RU2237293C2 - Three-figure light diode traffic lights - Google Patents

Abstract

FIELD: engineering of regulating devices mounted along routes of trains and locomotives.

SUBSTANCE: device has contacts of first and second signal relays, transistor, alternating voltage source and light diode circuit. The latter has serial connection of resistor and balanced K first light diodes of one color, in parallel to each of which are oppositely switched second K light diodes of another color. Light diode circuit is connected between on of outputs of alternating voltage source and common contact of first signal relay, back contact of which is connected to common contact of second signal relay, which is by its frontal contact connected to another pole of source. Two diodes are inserted into traffic lights systems. Frontal contact of first signal relay is connected to cathode of first inserted diode, and back contact of second signal relay is connected to anode of second inserted diode. Anode of first diode is connected to cathode of second diode and to other pole of source. Selected circuit for connection of light diode circuit to source though contacts of signal relays and diodes makes possible when having light diodes of green and red colors to receive three colors of light indications: green, red and yellow.

EFFECT: substantially simplified construction of traffic lights system, lower manufacture costs and lesser maintenance and operation costs.

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Description

The invention relates to regulatory or warning devices installed along the route of locomotives or trains, namely, traffic lights that control the movement of trains.

Traffic lights are known for railway transport, in which incandescent lamps are used as the emitting element, and the traffic light readings are changed by switching the incandescent lamps with the contacts of the green and yellow signal relays of the circuit (Railway automation and telemechanics systems: Textbook for universities / Yu.A. Kravtsov, V.L. Nesterov et al .; Edited by Yu.A. Kravtsov. - M.: Transport, 1996.- P.68, Fig. 4.1). Their disadvantage is the low reliability of the operation, which is due to the fairly frequent burnout of incandescent lamps.

Traffic lights have significantly higher reliability, for which LED matrices are used as emitting elements (Yesyunin V.I., Efryushkin A.E. LED crossing traffic lights // Automation, Communication, Informatics, - 1999.- No. 12.- P. 25 , fig. 1). The disadvantage of these traffic lights is the high cost, since for the implementation of, for example, three indications of a traffic light, it is necessary to have three optical and structurally complete sets of equipment.

The closest in technical essence to the proposed technical solution is a three-digit LED traffic light, in which two-color LED matrices with single red and green LEDs are used, which are switched by the contacts of the corresponding signal relays, and to create currents to obtain three indications of a traffic light (red, yellow and green) Three power sources are used through the LEDs: one for alternating voltage and two different-polar sources of constant voltage (Three-digit th LED light. Application №2002126988 /B.S.Sergeev, E.O.Savelev. 7 IPC B 61 L 23/00. priority 09/10/02). The disadvantage of this device is its complexity and high cost, namely, the presence of three power sources.

The aim of the invention is to simplify the device and reduce the cost of a three-digit LED traffic light.

This goal is achieved by the fact that the first and second diodes are introduced into the device, which convert the sine wave of alternating voltage into two half-sine waves of different polarities, which are applied to the corresponding LEDs when switching the contacts of the signal relays.

The essence of the invention lies in the fact that two diodes are introduced into the traffic light, where the front contact of the first signal relay is connected to the cathode of the first input diode, and the rear contact of the second signal relay is connected to the anode of the second input diode, and the anode of the first diode is connected to the cathode of the second diode and the other pole of the AC voltage source.

The drawing shows a diagram of a three-digit LED traffic light. The traffic light contains common, front and rear contacts of the first signal relay 1, as well as a common front and rear contacts of the second signal relay 2, where the front contact of the first signal relay 1 is connected to the cathode of the first diode 3, and its common contact is connected to one of the terminals of the LED circuit 4, which consists of a serial connection according to the included LEDs 5.1, ... 5.K of the same color and resistor 6. The rear contact of the first signal relay 1 is connected to the common contact of the second signal relay 2, front and rear contact which you are connected to the pole 7 of the AC voltage source and to the anode of the second diode 8, respectively.

The anode of the first diode 3 is connected to the cathode of the second diode 8 and to the pole 7 of the AC voltage source. The other output of the LED circuit 4 is connected to the pole 9 of the AC voltage source. Parallel to each of the first LEDs 5.1, ... 5.K of one color, the second LEDs 10.1, ... 10.K of a different color are connected, so that the anode of each first LED is connected to the cathode of each second LED, and the cathode of the first to the anode second, respectively.

A three-digit LED traffic light operates as follows.

We assume that the first LEDs 51, ... 5.K have a green color of radiation, and the second 10.1, ... 10.K have a red color.

For the green indication of the traffic light, it is necessary that the common and front contacts of the first signal relay 1 are closed. Moreover, pulses of positive voltage polarity are fed from the poles 7 and 9 of the AC voltage source through the first diode 3 to the LED circuit. The current, the value of which is limited by the resistance of the resistor 6, flows through the first LEDs 5.1, ... 5.K green.

A red traffic light is provided when the common and rear contacts of the first 1 and second 2 signal relays are closed. In this case, from poles 7 and 9 of the AC voltage source, through the second diode 8, pulses of negative voltage polarity are supplied to the LED circuit 4. The current, limited by the resistance of the resistor 6, flows through the second LEDs 10.1, ... 10.K red.

A yellow traffic light is provided when the first LEDs 5.1, ... 5.K and the second LEDs 10.1, ... 10 are simultaneously emitted. K, when the common and rear contacts of the first signal relay 1 are closed, as well as the common and front contacts of the second signal relay 2. In this case, the alternating current from the poles 7 and 9 of the alternating voltage source causes alternating current pulses through the LEDs 5.1, ... 5. K and 10.0, ... 10.K, which causes the yellow color of the resulting radiation of the LED circuit 4.

As in the first two cases, the amplitude of the current pulses is limited by the resistance of the resistor 6.

Thus, the device ensures the flow through the LED circuit of 4 currents of different polarity in the presence of one power source - AC voltage (poles 7 and 9).

Therefore, in the proposed three-digit LED traffic light, only one power source is used, which simplifies the device and reduces the cost of its manufacture.

Claims (1)

A three-digit LED traffic light containing the contacts of the first and second signal relays, a transistor, an alternating voltage source, and an LED circuit, consisting of a series connection of a resistor and according to the first K LEDs of the same color turned on, the second K LEDs of a different color are turned on parallel to each of them, moreover, the LED circuit connected between one of the terminals of the AC voltage source and a common contact of the first signal relay, the rear contact of which is connected to a common contact a second signal relay, a front contact of an AC voltage source connected to another pole, characterized in that two diodes are inserted into the traffic light, a front contact of the first signal relay is connected to the cathode of the first input diode, and a rear contact of the second signal relay is connected to the anode of the second input diode, the anode of the first diode is connected to the cathode of the second diode and to the other pole of the AC voltage source.