spike allowed before the circuit breaker permanently off.

In The circuit breaker was so far only short-circuit release systems the speech. conventional Circuit breakers also have an overcurrent trip system on. Usually belongs this is a bimetallic element, which in a permanent overcurrent (Exceed a predetermined current value) triggers the switching mechanism, wherein In this case, the switch lock the movable contact element active moved away from the stationary contact element until no arc more occurs, and then these contact elements as well keeps away from each other. Since the means for measuring the current value usually operate so that a voltage dropping across a resistor is measured preferably uses the bimetallic element as such a resistor, d. H. the means for measuring become the already existing bimetallic element connected in parallel.

One Circuit breaker according to the invention is particularly suitable as an upstream circuit breaker to be used. But it is not excluded that this is also used as a downstream circuit breaker or in a more than two-stage cascade also on middle levels is used. To fulfillment the task of selectivity only the predetermined value must be adjusted with which the determined Integral is compared. So this is in the circuit breaker according to the invention preferably adjustable, wherein the setting in an electronic Comparator z. B. can be done by simply programming.

following becomes a preferred embodiment of the invention described with reference to the drawing, wherein

1 shows a cascade connection of circuit breakers with consumers,

2 represents a circuit breaker according to the invention in its schematic structure.

An in 1 shown, as a whole with 18 designated inventive circuit breaker has an input terminal 20 and an output terminal 22 on. Between the input terminal 20 and the output terminal 22 are a stationary contact element 24 and a movable contact element 26 , The movable contact element 26 can be swiveled and touched when the circuit breaker is closed 18 the stationary contact element 24 , so that an electrically conductive connection between input terminal 20 and output connection 22 is made. The line breaker 18 has an overcurrent tripping function and a short-circuit tripping function. The circuit breaker features the overcurrent tripping function 18 in the current path between input terminal 20 and output connection 22 that has a bimetallic element 28 that bends after a supply of heat by a permanent overcurrent and thus, as by the effect arrow 30 shown, a switch lock 32 of the circuit breaker 18 triggers. The switch lock 32 causes in this case that the movable contact element 28 from the stationary contact element 24 is moved away and permanently separated from it, whereby arcs are suppressed. This functionality is known from virtually all circuit breakers of the prior art.

The short-circuit release system comprises an electrical coil 34 in which one (in 2 Not shown) plunger armature is arranged on which a plunger is formed. As by the impact arrow 36 shown causes when exceeding a predetermined value by the over the coil 34 flowing current, namely at a short-circuit current, the plunger with the plunger that the movable contact element 26 from the stationary contact element 24 is moved away. In the present case, this is such that an arc between the movable contact element 26 and the stationary contact element 24 training, whereby this into a (in 2 not shown) can travel. The arc continues to cause a current across the circuit breaker 18 flows, but is limited in its height. By action of the switch lock 32 according to the effect arrow 38 the movable contact element can be permanently separated from the stationary contact element, in particular be moved further away from it, whereby the arc is extinguished, no more power between the input terminal 20 and the output terminal 22 flows and thus the circuit breaker is opened.

These predetermined conditions under which the switching mechanism 32 this separation according to the effect arrow 38 causes are caused by an array of electronic elements 40 . 42 . 44 and 46 causes: parallel to the bimetallic element 28 is an electricity meter 40 connected. The electricity meter 40 actually measures the above the bimetallic element 28 decreasing voltage, and due to the known resistance of the bimetallic element 28 Can on the over the bimetallic element 28 be closed flowing electricity. A comparator 42 compares that from the ammeter 40 measured current value with a predetermined value. Only when the predetermined value is exceeded, the following electronic components 44 and 46 used: If the measured current is a short-circuit current, an integrator starts 44 to determine the integral of the square of the current value over time. This is a measure of the heat generated by the short-circuit current with a known resistance. A comparator 46 compares the value of the integral with a predetermined value. As long as the predetermined value of the integral is not undershot, the heat given off by the short-circuit current is not excessively high and can be accepted. Only when the integral is the predetermined value in the comparator 46 exceeds, causes the comparator 46 as by the impact arrow 48 indicated that the switch lock 32 the movable contact element 26 from the stationary contact element 24 permanently separates, according to the effect arrow 38 ,

The arrangement off 2 still allows a second possibility of triggering the switching mechanism 32 In this case, although the integral over the short-circuit current is not sufficiently high as long as the short-circuit current is the predetermined value in the comparator 42 exceeds, because of the predetermined value in the comparator 42 is then just as fast and often fallen below again as exceeded. A counter 50 but counts how many times within a predetermined time interval (typically 20 ms to 100 ms) the comparator 42 determines that from that of the ammeter 40 measured current value is exceeded a predetermined value. Exceeds the number determined by the counter a predetermined minimum number, it reaches z. As the number 3, causes the counter according to the effect arrow 52 a release of the switch lock 32 , which then also causes (effect arrow 38 ) that the movable contact element 26 permanently from the stationary contact element 24 is disconnected, so that in turn arcs are completely suppressed and the circuit breaker 18 completely opens.

It's the one in the comparator 46 stored predetermined value that determines when exactly the circuit breaker 18 usually triggers. About this value, the circuit breaker 18 be suitably programmed for its respective task in a switching cascade. Is the circuit breaker 18 upstream, then the predetermined value should be in the comparator 46 be as high as possible, and the further the circuit breaker 18 is arranged downstream in a switching cascade, the smaller can be the predetermined value.

Claims (4)

Circuit breaker ( 18 ) with an input terminal ( 20 ) and an output terminal ( 22 ), with a fixed contact element ( 24 ) and a movable contact element ( 26 ) for establishing an electrically conductive connection between input terminal ( 20 ) and output Enough ( 22 ) by touching the fixed contact element ( 24 ) by the movable contact element ( 26 ), with means ( 34 ) for moving away the movable contact element from the stationary contact element in the case of a short-circuit current, and with a switching lock ( 32 ), which under predetermined conditions that of the fixed contact element ( 24 Moving away moving contact element ( 26 ) permanently from the fixed contact element ( 24 ) separates and / or keeps away, characterized by: - means ( 40 ) for measuring the value of between input terminal ( 20 ) and output terminal ( 22 ) flowing electricity, - means ( 42 ) for comparing the measured current value with a first predetermined value, - means ( 44 ) for determining the integral of the square of the measured current value over time, if and as long as the measured current value exceeds the first predetermined value, - means ( 46 ) for comparing the determined integral with a second predetermined value, wherein the predetermined conditions are met when the second predetermined value is exceeded. Circuit breaker according to claim, characterized by a counter ( 50 ), which counts how often in a predetermined time interval the means ( 42 ) for comparing the measured current value with a predetermined value, that the predetermined value is exceeded by the measured current value, wherein the predetermined conditions are satisfied when the counter has counted a predetermined minimum number. Circuit breaker ( 18 ) according to claim 1, characterized in that the means ( 40 ) for measuring to a bimetallic element ( 28 ) are connected in parallel, which in case of a permanent overcurrent, the switching mechanism ( 32 ) triggers. Circuit breaker ( 18 ) according to one of the preceding claims, characterized in that in the means ( 46 ) for comparing the determined integral with a second predetermined value of the second predetermined value is adjustable and preferably programmable.