JPH1189116A - Network system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To cut standby power, by supplying power required when standing by via bus wirings in network systems including a home bus system. SOLUTION: A host computer (controlling device) 2 sends or receives control signals to or from electrical machinery and apparatus 3 and 4, respectively, and supplies standby power to the apparatus via a network bus 1. The apparatus 3 and 4 are connected to the host computer 2 via the network bus 1. Connected to a wall socket of a commercial power supply via a relay circuit 32, a main power supply circuit 33 of the apparatus 3 supplies power to an apparatus circuit 34. In the apparatus 33, power is supplied to a communication control device 31 via the network bus 1 and the control signals are exchanged with the host computer 2 to control the on-off of the relay circuit 32.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network system in which electric power of electric equipment during standby is reduced.

[0002]

2. Description of the Related Art In recent years, household electric appliances used in homes have a built-in microprocessor and are operated by an instruction from a remote controller, or require preheating by the appliances. It consumes power.

For example, televisions, video tape recorders,
It is common to operate an air conditioner or the like with a remote control. In addition, cordless telephones, fax machines, water heaters, emergency lights, and the like cannot perform their functions unless the power supply is constantly connected. The standby power consumption of these devices is 600 kWh per year even in a typical house.
/ Year (“Housing and Electrification”, February 1997), and the amount of electric power is extremely large in the region and the whole country.

[0004]

However, as a countermeasure for energy saving and environmental problems, it is required to reduce the amount of power generation, and it is necessary to reduce standby power.

[0005] In recent years, a home control system in which a network bus such as a home bus system is laid in a house and a plurality of electric devices are managed and controlled by a host computer has been receiving attention.

According to the present invention, for example, in a house where a network bus such as a home bus system is laid, a necessary minimum power is supplied via a bus wiring instead of the power supply circuit of the electric device itself during standby. Accordingly, it is an object to provide a network system that reduces standby power.

[0007]

In order to solve the above-mentioned problems, a network system according to a first aspect of the present invention comprises a network bus for connecting an electric device and a control device for controlling the electric device, A power supply for supplying power to the bus wiring, wherein the electric device is provided with communication / control means for receiving power supply from the bus wiring and controlling on / off of a main power supply of the device. Having a configuration.

According to the above configuration, in the network system according to the first aspect of the present invention, since the electric device receives power supply from the bus wiring and controls on / off of the main power supply of the device, the electric power supply is switched from the commercial power supply to the main power supply. Loss of a transformer or the like in the power supply circuit can be reduced as compared with the case where power during standby is supplied via the power supply circuit.

According to a second aspect of the present invention, in addition to the means for configuring the network system according to the first aspect, a control device connected to the network bus is provided to the communication / control means. And a control signal transmitting means for transmitting a control signal via the wiring of the bus.

[0010] With the above configuration, in the network system according to the second aspect of the present invention, since the control device sends a control signal to the communication / control means via a bus line, the control device transmits the control signal to each of the electric devices. Power on / off control can be performed.

According to a third aspect of the present invention, in addition to the means for configuring the network system according to the first aspect, the electric device connected to the network bus transmits a control signal from a remote controller. Remote control signal receiving means for receiving and transmitting this signal to the communication / control means is provided.

According to the above configuration, in the network system according to the third aspect of the present invention, the electric device receives the control signal from the remote controller and sends the signal to the communication / control means. ON / OFF control of the main power supply can be performed.

According to a fourth aspect of the present invention, there is provided a network system according to the first aspect, wherein the electric equipment connected to the network bus stores setting data for storing setting data. The data storage means is provided, and the setting data storage means receives power supply from the wiring of the bus.

According to the above configuration, in the network system according to a fourth aspect of the present invention, the electric device includes setting data storage means for storing setting data, and the setting data storage means supplies power from a bus line. Therefore, the setting data of the device is kept stored even when the main power is turned off.

According to a fifth aspect of the present invention, in addition to the means for configuring the network system according to the second aspect, the control device connected to the network bus includes setting data of the electric equipment. Is provided, and when the main power of the electric device is turned on, the setting data of the device is taken into the electric device from the control device.

According to the above configuration, in the network system according to the fifth aspect of the present invention, when the control device includes setting data storage means for storing setting data of the electric device, when the main power supply of the electric device is turned on. Since the setting data of the device is taken into the electric device from the control device, the device can be used in the same setting state as before turning off again when the main power is turned on.

