JPH0545991U - Signal light drive - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To provide a complete multiplex signal light drive device capable of surely shutting off the drive current of a short-circuited system and being driven by another normal system. [Structure] Each of the switch circuits 11 and 12 is connected in parallel to each other and in series to the signal lamp 2 and is connected to a control circuit 14
Drive signal 141, 142 supplied from the signal lamp 2
Drive current IL is supplied to. The voltage detection circuit 13 detects the terminal voltage of the switch circuit 11 and supplies the voltage detection signal 131 to the control circuit 14. The control circuit 14 drives the drive signal 14
When the predetermined voltage detection signal 131 is obtained even though 1 is not supplied, the abnormality detection signal 143 is generated. The shunt circuit 15 is connected in parallel to the signal lamp 2 and is connected to the control circuit 1
The drive current IL supplied to the signal lamp 2 is shunted by the abnormality detection signal 143 supplied from No. 4. The fuse 161 is connected in series with the switch circuit 11 and blows when there is a shunt current Is.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a multiple system signal light driving device.

[0002]

[Prior Art]

 In order to prevent the signal lamp from being extinguished due to a failure of the switch circuit, this type of signal lamp driving device is generally a multiple system including at least two switch circuits.

FIG. 4 is a block diagram showing a configuration of a conventional multiplex type signal light driving device. In the figure, 1 is a drive circuit, 2 is a signal lamp, 3 is a transformer, and 4 is a relay.

The drive circuit 1 has switch circuits 11 and 12, a voltage detection circuit 131, and a control circuit 14. The switch circuits 11 and 12 are connected in parallel to each other and in series with the signal lamp 2, and drive signals 141 and 142 supplied from the control circuit 14 supply a drive current IL to the signal lamp 2. Each of the switch circuits 11 and 12 only needs to be able to turn on / off the power supply, and can be configured by a solid state relay (hereinafter referred to as SSR) or the like. The voltage detection circuit 131 detects the terminal voltage of the switch circuits 11 and 12 and supplies the voltage detection signal 132 to the control circuit 14. The control circuit 14 generates the abnormality detection signal 143 when the predetermined voltage detection signal 132 is obtained although the drive signals 141 and 142 are not supplied. The abnormality detection signal 143 is supplied to the relay-4, and the relay-4 shuts off the primary side of the transformer 3. As a result, the supply of the drive current IL to the signal lamp 2 is cut off when the switch circuits 11 and 12 are short-circuited.

FIG. 5 is a block diagram showing another configuration of a conventional multiplex type signal light driving device. In the figure, the same reference numerals as those in FIG. 4 denote the same components. Reference numerals 17 and 18 are cut-off circuits in case of an abnormality.

Each of the abnormal-time cutoff circuits 17 and 18 is normally conducted, and is a circuit that cuts off the supply of the drive current to the signal lamp 2 when the switch circuits 11 and 12 have a short failure. The switch circuits 11 and 12 are connected in series. The abnormal-time cutoff circuits 17 and 18 are composed of SSRs and the like like the switch circuits 11 and 12. The voltage detection circuit 131 is connected in parallel with a series circuit of the abnormal time cutoff circuit 17 and the switch circuit 11 and a series circuit of the abnormal time cutoff circuit 18 and the switch circuit 12. As a result, when the control circuit 14 does not supply the drive signals 141 and 142 and the predetermined voltage detection signal 132 is obtained, a short circuit failure occurs in either the switch circuit 11 or 12. It can be determined that it is occurring. However, since the control circuit 14 cannot specify which of the switch circuits 11 and 12 is causing the short-circuit failure, the control circuit 14 alternately supplies the cut-off signals 144 or 145 to the cut-off circuits 17 and 18 at the time of abnormality. The system causing the short fault is judged by disconnecting the wires one by one. After that, the control circuit 14 supplies the shutoff signal 144 or 145 to the shutoff circuit 17 or 18 at the time of abnormality of the system in which the short circuit has occurred.

