RU108187U1 - FIVE VALUE LED LIGHT - Google Patents

Abstract

 A five-digit LED traffic light containing an AC voltage source, a capacitor, three LED circuits, the first of which is green, the second is blue, the third is red, the contact groups of three signal relays, three diodes and an AC voltage rectifier, the first input terminal of which connected to the first pole of the AC voltage source, and the second input terminal through the capacitor to the second pole of the AC voltage source, the first output terminal of the AC rectifier voltages are connected to the common contact of the contact group of the first signal relay, and the second output pin is connected to the output terminals of the LED circuits, the front contact of the contact group of the first signal relay is connected to the cathode of the first diode, and the rear contact of the contact group of the first signal relay is connected to the common contact of the contact group of the second signal relay, the front contact of which is connected to the anode of the second diode, and the rear contact is to the common contact of the first contact group of the third signal relay, the front contact of which connected to the anode of the third diode, and the rear contact to the cathode of the third diode, the cathode of the second diode is connected to the common contact of the second contact group of the third signal relay, the front contact of which is connected to the anodes of the first and third diodes, characterized in that three LEDs are inserted into it, moreover, the anode of the first LED is connected to the cathode of the first diode, and the cathode is connected to the input terminal of the first LED circuit, the anode of the second LED is connected to the anode of the second diode, and the cathode is connected to the input terminal of the second LED circuit, the third

Description

The utility model relates to devices of railway automation and telemechanics installed along the route of a railway rolling stock and using optical signals to regulate the movement of trains.

Known five-digit LED traffic light containing an AC voltage source, the contacts of three signal relays, the first LED circuit, consisting of a connection according to the included green LEDs, the second LED circuit, consisting of a connection according to the included blue LEDs, and a third LED circuit, consisting of connections according to the switched-on red LEDs, and the common contact of the first signal relay is connected to one of the poles of the AC source voltage, the input terminal of the first green LED radiation circuit is connected to the front contact of the first signal relay, and its output terminal is connected to the rear terminal of the first signal relay and to the common terminal of the second signal relay, the front terminal of the second signal relay is connected to the input terminal of the second blue LED circuit color of radiation, the output terminal of which is connected to the rear contact of the second signal relay and to the common contact of the third signal relay, and the front contact of the third signal relay barely connected to the input terminal of the third emission color red LED circuit output terminal which is connected to the rear contact of the third relay and the signal from the other pole AC voltage source (RU №2278417, B61L 23/00, G08G 1/095, publ. June 20, 2006).

A disadvantage of the well-known five-digit LED traffic light is its low controlability, since it does not control the operability of LED circuits.

The closest technical solution to the claimed utility model is a five-digit LED traffic light containing an AC voltage source, a capacitor, three LED circuits, the first of which is green, the second is blue, the third is red, contact groups of three signal relays, three diodes and an AC rectifier, the first input terminal of which is connected to the first pole of the AC voltage source, and the second input terminal through the capacitor to the second pole of the source of alternating voltage, the first output terminal of the AC rectifier is connected to the common contact of the contact group of the first signal relay, and the second output terminal is connected to the output terminals of the LED circuits, the front contact of the contact group of the first signal relay is connected to the input terminal of the first LED circuit and to the cathode of the first diode and the rear contact of the contact group of the first signal relay to the common contact of the contact group of the second signal relay, the front contact of which is connected to the second anode diode, and the rear contact to the common contact of the first contact group of the third signal relay, the front contact of which is connected to the anode of the third diode, and the rear contact to the cathode of the third diode, the cathode of the second diode is connected to the common contact of the second contact group of the third signal relay, front contact which is connected to the anodes of the first and third diodes, and the front contact of the contact group of the second signal relay is connected to the input terminal of the second LED circuit (RU No. 2278416, B61L 23/00, G08G 1/095, publ. March 27, 2006).

The disadvantage of this five-digit LED traffic light is its low controlability, since it does not control the operability of LED circuits.

The objective of the utility model is to increase the controllability of a five-digit LED traffic light.

The technical result is achieved by the fact that in a five-digit LED traffic light containing an AC voltage source, a capacitor, three LED circuits, the first of which is made of green LEDs, the second is blue, the third is red radiation, contact groups of three signal relays, three diodes and a rectifier AC voltage, the first input terminal of which is connected to the first pole of the AC voltage source, and the second input terminal through the capacitor to the second pole of the AC voltage source, per the output terminal of the AC voltage rectifier is connected to the common contact of the contact group of the first signal relay, and the second output terminal is connected to the output terminals of the LED circuits, the front contact of the contact group of the first signal relay is connected to the cathode of the first diode, and the rear contact of the contact group of the first signal relay is connected to the common contact of the contact group of the second signal relay, the front contact of which is connected to the anode of the second diode, and the rear contact to the common contact of the first contact group of the third about the signal relay, the front contact of which is connected to the anode of the third diode, and the rear contact is connected to the cathode of the third diode, the cathode of the second diode is connected to the common contact of the second contact group of the third signal relay, the front contact of which is connected to the anodes of the first and third diodes, three LEDs are introduced moreover, the anode of the first LED is connected to the cathode of the first diode, and the cathode is connected to the input terminal of the first LED circuit, the anode of the second LED is connected to the anode of the second diode, and the cathode is connected to the input terminal of the second LED enu, third LED anode connected to the cathode of the third diode and the cathode - to the input terminal of the third LED circuit.

