JP2001338368A - Multiplex transmission system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multiplex transmission system capable of reducing the power consumption supplied from a prescribed multiplex transmitting device during monitoring a sensor input, etc., in another multiplex transmitting device. SOLUTION: The other multiplex transmitting device 2 is provided with a monitoring mode for monitoring the sensor input, etc., and an operation mode for performing a prescribed alarm operation or the like to the sensor input, etc., and can mutually switch these modes and perform the modes.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of connecting a plurality of multiplex transmission apparatuses via a common multiplex transmission line and a power supply line, and a predetermined multiplex transmission apparatus is connected to another multiplex transmission apparatus by a power supply line. To improve the multiplex transmission system in which power is supplied through the multiplex transmission apparatus to operate another multiplex transmission apparatus.

[0002]

2. Description of the Related Art Recently, a multiplex transmission system has been introduced for the purpose of security alarms and the like. In this system, a plurality of multiplex transmission devices such as a security alarm device are connected to a common multiplex transmission line and a power supply line. And a predetermined multiplex transmission apparatus supplies power to another multiplex transmission apparatus via a power supply line to operate the other multiplex transmission apparatus. By performing bidirectional communication between the transmission device and another multiplex transmission device via a multiplex transmission line, the input of sensors connected to these devices is monitored, and if there is a sensor input, these inputs are monitored. The device performs a predetermined alarm operation by sound or light.

[0003]

However, in the above-mentioned conventional multiplex transmission system, the power supplied from a predetermined multiplex transmission device to another multiplex transmission device is used when a sensor input or the like is monitored and an alarm operation for the sensor input or the like is performed. Sometimes,
Since a constant voltage value, that is, a voltage value (for example, 12 V) suitable for operating all circuits of the other device, such as relay control, display, and sound output, the other device monitors the voltage. As a result, a power supply that is higher than the required voltage value is supplied, and most of the supplied power is wasted.

In other apparatuses, when monitoring, a means for controlling the apparatus and a means for communicating with a predetermined apparatus are operated, but the voltage required for operating these means is a small voltage value ( For example, in order to obtain a power supply having such a small voltage value, an expensive DC
-The remaining power supply that uses a DC converter and obtains a power supply with a small voltage value is wasted because it is consumed as heat.

The present invention has been made in view of the above circumstances. In other multiplex transmission devices, when monitoring a sensor input or the like, a multiplex transmission device capable of reducing power consumption from a predetermined multiplex transmission device. It is intended to provide a transmission system.

[0006]

To achieve the above object, a multiplex transmission system according to claim 1 of the present invention comprises:
Other multiplex transmission apparatuses have a monitoring mode for monitoring a sensor input and the like and an operation mode for performing a predetermined alarm operation and the like on the sensor input and the like, and these modes can be switched and executed.

In the multiplex transmission system according to the second aspect,
The other multiplex transmission device switches between the monitoring mode and the operation mode by communicating with a predetermined multiplex transmission device via a multiplex transmission line.

[0008] In the multiplex transmission system according to the third aspect,
While the other multiplex transmission device is executing the monitoring mode, the predetermined multiplex transmission device supplies power necessary for executing the monitoring mode to the other multiplex transmission device, and the other multiplex transmission device supplies the power to the other multiplex transmission device. When the mode is switched to the operation mode, the power necessary for executing the operation mode is supplied to the other multiplex transmission apparatuses.

[0009] In the multiplex transmission system according to the fourth aspect,
The power supply voltage required to execute the monitoring mode is smaller than the power supply voltage required to execute the operation mode, and the minimum power supply required to execute the monitoring mode and the operation mode The necessary power is supplied continuously.

[0010] In the multiplex transmission system according to claim 5,
The power supply voltage value required to execute the monitor mode is equal to the power supply voltage value required to execute the operation mode,
The minimum power required to execute the monitoring mode is intermittently supplied, and the power required to execute the operation mode is continuously supplied.

[0011]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram showing an example of a configuration of a main part of a multiplex transmission system according to the present invention.

In this system, a plurality of multiplex transmission devices 1 and 2, such as a security alarm device, are connected via a common multiplex transmission line L1 and a power supply line L2. Power is supplied to the other multiplex transmission device 2 via the power supply line L2, and the other multiplex transmission device 2 is operated.

A predetermined multiplex transmission apparatus 1 and another multiplex transmission apparatus 2 perform bidirectional communication via a multiplex transmission line L1 to input signals from sensors connected to these apparatuses 1 and 2. If there is a sensor input, these devices 1 and 2 perform a predetermined alarm operation by sound or light.