[0017]

Embodiments of the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a configuration diagram of a network system according to a first embodiment of the present invention. Network bus 1
Are laid in houses to build home control systems. Host computer (control device)
2 transmits / receives control signals to / from electrical devices 3 and 4 via the network bus 1 and
Supply standby power (for example, 5V power supply). The transmission / reception of the control signal and the supply of the standby power can be performed using different wirings, or can be performed using a single wiring by superimposing the control signal on the power supply voltage.

The devices 3 and 4 are connected to a host computer 2 via a network bus 1. The main power supply circuit 33 of the device 3 is connected to a commercial power outlet via the relay circuit 32. And the main power supply circuit 33
Supplies power to the device circuit 34. In the device 3, power is supplied to the communication control unit 31 via the network bus 1, and the device 3 transmits and receives control signals to and from the host computer 2, and controls on / off of the relay circuit 32.

Similarly, in the device 4, power is supplied to the communication control unit 41 via the network bus 1 to transmit and receive control signals to and from the host computer 2. Also, the receiving unit 45 receives a remote control signal from a remote control (not shown),
The communication control section 41 controls the on / off of the relay circuit 42. Other configurations are the same as those of the device 3.

With the above configuration, the devices 3 and 4
Regardless of whether the main power is on or off, the communication control units 31 and 4
1 through a network bus 1 to a host computer 2
Is supplied with power. When the device is used (when the main power is turned on), the relay circuits 32 and 42 are turned on, and power is supplied to the main power circuits 33 and 43 from the outlet of the commercial power.
The device circuits 34 and 44 operate.

A signal for controlling the main power supply to be turned on / off from the host computer 2 via the network bus 1 is sent to the devices 3 and 4, and the communication control units 31 and 41 turn on / off the relay circuits 32 and 42. Control. When the main power is off,
The standby power is supplied to the communication control units 31 and 41 via the network bus 1, the relay circuits 32 and 42 are turned off, and the power is not supplied to the main power supply circuits 33 and 43.

A remote control signal for controlling the main power supply to be turned on / off is also transmitted from the remote control to the equipment 4. The remote control signal is received by the receiving unit 45, and the relay circuit 42 is turned on / off by the communication control unit 41. Control. In the communication control unit 41, a reception processing unit 41a performs a reception process on a signal from the reception unit 45, a relay control unit 41b generates a control signal for the relay circuit 42, and a relay drive unit 41c generates a relay circuit 42.
Drive. When the main power is off, standby power is supplied to the communication control unit 41 via the network bus 1, the relay circuit 42 is turned off, and no power is supplied to the main power circuit 43.

With the above configuration, it is possible to reduce the loss of the transformer and the like in the power supply circuit as compared with the case where the standby power is supplied from the commercial power supply via the main power supply circuit.

FIG. 2 is a configuration diagram of a home control system which is a network system according to a second embodiment of the present invention. In the present embodiment, the devices 5 and 6
Storage units 55 and 6 each serving as setting data storage means.
5 is provided. The device 5 and the device 6 can perform respective state settings, for example, setting of a channel and volume in the case of a television.

In the devices 5 and 6, in addition to the main power ON / OFF control signal, a status setting control signal can be transmitted from the host computer 2 via the network bus 1. When the communication control units 51 and 61 receive the control signal for turning off the main power supply, the setting data of the devices 5 and 6 at that time are stored in the storage units 55 and 65, and the relay circuits 52 and 62 are turned off. When a control signal for turning on the main power supply is received, the relay circuits 52 and 62 are turned on, and the state of the devices 5 and 6 is set using the setting data stored in the storage units 55 and 65, respectively. The devices 5 and 6 can be used in the same setting state as when the signal is received. These storage units 55 and 6
5 is supplied with standby power from the network bus 1 via the communication control units 51 and 61. Other configurations are first
This is the same as the devices 3 and 4 of the embodiment.

In the device 6, a control signal for setting the state together with a signal for on / off control of the main power supply is sent to a remote controller (not shown).
Can also be transmitted as a remote control signal. When the communication control unit 61 receives a remote control signal (control signal) for turning off the main power via the reception unit 66, the setting data of the device 6 at that time is stored in the storage unit 65, and the relay circuit 62 is turned off. When the main power-on remote control signal is received, the relay circuit 62 is turned on, the state of the device 6 is set using the setting data stored in the storage unit 65, and when the main power-off control signal is received, The device 6 can be used in the same setting state. The storage unit 65 is supplied with standby power from the network bus 1 via the communication control unit 61.

FIG. 3 is a configuration diagram of a home control system which is a network system according to a third embodiment of the present invention. In the present embodiment, the host computer 7 includes a storage unit 71 as a setting data storage unit.
In addition, the devices 3 and 4 set their respective statuses via the respective communication control units 31 and 41.

