DE102004008721B4 - Induction fuse for securing railway traffic - Google Patents

Abstract

Induction fuse to secure rail traffic with an electromagnetic coil (3), which is in a circuit to be opened and closed by switch (5) and which is stationary in the area of the track in the electromagnetic area of influence of electromagnetic contact coils (4) which are connected to the Rail vehicles (1) passing over induction fuse are arranged, with a proximity switch in the immediate inductive area of influence of the coil (3) of the induction fuse, which has an electrical oscillating circuit with a control coil (6) and a measuring device (7) for detecting the electromagnetic damping of the oscillating circuit wherein the circuit of the induction fuse is closed at time intervals and the damping of the resonant circuit is monitored by means of the measuring device (7), and the power supply of the measuring device (7) takes place from the circuit of the induction fuse.

Description

The invention relates to an induction lock for securing railway traffic.

Such an induction fuse is z. B. known by the DE 198 44 263 A1 , Induction fuses are also used for emergency braking of rail vehicles, which approach a signal put on hold. In this case, the circuit of the coil of the induction lock is closed synchronously with the switching of the signal from the free signal to the hold signal. As a result, a contact coil is electromagnetically influenced in a vehicle running over the induction fuse rail vehicle and thereby z. B. a circuit for actuating the vehicle brake is closed and a forced braking causes when the driver has overlooked the holding signal.

In these cases, the safety of rail transport depends on the proper functioning of the induction lock. Therefore, it is necessary to run over the induction lock at a fixed stop signal or closed circuit of the induction lock with a test vehicle at intervals, in order to test the proper function of the induction lock. The object of the invention is to save this effort and to enable a technically simple means a running or regular or arbitrary review of the induction fuse or preferably to signal each time the circuit of the holding signal or the circuit of the induction fuse the proper function of the induction fuse and check ,

The solution results from claim 1.

A suitable proximity switch is z. B. in the DE 43 25 406 A1 and DE 199 59 233 A1 described.

Such proximity switches are very sensitive to any electromagnetic interference of the field of their control coil. Your circuit includes a measuring device for measuring a suitable characteristic for the electromagnetic damping of the control coil of the proximity switch, in particular the current and / or the voltage drop across a resistor of the circuit.

The proximity switch is now located in the vicinity of the coil of the induction fuse and aligned therewith such that the damping of the proximity switch changes depending on whether the circuit in which the coil of the induction lock is included, is open or closed. Therefore, by detecting the attenuation of the proximity switch can also be determined whether the circuit of the induction lock is open or closed, in other words, whether the switch of the induction lock works.

The switch of the induction fuse z. B. opened by radio signal and closed by spring. A particularly common application is the induction lock on signals, which - as described - on "drive" or "stop" can be switched. Here, the circuit of the signal is synchronized with the switch of the circuit of the induction fuse. This also changes the damping signal of the proximity switch, which can be output at the same time in the interlocking or the other Steep, which has caused the circuit of the signal. It can therefore be an immediate success control in the position of the signal.

In this case, the circuit of the signal can also be carried out regularly or arbitrarily outside of the driving operation for test purposes.

To check the proper function of the induction lock, it can be determined whether the measuring device reacts when the signal is switched on.

Preferably, however, a setpoint is determined and set for the damped state of the proximity switch. When the induction circuit or signal adjustment circuit is closed, the deviation of the actual value of the damping from the desired value of the damping is signaled. Exceeds the deviation of a predetermined limit, so that the proper operation of the induction and / or the signal and / or the proximity switch is in question, the driving is limited and carried out a fault repair on site.

An embodiment of the invention will be described with reference to a schematic diagram.

Shown is a railway vehicle 1 on tracks 2 , Stationary in the track body is the coil 3 embedded in an induction fuse. The sink 3 it is such that the attached to the railway vehicle contact coil 4 during the passage of the railway vehicle in the inductive range of influence of the coil 3 comes. The stationary coil 3 lies in a circuit that is through switch 5 is pressed. switch 5 is z. B. closed by a and with a stop signal, so that the coil 3 is activated when the signal is stopped. This will also change the contact coil 4 activated by the passing railway vehicle. It is not shown that a system is installed in the railway vehicle, by which upon activation of the contact coil 4 issued a warning signal and / or set the brake system of the railway vehicle in operation and the holding process is initiated independently of the driver (emergency brakes).

In the track body is still a proximity switch 6 embedded and indeed in the immediate inductive range of influence of the coil 3 the induction lock. The control coil 6 is through a control circuit 7 powered. This is the control circuit 7 connected to the circuit of the hold signal. Due to the fact that the control coil 6 in the inductive sphere of influence of the stationary coil 3 The induction lock is the control coil 6 of the proximity switch as a function of the electromagnetic field of the coil 3 damped. The control circuit 7 generates a warning signal 8th , which depends on the damping of the control coil 6 of the proximity switch and thus also of the inductance of the coil 3 is dependent. At the same time the control circuit 7 a desired signal 9 given, which is a measure of that inductance and damping of the control coil 6 is when the coil 3 is properly activated in the case of the stop signal and builds up a corresponding electromagnetic field. The warning signal 8th can z. B. as the difference between the desired signal 9 and the detected actual inductance.

Claims (4)

Induction fuse for securing railway traffic with an electromagnetic coil ( 3 ), which in one by switch ( 5 ) and which are fixed in the region of the track in the electromagnetic influence range of electromagnetic contact coils ( 4 ), which on the induction securing overcoming rail vehicles ( 1 ) are arranged, wherein in the immediate inductive sphere of influence of the coil ( 3 ) of the induction fuse a proximity switch is arranged stationary, which an electrical resonant circuit with a control coil ( 6 ) as well as a measuring device ( 7 ) for detecting the electromagnetic damping of the resonant circuit, wherein closed at intervals the circuit of the induction fuse and the damping of the resonant circuit by means of the measuring device ( 7 ), and wherein the power supply of the measuring device ( 7 ) takes place from the circuit of the induction fuse. Induction fuse according to claim 1, characterized in that for the measuring device ( 7 ) a setpoint ( 9 ) of the damping of the resonant circuit with closed circuit of the induction fuse is specified and that when the closed circuit of the induction fuse determines the actual value of the damping, with the setpoint ( 9 ) of the damping and the difference is output as a signal for the proper or defective function of the induction fuse. Induction fuse according to claim 1 or 2, characterized in that at each circuit of the circuit of the induction fuse and the degree of damping of the resonant circuit is monitored. Induction fuse according to one of the preceding claims, characterized in that the induction lock for emergency braking of a rail vehicle ( 1 ) is arranged on a signal, wherein its circuit is closed by actuation of the signal.

Images