The scheme of the proposed five-digit LED traffic light is shown in the drawing.

The five-digit LED traffic light contains an AC voltage source 1, a capacitor 2, three LED circuits 3.1, 3.2, 3.3, the first of which is made on LEDs 3.1.1-3.1. To green, the second to LEDs 3.2.1-3.2. To blue, third - on LEDs 3.3.1-3.3. To red radiation colors, contact groups 4, 5, 6, respectively, of the first, second and third signal relays, three diodes 7, 8, 9, an AC rectifier 10, the first 11, the second 12 and the third 13 LEDs.

The first input terminal 10.1 of the AC rectifier 10 is connected to the first pole 1.1 of the AC voltage source 1, and its second input terminal 10.2 through the capacitor 2 is connected to the second pole 1.2 of the AC voltage source 1. The first output terminal 10.3 of the AC voltage rectifier 10 is connected to the common contact of the contact groups of the first signal relay 4, and its second output terminal 10.4 - to the output terminals of the LED circuits 3.1, 3.2, 3.3. The front contact of the contact group 4 of the first signal relay is connected to the cathode of the first diode 7 and to the anode of the first LED 11, the cathode of which is connected to the input terminal of the first LED circuit 3.1. The rear contact of the contact group 4 of the first signal relay is connected to the common contact of the contact group 5 of the second signal relay, the front contact of which is connected to the anodes of the second diode 8 and the second LED 12, the cathode of which is connected to the input terminal of the second LED circuit 3.2. The rear contact of the contact group 5 of the second signal relay is connected to the common contact of the first contact group 6.1 of the third signal relay, the front contact of which is connected to the anode of the third diode 9, and the rear contact is connected to the cathode of the third diode 9 and to the anode of the third LED 13, the cathode of which is connected to input terminal of the third LED circuit 3.3. The cathode of the second diode 8 is connected to the common contact of the second contact group 6.2 of the third signal relay, the front contact of which is connected to the anodes of the first 7 and third 9 diodes.

The inventive five-digit LED traffic light operates as follows.

In the initial state of the five-digit LED traffic light, all three signal relays are off. The rear contacts of the contact group 4 of the first signal relay, the contact group 5 of the second signal relay, the first 6.1 and second 6.2 contact groups of the third signal relay are closed. The alternating voltage from the alternating voltage source 1 is supplied through the capacitor 2 to the alternating voltage rectifier 10. The capacitor 2, having reactance, limits the amount of alternating current flowing in the input circuit of the alternating voltage rectifier 10, forming the DC value necessary to turn on the LED circuits. In this state, the following LED turn-on circuit of the third LED circuit 3.3 is formed: terminal 10.3 of the AC voltage rectifier 10 - closed rear contacts of the contact groups 4, 5 and 6.1 of the first, second and third signal relays, respectively, the third LED 13 - LEDs 3.3.1-3.3. To the red color of the radiation - output 10.4 of an alternating voltage rectifier 10.

If the LEDs are working properly, 3.3.1-3.3. K, a red signal will turn on at the five-digit LED traffic light, and LED 13 will emit light. In case of violation of the integrity of the controlled circuit of LEDs 3.3.1-3.3. K, both due to their burnout and a break in the installation of LED circuit 3.3, LED 13 will not emit light, fixing the malfunction of this circuit.

To enable the green signal at the claimed five-digit LED traffic light, the first signal relay must be turned on, and the second and third signal relays are turned off. In this case, the following LED switching circuit is formed for the first LED circuit 3.3: terminal 10.3 of the AC voltage rectifier 10 - closed front contact 4 of the contact group of the first signal relay - LED 11 - LEDs 3.1.1-3.1. To the green color of radiation - terminal 10.4 of the AC voltage rectifier 10 .

If the LEDs 3.1.1-3.1 are in good working order, a green signal will turn on at the five-digit LED traffic light, and LED 11 will emit light. In case of violation of the integrity of the monitored circuit of the LEDs 3.1.1-3.1.K, both due to their burnout and a break in the installation of the LED circuit 3.1, the LED 11 will not emit light, fixing the malfunction of this circuit.

To turn on the blue signal at the claimed LED traffic light, the second signal relay must be turned on, and the first and third signal relays must be turned off. In this case, the following LED switching circuit of the second LED circuit 3.2 is formed: terminal 10.3 of the AC voltage rectifier 10 - closed rear contact 4 of the contact group of the first signal relay - closed front contact of contact group 5 of the second signal relay - LED 12 - LEDs 3.2.1-3.2.K the blue color of the radiation is output 10.4 of the AC voltage rectifier 10. When the second LED circuit 3.2 is operational, a blue signal is turned on at the traffic light, and LED 12 will emit light. In case of violation of the integrity of the controlled circuit of LEDs 3.2.1-3.2.K, both due to their burnout and breakage in the installation of LED circuit 3.2, LED 12 will not emit light, fixing the malfunction.

