RU101565U1 - LED TRAFFIC - Google Patents

Abstract

 An LED traffic light containing a source of supply voltage, a radiation source based on at least one light emitting diode, a switching device, a capacitor, a diode bridge, the first of which input terminals is connected to one of the poles of the supply voltage source, the other pole of the supply voltage source through a contact the switching device is connected to the first terminal of the capacitor, the second terminal of the capacitor is connected to the second input terminal of the diode bridge, and parallel to the output terminals of the diode bridge a radiation source is included, characterized in that a fuse connected in series with the supply voltage source, a varistor connected in parallel with the supply voltage source, a resistor connected in parallel with the capacitor and a current-setting resistor connected in series with the radiation source are additionally introduced into the electric circuit.

Description

The inventive utility model relates to lighting technology, in particular to light-signaling devices with LEDs and can be used, for example, in traffic lights and railway traffic lights.

Known LED traffic light according to patent RU 2231826 C1, publ. 06/27/2004, which, in terms of essential features, is the closest analogue to the claimed utility model, consisting of the following series-connected elements of an electrical circuit: an AC voltage source, a signal relay contact, an LED circuit, consisting of parallel and serial connection of LEDs, and a diode bridge, the first of the input terminals of which is connected to one of the poles of the AC voltage source. The other pole of the AC voltage source is connected through the contact of the signal relay to the first terminal of a capacitor additionally introduced into the circuit, the second terminal of which is connected to the second input terminal of the diode bridge. An LED circuit is connected in parallel with the output terminals of the diode bridge.

The disadvantages of the known device are:

- lack of an electric circuit for a fast discharge of a capacitor. When you turn off the traffic light using a switching device, the capacitor, which is charged in the on state, powers the LEDs. LEDs light up for some time, which is unacceptable for traffic lights, because reduced road safety.

- lack of protection of the traffic light from exceeding the permissible value of the supply voltage, which can lead to the failure of the traffic light.

The task to which the proposed utility model is directed is to increase the operability of the LED traffic light in all operating modes.

The technical result is to provide instant on and off traffic lights.

The claimed technical result is achieved in that in an LED traffic light containing a source of supply voltage, a radiation source based on at least one light emitting diode, a switching device, a capacitor, a diode bridge, the first of which is connected to one of the poles of the AC voltage source , the other pole of the supply voltage source through the contact of the switching device is connected to the first terminal of the capacitor, the second terminal of the capacitor is connected to the second input terminal of one bridge, and a radiation source is included in parallel with the output terminals of the diode bridge, the following are additionally introduced into the electrical circuit:

- a fuse in series with the supply voltage,

- a varistor installed parallel to the supply voltage,

- a resistor mounted parallel to the capacitor,

- current-causing resistor installed in series with the radiation source.

In the LED traffic light of this design, due to the additionally introduced resistor connected in parallel with the capacitor, a fast discharge of the capacitor is ensured when the traffic light is turned off using a switching device. Connecting a fuse (fusible insert) in series with the input and a varistor connected after the fuse in parallel with the input allows the device to fail if the supply voltage rises or abruptly jumps. A current-sensing resistor installed in series with the radiation source allows you to set and limit the power supply current of the LEDs.

The essence of the claimed technical solution is illustrated by the structural diagram of the LED traffic light.

The LED traffic light circuit contains a supply voltage source 1, a fuse 2, a varistor 3, a radiation source 4 based on high-power LEDs, a switching device 5, a capacitor 6, a resistor 7, a diode bridge 8. The first of the input terminals of the diode bridge 8 is connected to one of the source poles power supply 1, the other pole of the power supply 1 through a contact of the switching device 5 is connected to the first terminal of the capacitor 6, the second terminal of the capacitor 6 is connected to the second input terminal of the diode bridge 8, and the parallel no output terminals of the diode bridge 8 included a radiation source 4. The fuse 2 is connected sequentially supply voltage source 1. Varistor 3 connected in parallel to the supply voltage source 1, a resistor 7 connected in parallel with the capacitor 6 voltage driving resistor 9 connected in series with each LED chain radiation source 4.

LED traffic light works as follows.

The AC mains voltage from the supply voltage source 1 through a circuit consisting of a fuse 2 and a varistor 3, a switching device 5 and a capacitor 6 enters the diode bridge 8, where it is rectified and fed through a current-setting resistor 9 to the LED circuit of the radiation source 4 on the LEDs. The magnitude of the luminous flux depends on the magnitude of the current supplying the high-power LEDs, and the magnitude of the current, in turn, depends on the magnitude of the applied constant voltage. When you turn off the power supply 1, the resistor 7 provides a quick discharge of the capacitor 6. A quick discharge of the capacitor 6 leads to an instant turn off the LEDs when the traffic light is turned off. With increasing voltage in the network, the varistor 3, and with a sharp power surge, fuse 2 prevents the device from failing.

The grouping of LEDs in series-parallel circuits and the introduction of an additional current-setting resistor 9 into each series circuit also helps to increase the operability of the device under any operating conditions. In any operating modes, when one or several LEDs burn out, the traffic light remains in working condition.

The use of LED traffic lights according to the claimed utility model will allow, due to a slight complication of the electrical circuit, to significantly increase the efficiency of the product. Increased uptime and traffic light service life. Reliability and efficiency of traffic control on the roads are increasing.

Claims (1)

An LED traffic light containing a source of supply voltage, a radiation source based on at least one light emitting diode, a switching device, a capacitor, a diode bridge, the first of which input terminals is connected to one of the poles of the supply voltage source, the other pole of the supply voltage source through a contact the switching device is connected to the first terminal of the capacitor, the second terminal of the capacitor is connected to the second input terminal of the diode bridge, and parallel to the output terminals of the diode bridge a radiation source is included, characterized in that a fuse connected in series with the supply voltage source, a varistor connected in parallel with the supply voltage source, a resistor connected in parallel with the capacitor and a current-setting resistor connected in series with the radiation source are additionally introduced into the electric circuit.