RU2158025C1 - Traffic light and device, which protects its against noise - Google Patents

Abstract

FIELD: traffic regulation equipment. SUBSTANCE: device has power supply and light source, which is located inside housing with protection glass and is designed as plate with light-emitting diodes with given emission color, including red, and/or yellow, and/or green. Light source is connected to power supply through noise protection unit, which has reference voltage setting unit, which is designed as bridge circuit, transistor, transistor gate, as MIS transistor. Bridge circuit with transistor gate, which is used for protection switches light source on and off and provides protection against false illumination (triggering) caused by noise and induction by means of comparison to given level of signal amplitude. EFFECT: increased reliability, increased validity of signal display, facilitated use. 12 cl, 5 dwg

Description

 The invention relates to the field of traffic regulation and can be used to regulate traffic and pedestrians through intersections.

 Known traffic light with a housing consisting of three sections, each of which has a visor above the corresponding window, a light source in the form of an incandescent lamp, a protective glass in the form of a colored diffusing lens, a sealant, a reflector [1].

 The disadvantages of this traffic light are high energy consumption and low reliability due to the low durability of incandescent lamps.

 Known traffic light, comprising a housing with a lens and a light source enclosed in the housing, made in the form of a printed circuit board with light emitting diodes and connected to a power device in the form of an AC rectifier [2].

 Known traffic light containing a housing with a lens and enclosed in it a light source connected to a power supply and control device, and the light source is made in the form of a board with light emitting diodes [3].

 The disadvantages of the known traffic lights are low noise immunity, which does not exclude its false responses (flashes) from interference and interference arising from the contact networks of trolleybus, tram, railway transport or power cables for industrial purposes.

 A device for protection against interference (in the form of a minimum voltage relay), comprising a reference voltage reference node (threshold device), including a zener diode at the input and a zener diode in a bridge circuit, a switching means in the form of a relay, a transistor (see USSR author's certificate N 237235, MKI H 01 H 83/12, publ. 1969).

 The known device has low reliability due to the use of a mechanical unit (relay), which limits its use, for example, in a traffic light to protect its light source from interference, including from undervoltage in the network.

 The invention solves the problem of reducing energy consumption, improving the reliability and noise immunity of a traffic light.

 The problem is achieved in that in a traffic light containing at least one light source with a given color glow, including red and / or yellow and / or green, located inside the housing with a protective glass, and at least one source of its power supply, the light source is equipped with an anti-interference device, the first and second inputs of the specified device are connected to the first and second outputs of the power source, and its outputs are connected to the inputs of the light source.

 It is advisable to make the light source in the form of a board with light emitting diodes.

 It is preferable to combine the light emitting diodes on the board into parallel connected groups consisting of at least one light emitting diode, the diodes in the groups connected in series with the corresponding resistors, the terminals of the last of these elements in the group being the first and second inputs of the light source.

 It is advisable to perform a noise protection device on a board with light emitting diodes or on a separate board.

 It is advisable to make the case sectional for installing light sources of a given color glow.

 Preferably, the power source is in the form of a direct current source.

 It is advisable to make the power source in the form of an AC rectifier.

 Preferably, the power source is in the form of an AC rectifier.

 It is advisable to make the power source in the form of a battery, or a solar power plant, or a wind power plant.

 This goal is achieved by the fact that in the anti-interference device containing the reference voltage setting node, a transistor, a switching means, said switching means is made in the form of a transistor switch, the first, second, third resistors, the first and second capacitors, a current-limiting resistor and a diode are introduced, the anode of which is connected to the collector of the transistor, and the cathode to the first terminals of the first resistor, the first capacitor and the transistor switch, the second terminal of which is connected to the second terminals of the first resistor, capacitor, the first input of the reference voltage setting node and the first output of the second capacitor, and the third to the first output of the second resistor, the second output of which is connected to the first output of the third resistor, the second output of which is connected to the second output of the second capacitor and the first output of the current-limiting resistor, the second the output of which is connected to the second input of the reference voltage setting unit, to the first and second outputs of which the emitter and the base of the transistor are connected, respectively, the second output of the transistor molecular switch and a first terminal of the third resistor are the first and second inputs of the device, which outputs are a third terminal of the transistor switch and the second terminal of the second resistor.

