JPS60259029A - Transmission controller - Google Patents

Abstract

PURPOSE:To attain control of plural devices with one set of infrared ray remote controller by providing a control terminal possible for operation by an infrared ray on a transmission communication line. CONSTITUTION:When the user controls a device 12 or 13, an operating input means 27 is operated. Input information of the operation input means 27 is transmitted to a signal modulation means 28, where a required control signal is modulated to an infrared ray and the result is transmitted from an infrared ray emitting element 20. The infrared ray signal C transmitted is received by an infrared ray photodetector 25, demodulated by a signal demodulation means 24 into the control signal, which is transmitted to an arithmetic and control means 23. The arithmetic and control means 23 decodes the inputted control signal, and when it is the control signal to the device 12 or 13, a signal being a control instruction is transmitted to a lighting line 11 via a communication means 22 so as to apply required control to the object device 12 or 13.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a transmission control device that controls communication between devices that are distributed in a distributed manner.

Conventional configurations and their problems In order to centrally control multiple devices or monitor the current status of devices, each device is connected with an electrical transmission channel and transmits control signals to each other. Various suitable transmission control methods have been reported.

-For example, commercial 1 is used to control electrical appliances in a general household.
There is a method of using a 00V power line as a transmission communication path. This system superimposes a communication signal voltage of a sufficiently higher frequency on the 50Hz or 60Hz AC voltage of the power line to communicate between each device, and does not require special wiring for control, so it is easy to install. It has the advantage of requiring little effort and cost.

Here, equipment refers to electrical appliances to be controlled, whether the electrical appliance is in an energized state (hereinafter referred to as ON state) or in a non-energized state (hereinafter referred to as OF state).
The sensor function and electrical appliances that detect whether
This refers to a combination of a control module that has a control function for N10FF control and a communication function for transmitting and receiving control signals with other devices.

Other equipment includes a communication function to send and receive control signals to and from each device, a control signal generation function to generate 0N10FF control signals to be transmitted to each device, and a monitor display function to display whether each device is in the ON or OFF state. There is a control terminal with.

A transmission control method using electric power lines will be explained in detail below using figures.

FIG. 1 is a block diagram of a conventional transmission control device using electric power lines. The electric light line 1 is a commercial 100V line located in a general household. The devices 2, 3 are each a combination of an electrical appliance 4, 5 and a control module 6.7, each connected to the power line 1. As mentioned above, the control module 6.7 has sensor, control, and communication functions.
It senses and controls the ON/OFF state of electric appliances 4 and 6 combined with itself, and also communicates with other devices using the power line 1 as a transmission communication path. The control terminal 8 is a type of equipment,
It is connected to the power line 1 and has communication, control signal generation and monitoring functions as described above. Each device also has an individual index number to distinguish it from other devices.

Now, suppose that the control terminal 8 is operated and a control request is received from the user to turn on the electric appliance 4 of the device 2. The control terminal 8 transmits a control signal consisting of its own index number, the index number of the device 2, and an ON command to the device 2 via the power line 1. As soon as the device 2 receives this control signal, the control module 6 controls the appliance 4 to turn on. When the sensor confirms that the electric appliance 4 has changed to the ON state, the control module 6 receives an index number of its own, an index number of the control terminal 8, and a notification command indicating that the electric appliance 4 has changed to the ON state. A control signal is transmitted to the control terminal 8 via the power line 1. When the control terminal receives this control signal, it displays on the monitor that the electric appliance 4 of the device 2 is in the ON state. The above is a series of transmission control processes.

Now, in the transmission control described above, the infrared remote control technology for individual devices has already been established. That is, for remote control of device 2, infrared remote control device 9 is used.
The infrared remote control device 1o is prepared for remote control of the device 3, and each device is controlled using one infrared remote control device. This is to prevent infrared signals A and B from interfering and causing malfunctions such as movement of equipment other than the intended one. Therefore, infrared remote control devices 9 and 1o must be used separately to transmit infrared signals A and B with different infrared wavelengths, signal modulation methods, signal information contents, etc. so that they can be distinguished from each other.

However, when the number of devices on the transmission communication path increases and all of the devices are controlled by infrared remote control, the number of infrared remote control devices increases unnecessarily, resulting in poor operability and increased costs, and the probability of malfunction due to interference increases. A problem arises. Malfunction of heating appliances and the like poses a major safety problem.

Furthermore, with conventional infrared remote control, it is only possible to control devices within the reach of infrared rays, that is, within the range visible to the user.Moreover, the infrared rays output from the infrared remote control device are directed toward the device to be controlled. had to operate.

