RU68449U1 - TIME DELAY DEVICE FOR ELECTRIC CENTRALIZATION OF ARROWS AND SIGNALS - Google Patents

Abstract

The time delay device for the electrical centralization of arrows and signals contains a power source (1) connected via a contact (2) of the starting relay to a timing capacitor (3) and to the input (4) of the pulse signal generator (5), the output (6) of which is connected to the input of the amplifier (7), the output of which is connected to the output of the primary winding of the transformer (8), the second output of which is connected to a power source (1), the secondary winding of the transformer (8) is connected to the input of the rectifier (9), to the output of which an executive relay is connected ( 10), contact (11) which connects through a resistor (12) the power source (1) to the input (4) of the generator (5). The coil of the executive relay (10) is shunted by the storage capacitor (18). By monitoring the health of the elements of the device and by increasing the time delay increases the reliability of the device. 1 s.p. f-ly, 1 ill.

Description

The utility model relates to railway transport and can be used in various electrical centralization systems.

A time delay device is known, which contains an RC circuit connected by an output to the input of a threshold element, the output of which is connected to a thyristor control electrode, two relays, one of the windings of which is connected through the opening contacts to the first terminal of the AC mains, a rectified voltage power source, one output which is connected to the second terminal of the AC network and to the second terminals of the relay windings through two triacs, the other output of the rectified voltage power supply through an additional resistor with pa allele-connected RC circuit and the thyristor connected in series is connected to the control electrode of the first triac, and the control electrode of the second triac is connected to the additional resistor via the control button, in parallel with which the closing contact of the second relay is connected (SU No. 884141, NO3K 17/28, bull. No. 43 , 11/23/1981).

A time delay device is known that contains an RC bridge, the diagonal of which includes a transistor with transformer windings in the base and collector circuits, diodes, one of which is connected between the transistor collector and the thyristor control electrode, and the other in the transistor base circuit (SU No. 892719, Н03К 17/28, bull. No. 47, 12/23/1981).

In known devices, the capacitor is charged from the power source, and its subsequent discharge through the starting element to the relay winding. The relay operates for the duration of the discharge of the timing capacitor.

However, the known time delay devices have low reliability due to changes in the parameters and malfunction of the elements, which makes it impossible to use them in critical circuits of railway automation and telemechanics.

The closest in technical essence to the claimed one is a time delay device for electrical centralization of arrows and signals, containing a power source connected through the rear and common contacts of the starting relay, and a resistor to time-setting capacitors, in parallel with which the coil of the executive relay and its switching contact are connected, the contact of the starting a relay, a capacitor is connected to the windings of the executive relay, which is pre-charged through the rear contact of the starting relay, due to venom capacitor is provided on the deceleration disabling 7-8. sufficient to transfer the paired arrows (brute AS et al. Remote control switches and signals. Moscow, Transport, 1981, s.97-100, Fig.57).

However, this time delay device has low reliability due to changes in parameters and malfunction of the elements.

The objective of the utility model is to increase the reliability of the time delay device for the electrical centralization of arrows and signals.

The technical result is achieved in that in a time delay device for electrical centralization of arrows and signals, containing a power source connected through the rear and common contacts of the starting relay to the timing capacitor, an executive relay, the winding of which is shunted by the second capacitor, and the front contact is connected to the front contact of the starting relay, common contact of the executive relay connected to the first output of the resistor, impulse signal generator, amplifier, pulse transformer introduced , a rectifier, and the input of the generator is connected to the front contacts of the starting and executive relays, the second output of the resistor is connected to

a power source and with the output of the primary winding of the pulse transformer, another terminal of the primary winding of the transformer is connected to the output of the amplifier, the input of which is connected to the output of the pulse signal generator, the secondary winding of the transformer is connected to the input of the rectifier, to the output of which the coil of the executive relay is connected.

The pulse generator contains a series-connected resistor and capacitor, to a common connection point which is connected to a single-junction transistor with two resistors.