 It is advisable in the anti-jamming device to set the reference voltage setting unit in the form of a bridge circuit containing two diodes and two zener diodes included in the diagonal of the diagonal and its opposite shoulders, the connection points of the cathode of one zener diode and the anode of the other zener diode with the corresponding terminals of these resistors being the first and the second inputs of the reference voltage setting node, the first and second outputs of which are the cathode and anode of the diode in the diagonal of the bridge circuit.

 Preferably, the transistor switch is made in the form of an MOS transistor, the gate, source and drain of which are the first, second and third terminals of the transistor switch, respectively.

 The analysis of the prior art, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allows us to establish that the applicant has not found technical solutions characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype made it possible to identify a set of essential (with respect to the technical result perceived by the applicant) distinctive features in the claimed object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 Information about the fame of the distinguishing features in the totality of the characteristics of the known technical solutions with the achievement of the same as the claimed device, there is no positive effect.

 Based on this, it was concluded that the proposed technical solution meets the criterion of "inventive step".

 FIG. 1 shows an embodiment of a traffic light with one light source.

 FIG. 2 depicts a block diagram of the traffic light in FIG. 1.

 FIG. 3 shows an embodiment of a traffic light with a three-section housing for accommodating three light sources of different colors.

 FIG. 4 depicts a block diagram of a traffic light in FIG.

 FIG. 5 depicts an electrical circuit of an anti-jamming unit. The traffic light (Fig. 1) contains a light source 4 located inside the housing 1 with a protective glass 2 and a visor 3, made in the form of a (printed) circuit board 5 with light-emitting diodes 6 with a given color glow, including red and / or yellow and / or green, and source 7 of its power. The light source 4 is equipped with an anti-jamming device 8, the first and second inputs of the indicated device 8 (Fig. 2) connected to the first and second outputs of the power source 7, and its outputs connected to the inputs 9, 10 of the light source 4.

 Advantageously, the anti-jamming device 8 is performed on a board 5 with light emitting diodes 6. It can be placed on a separate board.

 To install multiple light sources 4 (for example, two, three, four, five) of different colors, the housing 1 is sectional.

 As the power supply 7, an ac network rectifier can be used, made in particular in the form of two half-period diode (rectifier) bridges, and / or a battery, and / or a solar power plant, and / or a wind power plant.

 The most widely used are three-color traffic lights (with red, green and yellow colors, respectively) powered by an AC rectifier.

 The traffic light (Fig. 1) contains a housing 1, in particular, consisting of three sections 1a, 1b, 1c, for example, red, yellow and green glow colors, equipped with protective glasses 2a, 2b, 2c (colorless lenses) and visors 3a 3b, 3c. Inside each of these sections, a corresponding light source 4 (4a, 4b, 4c) is installed, made in the form of a board 5 (5a, 5b, 5c) with light-emitting diodes 6 (6a, 6b, 6c) of red, yellow and green colors, respectively. Each light source, through a corresponding protection device (8a, 8b, 8c) and a power source (7a, 7b, 7c), made in the form of a half-wave rectifier, is connected to the corresponding input of the mains 11, 12, 13.

 The light emitting diodes 6 on the board 5 are combined in the required amount into parallel connected groups of one or more light emitting diodes 6. The light emitting diodes 6 in the groups are connected in series with the corresponding resistors 14. The terminals of the last of these elements (in particular, the resistors 17 and the last light emitting diodes 6 ) in the group are the first and second inputs 9, 10 of the light source 4 (Fig. 4).

 The protective glass 2 can be made light-transmitting, including transparent, for example, in the form of an unpainted lens, or have lens elements of various configurations on the outer surface.

