DE939214C - Circuit arrangement for the mutual blocking of circuits in signal boxes with electric locks - Google Patents

Description

Circuit arrangement for the mutual blocking of circuits in Signal boxes with electrical locks In signal boxes with electrical Closures, it is often necessary for several switching operations to take effect at the same time to prevent. So z. B. certain routes are not set at the same time or signals are not brought into the driving position at the same time. Even the simultaneous one Changing several turnouts may not be possible in some cases. Will .all these processes are controlled in the usual way by relays, so you switch to the Circuits of each of these relays normally closed contacts of all other relays, so that each Relay switches off all other relays when it is triggered. However, these are many contacts are required, and as a result of the considerable effort involved, the circuit confusing and prone to failure. To simplify such circuits is a device has already become known in which the switching relays to contacts are connected, which are in the contact ring of a rotary switch; a blocking magnet, which fixes the rotary switch in every possible position only receives power for unlocking when all switching relays are de-energized.

In contrast, the invention provides for the circuits of switching relays, whose simultaneous response is to be prevented via the winding of a to lead a common locking relay that switches the circuits when it is triggered, that no switching relay can respond anymore. If the switchover consists in switching on one Resistance in the common part of the circuits; so. only a single contact of the blocking relay is required for this.

The windings of the switching relays and the blocking relay are useful dimensioned in such a way that when a switching relay is connected, this first and then only the blocking relay responds while several switching relays are connected at the same time the blocking relay responds first, thus preventing the switching relays from responding. If only one of the switching relays is switched on, a corresponding Switching means ensures that the Lock relay responds; if several switching relays are switched on at the same time, see above is ensured, for example by means of parallel connection, that when switching on the switching relay the current flowing through the blocking relay is already so great that the blocking relay responds before the switching relay and makes it impossible to respond, as will be explained in more detail in the description of the exemplary embodiment.

If you want to make the circuit earth fault and interference current safe, the individual circuits of the switching relays are made according to a further feature of the Invention - summarized at both ends via a blocking relay, each of which brings about the blocking when he speaks. To get the locking relay working too monitor, contacts are made in the circuits controlled by the switching relays the locking relay is provided.

Two exemplary embodiments of the invention are shown in FIGS. The switching relays S i and .S'2 are closed by closing the. Contacts Ti and T: 2 or T ii and T 12 switched on. If T i is closed, relay S i responds first and short-circuits the resistor W i through its contact sii. This increases the current so far that the blocking relay A can pick up. By opening its contact aii, the short circuit of the resistor Wa is canceled; the current then drops again, but only so far that the relays A and S i still have sufficient holding current. By means of the contacts s 12 of the relay S 1 and a 12 of the relay A , the relay F i can be made to respond; the relays F i and F 2 - are switching elements which are to be actuated by the switching relays S i and S: 2, for example the control relays of mutually exclusive routes or the like. The relay F i can only be activated when contacts s i2 and a are closed at the same time Address i2. If the contacts T i and T 2 are closed at the same time, the parallel connection of the relays Si and S means that the current flowing through the relay A is already so great that the relay A can respond immediately. The switching on of the resistor Wra immediately afterwards reduces the voltage at the parallel connection of the relays Si and S2 to such an extent that none of these relays gets a sufficient pull-in current. Appropriate design of the relays (high pick-up current, low holding current) can increase the safety of these response and fault current conditions. If the key contact 72 is closed only after the relays S i and A have been switched on, the voltage distribution in the circuit is such that the relay S2 then no longer receives a sufficient pull-in current.

If the contacts T ii and T 12 are closed in FIG. 2, the relays S i, A and the relay B, which is provided with a pick-up delay, respond one after the other. Contact bii is bridged by the folded contact aii. Relay F i can only respond when contacts b 12, 'a12 and s 12 and T12 are closed. Faults have the following effect: Earth fault at L i immediately causes relay A to respond. Relays Si or S2- can no longer be switched on. External voltage at L i short-circuits relay A. Relays F i or F 2 cannot respond because contact a 12 does not close. External voltage in L2 causes relays S i and B to respond. Contact bii prevents relay A from responding. Relays F i or F 2 cannot be switched on. When L iL 2 closes, relay F i cannot respond because contact T 12 is open.

The circuit of FIG. 2 can also be provided by a relay B connected upstream Resistance can be added, which is bridged by a contact of relay B.

Claims (7)

PATENT CLAIMS: e.g. Circuit arrangement - for the mutual blocking of circuits in interlockings with electrical locks, characterized in that the circuits of switching relays (Si, S2), the simultaneous activation of which is to be prevented, are guided over the winding of a common blocking relay (A), which when it responds switches the circuits in such a way that no switching relay can respond. 2. Circuit arrangement according to claim i, characterized in that that the locking relay (A) when responding a resistor (Wa) in the common Switches on part of the circuits. 3. Circuit arrangement according to claim i, characterized characterized in that the windings of the switching relay (S i, S2) and the blocking relay are dimensioned in such a way that when a switching relay is connected, this first and then the blocking relay (A) responds, while when several switching relays are switched on at the same time the blocking relay responds first and prevents the switching relay from responding. d .. Circuit arrangement according to Claim i, characterized in that the individual circuits are routed via a blocking relay (A and B) at both ends. 5. Circuit arrangement according to claim i, characterized in that in the of contacts (s i2, s22) the Switching relays (Si, S2) - controlled circuits (F i, F2). Contacts (a i2) des or the locking relay are provided. 6. Circuit arrangement according to claim i and 2, characterized in that resistors (W i, .W2) are provided in the individual circuits, which are short-circuited by contacts (sii, s ?, I) of the associated switching relays. 7. Circuit arrangement according to claim i, characterized in that a further contact (T 12) of a switching relay (S i) controlling switching means (T ii) in one of contacts (s 12) of the switching relay (S i) controlled circuit (F i ) is provided. Referenced publications: German patent specification No. 720 37i.