To enable the yellow signal at the claimed LED traffic light, the third signal relay must be turned on, and the first and second signal relays are turned off. In this case, two LED switching circuits are formed. The first circuit to turn on the LEDs of the first LED circuit 3.1: output 10.3 of the AC rectifier 10 - closed rear contact 4 of the contact group of the first signal relay - closed rear contact of the contact group 5 of the second signal relay - closed front contact 6.1 of the first group of the third signal relay - the first diode 7 - the first LED 11 - LEDs 3.1.1-3.1. To the green color of the radiation of the first LED circuit 3.1 - output 3.4 of the AC rectifier 10. The second circuit to turn on the LEDs of the third LED circuit 3.3: terminal 10.3 of the AC voltage rectifier 10 - closed rear contact 4 of the contact group of the first signal relay - closed rear contact 5 of the contact group of the second signal relay - closed front contact 6.1 of the first group of the third signal relay - third diode 9 - third LED 13 - LEDs 3.3.1-3.3.K of the red color of the radiation - output 10.4 of an AC voltage rectifier 10.

Simultaneous study of LEDs 3.1.1-3.1. K green and LEDs 3.3.1-3.3.K red radiation forms the resulting yellow traffic signal. In this case, the LEDs 7 and 9 will emit light. If the monitored LED circuits malfunction, the corresponding LEDs will not emit light, fixing the malfunction of this LED circuit.

To enable a white signal at the claimed LED traffic light, the second and third signal relays must be turned on and the first signal relay turned off. In this case, three chains of inclusion of LED circuits are formed. First circuit: terminal 10.3 of the AC voltage rectifier 10 - closed rear contact 4 of the contact group of the first signal relay - closed front contact 5 of the contact group of the second signal relay - second LED 12 - LEDs 3.2.1-3.2. To the blue color of the radiation of the second LED circuit 3.2 - output 10.4 of an alternating voltage rectifier 10. When the LEDs are in working condition 3.2.1-3.2. K LED 12 will emit light. The second LED enable circuit: terminal 10.3 of the AC voltage rectifier 10 - closed rear contact 4 of the contact group of the first signal relay - closed front contact 5 of the contact group of the second signal relay - second diode 8 - closed front contact 6.2 of the second contact group of the third signal relay - first diode 7 - the first LED 11, the LEDs 3.1.1-3.1. To the green color of the radiation of the first LED circuit 3.1 - output 10.4 of the AC rectifier 10. When the LEDs 3.1.1-3.1 are working properly. The LED 11 will be emitted s light. The third LED enable circuit: terminal 10.3 of the AC voltage rectifier 10 - closed rear contact 4 of the contact group of the first signal relay - closed front contact 5 of the contact group of the second signal relay - second diode 8 - closed front contact 6.1 of the first contact group of the third signal relay - third diode 9 - the third LED 13 - LEDs 3.3.1-3.3. To the red color of the radiation of the third LED circuit 3.3 - output 10.4 of the AC rectifier 10. If the LEDs are working properly 3.1.1-3.1. To the third LED 13 bud ie emit light.

The simultaneous inclusion of LEDs 3.1.1-3.1.K of the green color of the radiation, LEDs 3.2.1-3.2.K of the blue color of the radiation and LEDs 3.3.1-3.3.K of the red color of the radiation form the resulting white signal of the claimed five-digit LED traffic light.

If the LED circuits malfunction, the LEDs monitoring their health will stop emitting light, fixing the malfunction of the corresponding LED circuit.

Thus, the introduction of three LEDs into a five-digit LED traffic light increases its suitability, as it allows operators involved in its operation to continuously monitor the health of its LED circuits.

Claims (1)

A five-digit LED traffic light containing an AC voltage source, a capacitor, three LED circuits, the first of which is green, the second is blue, the third is red, the contact groups of three signal relays, three diodes and an AC voltage rectifier, the first input terminal of which connected to the first pole of the AC voltage source, and the second input terminal through the capacitor to the second pole of the AC voltage source, the first output terminal of the AC rectifier voltages are connected to the common contact of the contact group of the first signal relay, and the second output pin is connected to the output terminals of the LED circuits, the front contact of the contact group of the first signal relay is connected to the cathode of the first diode, and the rear contact of the contact group of the first signal relay is connected to the common contact of the contact group of the second signal relay, the front contact of which is connected to the anode of the second diode, and the rear contact is to the common contact of the first contact group of the third signal relay, the front contact of which connected to the anode of the third diode, and the rear contact to the cathode of the third diode, the cathode of the second diode is connected to the common contact of the second contact group of the third signal relay, the front contact of which is connected to the anodes of the first and third diodes, characterized in that three LEDs are inserted into it, moreover, the anode of the first LED is connected to the cathode of the first diode, and the cathode is connected to the input terminal of the first LED circuit, the anode of the second LED is connected to the anode of the second diode, and the cathode is connected to the input terminal of the second LED circuit, the third on the LED connected to the cathode of the third diode and the cathode - to the input terminal of the third LED circuit.