[0007]

[Problems to be solved by the device]

 However, the above-mentioned conventional signal light drive device has the following problems. (A) In the conventional example shown in FIG. 4, extinguishing of lights by a disconnection failure of the switch circuit is prevented, but when a short circuit failure occurs in any of the switch circuits 11 and 12, the failure of the system is cut off. Since the main power source 5 is cut off by the relay 4, the signal lamp 2 cannot be turned on thereafter, and a complete multiplex system is not formed. (B) In the conventional example shown in FIG. 5, the system having the short circuit can be shut off by making the control circuit 14 into a complicated circuit configuration. However, the switch circuits 11 and 12 cause the short circuit. The main cause is overcurrent, and the fault shutoff circuits 17 and 18 that have the same circuit configuration as the switch circuits 11 and 12 are also likely to cause the same short circuit fault, resulting in shutoff. There are things you can't do.

Therefore, an object of the present invention is to solve the above-mentioned problems, to surely shut off the drive current of a system having a short circuit failure, and to be driven by another normal system. A drive device is provided.

[0009]

[Means for Solving the Problems]

 In order to solve the above-mentioned problems, the present invention is a signal lamp drive device having a signal lamp and a drive circuit, wherein the drive circuit includes a switch circuit, a voltage detection circuit, a control circuit, and a shunt circuit, And a plurality of switch circuits, each of which is connected in parallel to each other and is connected in series to the signal lamp and supplies a drive current to the signal lamp by a drive signal supplied from the control circuit. , The voltage detection circuit detects the terminal voltage of the switch circuit and supplies a voltage detection signal to the control circuit, and the predetermined voltage detection signal is obtained even though the control circuit does not supply the drive signal. When an abnormality detection signal is generated, the shunt circuit is connected in parallel to the signal lamp and the drive current is shunted by the abnormality detection signal supplied from the control circuit. Wherein the blowing when the switching circuit to provide a pressure detecting circuit there is connected in series shunt current.

[0010]

[Action]

 The drive circuit has a plurality of switch circuits, each of which is connected in parallel to each other and connected in series to the signal lamp and supplies a drive current to the signal lamp by the drive signal supplied from the control circuit. Even if there is a disconnection failure, the signal lamp can be turned on by supplying the drive current from the switch circuit of another system.

The voltage detection circuit detects the terminal voltage of the switch circuit and supplies the voltage detection signal to the control circuit, and the predetermined voltage detection signal is obtained even though the control circuit does not supply the drive signal. Sometimes an abnormality detection signal is generated, a shunt circuit is connected in parallel to the signal lamp, the drive current is shunted by the abnormality detection signal supplied from the control circuit, and the fuse is connected in series to a switch circuit that has a voltage detection circuit. Since it is designed to blow off when there is a shunt current, the drive current of the system in which the short circuit has occurred is cut off, and the signal lamp can be turned on normally by the drive current from the normal system.

As a result, it is possible to provide a complete multiplex system signal light drive device that can shut off the drive current of the system in which the short circuit has occurred and can be driven by another normal system.

Further, since the drive current of the system having the short circuit failure is cut off by fusing the fuse, the problem of the short circuit failure of the conventional abnormal time cutoff circuit does not occur, and the short circuit does not occur. It is possible to provide an inexpensive signal light drive device that can reliably cut off the drive current of a defective system. Further, it is possible to provide a signal lamp drive device capable of protecting the switch circuit by melting the fuse even when an overcurrent which causes a short circuit failure of the switch circuit flows.

[0014]

【Example】

 FIG. 1 is a block diagram showing a configuration of a multiplex type signal light driving device according to the present invention. In the figure, the same reference numerals as those in FIG. 4 denote the same components. Reference numeral 15 is a shunt circuit, and 161 is a fuse.

In the drive circuit 1 of this embodiment, normally, the switch lamp 11 drives the signal lamp 2, and when an abnormality is detected, it is switched to the switch circuit 12 to form a multiplex system.

The shunt circuit 15 is connected in parallel to the signal lamp 2 and shunts the drive current IL supplied to the signal lamp 2 by the abnormality detection signal 143 supplied from the control circuit 14. The fuse 161 is connected in series with the switch circuit 11 provided with the voltage detection circuit 131, and blows when there is a shunt current Is. Generally, the fuse 161 is blown by a current of about 1.3 times the rated current, so the shunt current Is is set so as to exceed 1.3 times the rated current together with the drive current IL of the signal lamp 2. To be done. In this embodiment, the shunt circuit 15 is composed of a resistor 151 and a switch 152. The switch 152 is composed of an SSR similar to the switch circuit 11.