The predetermined multiplex transmission apparatus 1 has a configuration as shown in FIG. 2, and a CPU 10 for controlling the following units.
A communication control unit 11 that controls communication with another multiplex transmission device 2 and a monitor that supplies power necessary to execute the monitoring mode while the other multiplex transmission device 2 is executing the monitoring mode. When the time multiplex power supply unit 12 and the other multiplex transmission device 2 switch to the operation mode, the operation power supply unit 13 that supplies power required to execute the mode is connected to the power supply line L2. And a port P2 for connecting the multiplex transmission line L1.

The other multiplex transmission apparatus 2 has a configuration as shown in FIG. 3, and has a CPU 2 for controlling the following units.
0, a communication control unit 21 that controls communication with the predetermined multiplex transmission device 1, a constant voltage unit 22 that converts a power supply from the multiplex transmission device 1 into a predetermined constant voltage, and a drive of the notification unit 24. A drive control unit 23 for controlling, a notification unit 24 including a display unit and a sound output unit, a port P3 for connecting a power supply line L2, and a port P4 for connecting a multiplex transmission line L1. Prepare.

In such a configuration, in the system of the present invention, the other multiplex transmission device 2 has a monitoring mode for monitoring a sensor input or the like and an operation mode for performing a predetermined alarm operation or the like on the sensor input or the like. These modes can be mutually switched and executed by performing communication with a predetermined multiplex transmission apparatus 1. This operation will be described with reference to a time chart of FIG.

That is, the predetermined multiplex transmission apparatus 1
The on / off control of U10 selects which of the monitoring power supply unit 12 and the operation power supply unit 13 is to be used to supply power. When the other multiplex transmission apparatus 1 is executing the monitoring mode, The power supply (here, 7 V) is supplied from the monitoring power supply unit 12 to the other multiplex transmission devices 2.

When, for example, there is a sensor input to the other multiplex transmission apparatus 2, the other multiplex transmission apparatus 2 notifies a predetermined multiplex transmission apparatus 1 of the fact that there is a sensor input. Is transmitted, and the multiplex transmission apparatus 1 which has received this transmits a signal for switching to the operation mode to the other multiplex transmission apparatuses 2. Then, the multiplex transmission device 2
Switches from the monitoring mode to the operation mode, and upon detecting this, the predetermined multiplex transmission device 1 stops supplying power from the monitoring power supply unit 12 and starts supplying power from the operation power supply unit 13 and receives the power supply. The multiplex transmission device 2 outputs a predetermined alarm.

When the sensor input to the other multiplex transmission device 2 is completed, the other multiplex transmission device 2 sends a signal to the predetermined multiplex transmission device 1 to notify that the sensor input has been completed. , The multiplex transmission apparatus 1 receiving this,
A signal for switching to the monitoring mode is transmitted to another multiplex transmission device 2. Then, the multiplex transmission device 2 stops the alarm output, switches from the operation mode to the monitoring mode, and the predetermined multiplex transmission device 1 that has detected this stops the power supply from the operation power supply unit 13 and supplies the monitoring power supply. Power supply from the unit 12 is started.

Further, the system of the present invention may operate as shown in the time chart of FIG. 5, and a predetermined multiplex transmission apparatus 1 monitors another multiplex transmission apparatus 2 by another multiplex transmission apparatus 2. Although the power of the same voltage value (12 V in this case) is supplied during execution of both the operation mode and the operation mode,
The other multiplex transmission device 2 supplies power intermittently in the monitoring mode, and the other multiplex transmission device 2 continuously supplies power in the operation mode.

In order to enable such an operation, devices 1A and 2A shown below are provided as multiplex transmission devices. The multiplex transmission device 1A has a CPU 1 as shown in FIG.
0, a communication control unit 11, ports P1 and P2 (all described above), and a power supply unit 14 is provided, and power is supplied intermittently or continuously by ON / OFF control of the CPU 10. . In addition, the multiplex transmission device 2A
As shown in FIG. 7, in addition to the CPU 20, the communication control unit 21, the drive control unit 23, the notification unit 24, the ports P3 and P4 (all described above), the power supplied intermittently from the multiplex transmission device 1 is rectified. The rectifier 25 is provided.

[0022]

As can be understood from the above description, in the multiplex transmission system according to the first aspect of the present invention, the other multiplex transmission devices are provided in a monitoring mode for monitoring sensor inputs and the like, and a sensor input and the like. An operation mode for performing a predetermined alarm operation or the like is provided, and these modes can be switched and executed. Therefore, when monitoring a sensor input or the like, consumption of power supplied from a predetermined multiplex transmission device is reduced. can do.