 The interference suppression device 8 (FIG. 5) comprises a reference voltage setting unit 15, a transistor 16, switching means made in the form of a transistor switch 17, first, second, third resistors 18, 19, 20, first and second capacitors 21.22, a current-limiting resistor 23 and a diode 24, the anode of which is connected to the collector of the transistor 16, and the cathode is connected to the first terminals of the first resistor 18, the first capacitor 21 and the transistor switch 17, the second terminal of which is connected to the second terminals of the first resistor 18, the first capacitor 21, the first input of the node 15 op tasks voltage to the first terminal of the second capacitor 22, and the third to the first terminal of the second resistor 19, the second terminal of which is connected to the first terminal of the third resistor 20, the second terminal of which is connected to the second terminal of the second capacitor 22 and the first terminal of the current-limiting resistor 23, the second terminal of which connected to the second input of the reference voltage setting unit 15, to the first and second outputs of which the emitter and base of the transistor 16 are connected, the second output of the transistor of the key 17 and the first output of the third ezistora 20 are first and second input devices, whose outputs are the third terminal of the transistor switch 17 and the second terminal of the second resistor 19.

 The node 15 sets the reference voltage is made in the form of a bridge circuit containing a diode 25 in the diagonal and resistors 26 and 27 and zener diodes 28 and 29 included in its opposite arms, and the connection points of the cathode of one zener diode 28 and the anode of the other zener diode 29 with the corresponding terminals of the resistors 27 and 26 are the first and second inputs of the reference voltage setting unit 15, the first and second outputs of which are the cathode and anode of the diode 25 in the diagonal of the bridge circuit.

 The transistor switch 17 can be made in the form of a TIR transistor, a gate, a source, the drain of which are respectively the first second and third terminals of the transistor switch 17.

 The anti-jamming devices (8a, 8b and 8c), according to Fig.2.4, are connected at the input through the power sources (7a, 7b and 7c) (half-wave rectifiers) with the inputs 11, 12, 13 of the mains, respectively red, yellow and green and output with inputs 9, 10 of light sources (4a, 4b and 4c) made in the form of boards 5 with light emitting diodes 6 of red, yellow and green colors, respectively (in particular, in the form of a matrix of light emitting diodes 6). The proposed circuit allows you to turn on the light emitting diodes 6 only for a given amplitude of the input signal. The protection device 8 is designed in such a way that the input signals with a small amplitude and duration (interference and interference) do not open it, and the input signal of the mains opens the transistor switch 17 of the device 8 for protection against interference and the input voltage is applied to the inputs 9.10 of the light source 4 .

 The device operates as follows. During operation of the traffic light from the AC mains, alternating voltage is supplied, for example, to the input 11 of section 1a of the traffic light housing 1 with a red color glow and through the power supply 7a and the protection device 8a is supplied to the input of the red light source 4a (matrix of light emitting LEDs) of red color. The power source 7a performs a half-wave rectification of the input network signal and supplies it to the anti-jamming device 8a. The anti-jamming device 8a generates special pulses for each half-cycle of the input signal and feeds them to the input of the light source 4a.

 These pulses are generated on the field-effect transistor switch 17 using a bridge circuit (implemented on resistors 26, 27 and zener diodes 28, 29), the diagonal of which includes the base-emitter junction of the transistor 16, the current-sensing resistor 23, and a delay circuit consisting of a resistor 20 and a capacitor 22.

 For example, the voltage signal of the supply network is insufficient to open the transistor switch 17 (or an interference signal appeared at the input). In this case, the current flowing through the limiting resistor 23 and the elements (25-29) of the bridge circuit is insufficient to unlock the transistor 16 and, accordingly, through the diode 24, the first resistor 18 and the first capacitor 21 holds the transistor switch 17 in the closed position. The current through the source 4a no light is flowing, the red traffic light is off.

 When the mains signal arrives at the input of the red section 1a, an increase in the flowing current in the elements of the bridge circuit occurs. The transistor 16 opens and creates a charge circuit of the capacitor 21 through the diode 24 to the voltage of the zener diode 29. This voltage is applied to the transistor switch 17 and opens it by connecting the light source 4a to the input 11 of the supply network. A current flows through the light source 4a (a matrix of light emitting diodes), causing a red glow of the red traffic light.