In the drive circuit 1 of the present embodiment, when the control circuit 14 supplies the drive signal 141, the switch circuit 11 is turned on, and the terminal voltage of the switch circuit 11 becomes substantially zero volt. Therefore, when the voltage detection signal 132 of the power supply voltage Vin is obtained despite the supply of the drive signal 141, the control circuit 14 can determine that the switch circuit 11 has a disconnection fault. At this time, the control circuit 14 supplies the drive signal 142 to the switch circuit 12 to turn on the signal lamp 2. On the contrary, when the control circuit 14 does not supply the drive signal 141, the switch circuit 11 is turned off and the terminal voltage of the switch circuit 11 becomes the power supply voltage Vin. Therefore, when the voltage detection signal 132 of zero volt is obtained even though the drive signal 141 is not supplied, the control circuit 14 can determine that the switch circuit 11 is short-circuited, and the abnormality is detected. The detection signal 143 is generated.

As described above, in the drive circuit 1, the switch circuits 11 and 12 are connected to each other in parallel and in series to the signal lamp 2, and the drive signals 141 and 142 supplied from the control circuit 14 cause the signal lamp 2 to operate. Since the drive current IL is supplied, even if the switch circuit of one system, for example, the switch circuit 11 has a disconnection failure, the signal light 2 can be turned on by the supply of the drive current IL from the switch circuit 12 of the other system. ..

The voltage detection circuit 131 detects the terminal voltage of the switch circuit 11 and supplies the voltage detection signal 132 to the control circuit 14, and the control circuit 14 does not supply the drive signal 141, but a predetermined voltage. When the detection signal 132 is obtained, the abnormality detection signal 143 is generated, the shunt circuit 15 is connected in parallel to the signal lamp 2 and the drive current IL is shunted by the abnormality detection signal 143 supplied from the control circuit 14, and the fuse 161 is supplied. Is connected in series with the switch circuit 11 provided with the voltage detection circuit 131, and is blown out when there is a shunt current Is. Therefore, the drive current of the system in which the short circuit has occurred, that is, the drive from the switch circuit 11 The current IL is cut off, and the signal light can be normally turned on by the drive current of the normal system, that is, the drive current IL from the switch circuit 12. It

As a result, it is possible to provide a complete multiplex system signal light drive device that can shut off the drive current of the system in which the short circuit has occurred and can be driven by another normal system.

Further, since the drive current IL of the system having the short circuit failure is cut off by melting the fuse 161, the problem of the short circuit of the conventional circuit for breaking the abnormal time does not occur. It is possible to provide an inexpensive signal lamp drive device capable of reliably interrupting the drive current IL of the system in which the short circuit has occurred. Further, it is possible to provide a signal light drive device capable of protecting the switch circuit 11 by melting the fuse 161 even when an overcurrent which causes a short circuit failure flows in the switch circuit 11.

FIG. 2 is a block diagram showing the configuration of another embodiment of the signal light driving device of the multiplex system according to the present invention. The same reference numerals as those in FIG. 1 denote the same components. 162 is a fuse and 133 is a voltage detection circuit.

The fuse 162 is connected to the switch circuit 12 in series. The voltage detection circuit 133 is connected in parallel to the switch circuit 12 and supplies the voltage detection signal 134 to the control circuit 14. As a result, even after switching from the switch circuit 11 to the switch circuit 12, the same operation and effect as in the embodiment of FIG. 1 can be obtained.

FIG. 3 is a block diagram showing a configuration of still another embodiment of the signal light driving device of the multiplex system according to the present invention. In the figure, the same reference numerals as those in FIG. 1 denote the same components.

The drive circuit 1 of the present embodiment normally drives the signal lamp 2 by a multiple system of the switch circuits 11 and 12, and shuts off the system when either of the switch circuits 11 and 12 has a short failure. , The normal system is designed to operate normally.