In the multiplex transmission system according to the second aspect,
The other multiplex transmission device switches between the monitoring mode and the operation mode by communicating with the predetermined multiplex transmission device via the multiplex transmission line, so that the predetermined multiplex transmission device or another multiplex transmission device When a device receives a sensor input or the like, the devices can communicate with each other, switch the mode of another multiplex transmission device, and output a predetermined alarm.

In the multiplex transmission system according to the third aspect,
While the other multiplex transmission device is executing the monitoring mode, the predetermined multiplex transmission device supplies power necessary for executing the monitoring mode to the other multiplex transmission device, and the other multiplex transmission device supplies the power to the other multiplex transmission device. When the mode is switched to the operation mode, the power necessary for executing the operation mode is supplied to the other multiplex transmission apparatuses. The operation can be performed only by the above, and the same effect as the first aspect can be exhibited.

In the multiplex transmission system according to the fourth aspect,
Since the voltage value of the power supply required to execute the monitoring mode is smaller than the voltage value of the power supply required to execute the operation mode, the other multiplex transmission devices require the minimum voltage value at the time of monitoring. It can be operated by a power supply, and the same effects as those of the first aspect can be exhibited.

In the multiplex transmission system according to the fifth aspect,
The power supply voltage value required to execute the monitor mode is equal to the power supply voltage value required to execute the operation mode,
Since the minimum power required to execute the monitoring mode is intermittently supplied, the other multiplex transmission apparatus can operate with the power supply having the minimum voltage required at the time of monitoring. Similar effects can be exerted.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an example of a main configuration of a multiplex transmission system according to the present invention.

FIG. 2 is a diagram illustrating an example of a main configuration of a predetermined multiplex transmission device.

FIG. 3 is a diagram illustrating an example of a main configuration of another multiplex transmission device.

FIG. 4 is a time chart for explaining an example of the operation of the multiplex transmission system of the present invention.

FIG. 5 is a time chart for explaining another example of the operation of the multiplex transmission system of the present invention.

FIG. 6 is a diagram illustrating another example of a main configuration of a predetermined multiplex transmission device.

FIG. 7 is a diagram showing another example of a main configuration of another multiplex transmission device.

[Explanation of symbols]

 1: predetermined multiplex transmission device 2: other multiplex transmission device L1: multiplex transmission line L2: power supply line

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Nobuaki Miyaji, 1048 Kadoma Kadoma, Osaka Prefecture, Matsushita Electric Works, Ltd. Reference) 5C087 DD05 EE10 FF01 FF04 GG69 5K028 AA00 CC05 DD01 DD02 EE09 JJ01 MM12 MM14 SS29 5K029 AA13 BB06 DD02 EE19 5K048 AA16 BA21 DC04 EA01 EB02 EB10 HA04 HA06 HA32

Claims (5)

[Claims] A plurality of multiplex transmission apparatuses are connected via a common multiplex transmission line and a power supply line, and a predetermined multiplex transmission apparatus supplies power to another multiplex transmission apparatus via the power supply line. In the multiplex transmission system that supplies and operates the other multiplex transmission device, the other multiplex transmission device performs a monitoring mode for monitoring a sensor input and the like, and performs a predetermined alarm operation on the sensor input and the like. A multiplex transmission system comprising an operation mode and being capable of switching between these modes for execution. 2. The monitoring mode and the operation mode according to claim 1, wherein the another multiplex transmission apparatus communicates with the predetermined multiplex transmission apparatus via the multiplex transmission line. Multiplex transmission system, characterized by switching between the two. 3. The monitoring device according to claim 1, wherein the predetermined multiplex transmission device performs the monitoring on the other multiplex transmission device while the other multiplex transmission device is executing the monitoring mode. The power supply required to execute the operation mode is supplied to the other multiplex transmission device when the other multiplex transmission device is switched to the operation mode. A multiplex transmission system, characterized by supplying 4. The power supply voltage value required to execute the monitoring mode according to claim 3,
The minimum power supply required to execute the monitoring mode and the power supply required to execute the operation mode, which are smaller than the voltage value of the power supply required to execute the operation mode, are continuously supplied. Multiplex transmission system characterized by being performed. 5. A power supply voltage value required to execute the monitoring mode according to claim 3,
The voltage value of the power supply required to execute the operation mode is equal to the minimum power supply required to execute the monitoring mode, and the power supply required to execute the operation mode is intermittently supplied. A multiplex transmission system characterized by being continuously supplied.