 If there is no supply voltage at the input, the capacitor 21 is discharged through the resistor 18, the transistor switch 17 is closed, excluding the passage of leakage currents, interference and interference through the light source 4A. In this case, the traffic signal is not lit.

 Sections 1b, 1c, respectively, of the yellow and green traffic signals work in a similar way.

 The use of a bridge circuit 15 as a protection device with a transistor switch 17, which controls the switching on and off of the light source 4, makes it possible to increase the reliability level of signal display by comparing them with a given level of the input signal amplitude. High reliability of the display is ensured due to the elimination of false illumination (operations) from interference and interference, which increases the convenience of its operation. All this together leads to the solution of the task.

 The proposed technical solution is tested in prototypes of traffic lights with confirmation of the achievement of the task.

Sources of information
1. USSR author's certificate N 1494025, MKI G 08 G 1/095.

 2. RF application for utility model N 96104440/20, MKI F 21 Q 3/00.

 3. RF certificate for utility model N 10918, MKI G 08 G 1/00 - prototype.

Claims (12)

 1. A traffic light containing at least one light source with a predetermined color glow, including red and / or yellow and / or green, located inside the housing with a protective glass, and at least one power source, characterized in that the light source is equipped with an anti-interference device, and the first and second inputs of the specified device are connected to the first and second outputs of the power source, and its outputs are connected to the inputs of the light source.  2. The traffic light according to claim 1, characterized in that the light source is made in the form of a board with light emitting diodes.  3. The traffic light according to claim 2, characterized in that the light emitting diodes on the board are combined in parallel connected groups consisting of at least one light emitting diode, and the diodes in the groups are connected in series with the corresponding resistors, the terminals of the last of these elements in the groups are the first and the second inputs of the light source.  4. A traffic light according to any one of claims 1 to 3, characterized in that the anti-interference device is made on a board with light emitting diodes or on a separate board.  5. A traffic light according to any one of claims 1 to 4, characterized in that the casing is made sectional for installing light sources with a given color glow.  6. Traffic light according to any one of claims 1 to 5, characterized in that the power source is made in the form of a constant current source.  7. The traffic light according to claim 6, characterized in that the power source is made in the form of an AC rectifier.  8. The traffic light according to claim 7, characterized in that the power source is made in the form of an AC rectifier.  9. The traffic light according to claim 6, characterized in that the power source is made in the form of a battery, or a solar power plant, or a wind power plant.  10. An anti-interference device comprising a reference voltage setting unit, a transistor, a switching means, characterized in that the switching means is in the form of a transistor switch, first, second, third resistors, first and second capacitors, a current limiting resistor and a diode, the anode of which are introduced connected to the collector of the transistor, and the cathode to the first terminals of the first resistor, the first capacitor and the transistor switch, the second terminal of which is connected to the second terminals of the first resistor, the first capacitor, the first one of the reference voltage setting node and the first terminal of the second capacitor, and the third to the first terminal of the second resistor, the second terminal of which is connected to the first terminal of the third resistor, the second terminal of which is connected to the second terminal of the second capacitor and the first terminal of the current-limiting resistor, the second terminal of which is connected to the second the input of the reference voltage setting node, the first and second outputs of which are connected respectively to the emitter and the base of the transistor, the second output of the transistor switch and the first output t the third resistor are the first and second inputs of the device, the outputs of which are the third output of the transistor switch and the second output of the second resistor.  11. The anti-interference device according to claim 10, characterized in that the reference voltage setting unit is made in the form of a bridge circuit containing a diode in the diagonal and two resistors and two zener diodes included in its opposite shoulders, the connection points of the cathode of one zener diode and the anode of the other the zener diode with the corresponding terminals of these resistors are the first and second inputs of the reference voltage setting node, the first and second outputs of which are the cathode and anode in the diagonal of the bridge circuit.  12. The anti-interference device according to claim 10 or 11, characterized in that the transistor switch is made in the form of an MOS transistor, the gate, source and drain of which are the first, second and third terminals of the transistor switch, respectively.

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