The drive circuit 1 has fuses 161 and 162, and the fuses 161 and 162 are connected in series to the switch circuits 11 and 12, respectively. The voltage detection circuit 131 detects the terminal voltage of the series circuit of the fuse 161 and the switch circuit 11, and the terminal voltage of the series circuit of the fuse 162 and the switch circuit 12. Therefore, even if either of the switch circuits 11 and 12 is short-circuited, the control circuit 14 generates the abnormality detection signal 143. When the abnormality detection signal 143 is supplied to the shunt circuit 15, since the switch circuit of a normal system, for example, the switch circuit 12 is off, the fuse 161 in the system having the short circuit failure is present. Only the fuse is blown, and the supply of the drive current IL from the system having the short circuit is cut off. As a result, the drive current IL of the system having the short circuit is cut off, and the signal light 2 can be normally turned on by the drive current IL from another normal system.

Although the above-described embodiments have been described by taking the double system as an example, the present invention is also applicable to the triple system or more. Moreover, it is premised that two or more switch circuits do not have a short circuit fault at the same time. For the above, a shunt circuit may be added as necessary to secure the fuse blowing current.

[0028]

[Effect of the device]

 As described above, according to the present invention, the following effects can be obtained. (A) The drive circuit has a plurality of switch circuits, each of which is connected in parallel to each other and connected in series to the signal lamp and supplies a drive current to the signal lamp by a drive signal supplied from the control circuit. It is possible to provide a signal lamp drive device capable of lighting a signal lamp by supplying a drive current from a switch circuit of another system even if the switch circuit of the system is broken. (B) The voltage detection circuit detects the terminal voltage of the switch circuit and supplies the voltage detection signal to the control circuit. Even if the control circuit does not supply the drive signal, the predetermined voltage detection signal is obtained. Generates a fault detection signal, the shunt circuit is connected in parallel to the signal lamp, and the drive current is shunted by the fault detection signal supplied from the control circuit, and the fuse is connected in series to the switch circuit that has the voltage detection circuit. Since it is designed to blow out when there is a shunt current, the drive current of the system that has a short circuit is cut off, and a signal lamp drive device that can turn on the signal lamp normally by the drive current from the normal system is installed. Can be provided. (C) Since the drive current of the system with the short circuit fault is cut off by melting the fuse, the problem of short circuit in the conventional circuit for abnormal shutdown does not occur, and the short circuit occurs. It is possible to provide an inexpensive signal light drive device that can reliably cut off the drive current of the system. (D) It is possible to provide a signal lamp drive device capable of protecting the switch circuit by melting the fuse even when an overcurrent causing a short circuit failure of the switch circuit flows.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a signal light driving device of a multiplex system according to the present invention.

FIG. 2 is a block diagram showing the configuration of another embodiment of the signal light driving device of the multiplex system according to the present invention.

FIG. 3 is a block diagram showing a configuration of still another embodiment of the signal light driving device of the multiplex system according to the present invention.

FIG. 4 is a block diagram showing a configuration of a conventional multiplex signal light drive device.

FIG. 5 is a block diagram showing another configuration of a conventional multiplex signal light drive device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 drive circuit 11, 12 switch circuit 131 voltage detection circuit 132 voltage detection signal 14 control circuit 141, 142 drive signal 143 abnormality detection signal 15 shunt circuit 161, 162 fuses fuse drive current Is shunt current

Claims (2)

[Scope of utility model registration request] 1. A signal lamp driving device having a signal lamp and a driving circuit, wherein the driving circuit has a switch circuit, a voltage detection circuit, a control circuit, a shunt circuit, and a fuse. A plurality of the switch circuits, each of which is connected in parallel to each other, and which is connected in series to the signal lamp, supplies a drive current to the signal lamp by a drive signal supplied from the control circuit, and the voltage detection circuit of the switch circuit The terminal voltage is detected and a voltage detection signal is supplied to the control circuit, and when the control circuit does not supply the drive signal, an abnormality detection signal is generated when a predetermined voltage detection signal is obtained. , The shunt circuit is connected in parallel to the signal lamp, the drive current is shunted by the abnormality detection signal supplied from the control circuit, and the fuse is provided with the voltage detection circuit. Signal lamp drive device, characterized in that the blown when there is serially connected to the shunt current in the circuit. 2. The fuse is provided for each of the switch circuits, and the voltage detection circuit detects a terminal voltage of a series circuit of the fuse and the switch circuit. The signal light drive device according to claim 1.