The pulse signal generator, amplifier, pulse transformer and rectifier are designed to convert pulse signals into voltage, necessary for the device to work, and to monitor the health of the elements and connections of the time delay device for the electrical centralization of arrows and signals. If they fail, the executive relay does not turn on, i.e. protective failure occurs.

The drawing shows a schematic diagram of a time delay device for the electrical centralization of arrows and signals. The time delay device for the electrical centralization of the arrows and signals contains a power source 1 connected through pin 2 of the starting relay to the timing capacitor 3 and to the input 4 of the pulse signal generator 5, the output 6 of which is connected to the input of the amplifier 7 (for example, in the form of a transistor), the output of which is connected to the primary winding of the pulse transformer 8, the other terminal of which is connected to the power source 1, the secondary winding of the transformer 8 is connected to the input of the rectifier 9, the output of which is connected solid relay 10, the contact 11 of which connects through a resistor 12 the power source 1 with the input 4 of the generator 5.

The pulse generator 5 consists of a timing circuit of a resistor 13 and a capacitor 14, a single-junction transistor 15, and

resistors 16 and 17. The winding of the Executive relay 10 is shunted by the storage capacitor 18.

The device operates as follows. A time-varying capacitor 3 is charged from a DC power supply 1 through terminal 2 of the starting relay. When the starting relay is turned on, the capacitor 3 is discharged to the input 4 of the generator 5, which generates pulse signals during the discharge of the capacitor 3, from the output 6 of the generator 5, the pulses are fed to the input of the amplifier 7 , which generates the signals necessary to turn on the actuating relay 10 through a pulse transformer 8 and rectifier 9. After actuating the actuating relay 10, it has its contact 11 through the resistor 12 under Luciano power source 1 to the input 4 of the generator 5. The frequency of the oscillator 5. This is slightly increased due to the fact that as the discharge timing capacitor 3 oscillation frequency generated decreases. The pulse transformer 8 galvanically decouples the amplifier 7 and the executive relay 10 and monitors the health of the rectifier 9 and amplifier 7 (for example, a breakdown of the transistor) and power supply 1 (for example, ripple when a smoothing capacitor fails). The rectifier 9 and the storage capacitor 18 convert the pulse signals into a constant voltage, necessary for the operation of the actuator relay 10. It should be noted that the pulse transformer 8 is structurally designed so that when a ripple voltage occurs when the power source is damaged on the primary side of the secondary circuit, the voltage is much less than the release voltage of the relay, and during normal operation, the working signals arrive at a much higher frequency and have a rectangular shape, p Therefore, a voltage sufficient for its operation is generated on the winding of the actuating relay 10.

Thus, the introduction of a generator, amplifier, pulse transformer, rectifier makes it possible to obtain a stable time delay device for the electrical centralization of arrows and signals, i.e. improves the reliability of the device.

The proposed time delay device for the electrical centralization of arrows and signals is constructed in such a way that when any damage to its elements or a change in its parameters is excluded, i.e. eliminates the possibility of forming a shortened time interval, which prevents the dangerous failure of railway automation systems and telemechanics, which is possible in the scheme of the selected prototype.

Claims (2)

1. A time delay device for the electrical centralization of arrows and signals, comprising a power source connected through the rear and common contacts of the starting relay to the timing capacitor, an executive relay, the winding of which is shunted by the second capacitor, and the front contact is connected to the front contact of the starting relay, a common contact of the executive the relay is connected to the first output of the resistor, characterized in that a pulse generator, an amplifier, a pulse transformer, a rectifier, The input of the generator is connected to the front contacts of the starting and executive relays, the second output of the resistor is connected to the power source and to the output of the primary winding of the pulse transformer, the other output of the primary winding of the transformer is connected to the output of the amplifier, the input of which is connected to the output of the pulse signal generator, the secondary winding of the pulse transformer connected to the input of the rectifier, the output of which is connected to the coil of the executive relay. 2. The time delay device for electrical centralization of arrows and signals according to claim 1, characterized in that the pulse signal generator comprises a resistor and a capacitor connected in series, to the common connection point of which a single-junction transistor with two resistors is connected.