In each of the devices 3 and 4, a control signal for state setting is transmitted from the host computer 7 via the network bus 1 in addition to a signal for controlling on / off of the main power supply. When transmitting the control signal for turning off the main power, the host computer 7 stores the setting data of the devices 3 and 4 at that time in the storage unit 71. When transmitting the control signal for turning on the main power, the setting data of the devices 3 and 4 stored in the storage unit 71 is also transmitted. The communication control units 31 and 41 receive the control signal, turn on the relay circuits 32 and 42, and set the status of the devices 3 and 4 using the received setting data. Thus, the devices 3 and 4 can be used with the main power on in the same setting state as when the main power off control signal is received.
Other configurations are the same as those of the first embodiment.

In the device 4, a remote control signal for ON / OFF control of the main power supply of the device 4 and state setting control is also transmitted from a remote controller (not shown). When the communication control unit 41 receives a remote control signal for turning off the main power via the receiving unit 45, the relay circuit 42 is turned off. When the communication control unit 41 receives the remote control signal for turning on the main power via the receiving unit 45, the communication control unit 41 turns on the relay circuit 42 and transmits the setting data of the device 4 stored in the storage unit 71 to the host computer 7. Request to do so. Communication control unit 41
Then, the setting data is received from the host computer 7 via the network bus 1, and the device 4 can be used in the same setting state as when the main power-off control signal is received.
Other configurations are the same as those of the first embodiment.

When the device 4 receives a remote control signal for setting the status from the remote controller and sets the status, and then receives a signal for turning off the main power, the communication control unit 41 controls the host computer 7 via the network bus 1. After the setting data of the device 4 is sent to the storage unit 71, the relay circuit 42 is turned off, and the host computer 7 receives the setting data.
The setting data of the device 4 is stored in the storage device.

[0032]

As described above, in the network system according to the first aspect of the present invention, the electric equipment receives the power supply from the bus wiring and controls the main power supply of the equipment on and off. As compared with the case where the standby power is supplied via the main power supply circuit, the loss of the transformer and the like in the power supply circuit can be reduced, and the standby power can be reduced.
In the network system according to the second aspect of the present invention, since the control device sends a control signal to the communication / control means via the bus wiring, the control device performs on / off control of the main power supply of each electric device. Can build a network system.

In the network system according to the third aspect of the present invention, since the electric device receives the control signal from the remote controller and sends the signal to the communication / control means, the main power of each electric device is turned on from the remote controller.・ Off-control can be performed, which is convenient.

In the network system according to a fourth aspect of the present invention, the electric equipment includes setting data storage means for storing setting data, and the setting data storage means is supplied with power from a bus line. When the main power is turned on, the setting data of the device is continuously stored even when the device is turned off, and the device can be used in the same setting state as before turning off the device, which is convenient.

According to a fifth aspect of the present invention, there is provided the network system, wherein the control device includes setting data storage means for storing setting data of the electric device, and the setting data of the device is set when the main power supply of the electric device is turned on. Is taken into the electric device from the control device, the device can be used in the same setting state as before turning off again when the main power is turned on, which is convenient.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a network system according to a first embodiment of this invention.

FIG. 2 is a configuration diagram of a network system according to a second embodiment of this invention.

FIG. 3 is a configuration diagram of a network system according to a third embodiment of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 network bus 2 host computer 3, 4 device 31, 41 communication control unit 32, 42 relay circuit 33, 43 main power supply circuit 34, 44 device circuit 41a reception processing unit 41b relay control unit 41c relay drive unit 45 reception unit

Claims (5)

[Claims] 1. A network bus that connects an electric device and a control device that controls the electric device, and a power supply that supplies power to the bus wiring, wherein the electric device supplies power from the bus wiring. Receiving
A network system comprising communication / control means for controlling on / off of a main power supply of a device. 2. The control device connected to the network bus, further comprising control signal transmitting means for transmitting a control signal to the communication / control means via the wiring of the bus. The network system according to 1. 3. An electric device connected to the network bus, further comprising a remote control signal receiving means for receiving a control signal from a remote control and transmitting the control signal to the communication / control means. Item 2. The network system according to Item 1. 4. An electric device connected to the network bus includes setting data storage means for storing setting data, wherein the setting data storage means receives power supply from wiring of the bus. The network system according to claim 1, wherein: 5. A control device connected to the network bus, further comprising: setting data storage means for storing setting data of the electric device, wherein the setting data of the device is turned on when a main power supply of the electric device is turned on. The network system according to claim 2, wherein the control unit loads the control device from the control device to the electric device.