As mentioned above, there are many problems when performing infrared remote control on conventional transmission control devices.

OBJECTS OF THE INVENTION It is an object of the present invention to provide a transmission control device that solves the problems of the prior art, has good operability, is inexpensive, does not malfunction, and is capable of safe infrared remote control.

Configuration of the Invention A transmission control device of the present invention comprises: a transmission communication path; a plurality of devices connected to the transmission communication path and subjected to transmission control; a control terminal connected to the transmission communication path and controlling the devices; It has an infrared remote control device for operating the control terminal, and a plurality of devices can be controlled by just one infrared remote control device.

Description of examples An embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a configuration diagram of a transmission control device showing an embodiment of the present invention.

The electric light line 11, which is a communication transmission line, is located in a general household. The appliances 12.13 are each a combination of an electrical appliance 14.15 and a control module 16.17, each connected to the power line 11. The control module 16.17 has sensor, control, and communication functions, and controls the 0N10FF of the electric appliance 14.15 combined with itself.
It senses and controls the status and communicates with the control terminal 18 via the power line 11. The control terminal 18 is a type of equipment and has communication, control signal generation and monitoring functions, and infrared mirror control signal reception functions. Infrared remote control equipment 19
The device has an infrared light emitting element 2° at the top of the housing so as to emit infrared light with the direction of the infrared light directed upward, and transmits an infrared signal C containing control details for the necessary equipment 12 or 13 when operated by the user. FIG. 3 shows the internal configuration of the control terminal 18 and the infrared remote control device 19. The control terminal 18 is attached to the ceiling 21 facing downward, and contains a communication means 22, an arithmetic control means 23, and a signal demodulation means 2.
4 and an infrared light receiving element 25. The infrared remote control device 19 is placed on a desk 26 and has an operation input means 27, a signal modulation means 28, and an infrared light emitting element 20 inside.

With the above configuration, when the user wants to control the device 12 or 13, the user operates the operation input means 27. The operation input means 2γ can be realized by a plurality of push button switches. The input information from the operation input means 27 is sent to the signal modulation means 28, which modulates the necessary control signal into infrared light and transmits it to the infrared light emitting element 20 as well. The transmitted infrared signal C is received by the infrared light receiving element 25, and the signal demodulating means 24
The signal is demodulated into a control signal and sent to the arithmetic control means 23. The arithmetic control means 23 decodes the input control signal and determines whether it is a control signal for the device 12 or 13,
A signal serving as a control command is sent to the power line 11 via the communication means 22.
and performs necessary control on the target device 12 or 13.

It also receives a signal consisting of a notification command to the effect that the control has been completed, if necessary.

As described above, in the transmission control device of the embodiment, the transmission communication path 1
A control terminal 18 that can be operated by infrared rays is provided on 1, and this is controlled by an infrared remote control device 19, thereby controlling a plurality of devices 12 or 13 on a transmission communication path using only one infrared remote controller 19. It becomes possible to do so. Therefore, there is no malfunction caused by interference, which was the case in the past. In addition, by providing the control terminal 18 on the ceiling or wall of the room, and providing the infrared light emitting element 20 of the infrared remote control device 19 on the top of the housing, the user can transmit and communicate without being aware of the direction of the infrared light. It is possible to operate all equipment on the line 11. Therefore, there is no need to use multiple infrared remote devices and direct them toward the device to be controlled, as was the case in the past. It is also possible to control equipment in other rooms where infrared light cannot reach easily. Here, the signal transmitted from the infrared remote control device 19 only needs to be delivered to the control terminal 18, and there is no need to send it to another room or another layer. Therefore, in contrast to remote control methods that use radio waves or ultrasonic waves, remote control methods that use infrared light do not receive signals outside the visible range, so they are less susceptible to interference caused by signals transmitted from similar devices. This is very advantageous.

Effects of the Invention The transmission control device of the present invention eliminates the poor operability and malfunctions caused by interference caused by the need for one infrared remote control device for each device in conventional device control.

It is also possible to control devices outside the visible range without interference.

In this way, the effects of improving the operability of remote control, improving the reliability of the control system, and thereby improving safety were achieved.

Furthermore, since only one infrared remote control device is required, and infrared signal receivers for each device are not required at all, the overall cost of the device can be significantly reduced. As described above, the present invention has high practical effects.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a conventional transmission control device, FIG. 2 is a block diagram showing an embodiment of the transmission control device of the present invention, and FIG.
The figure is a block diagram showing the internal configuration of the control terminal and infrared remote control equipment. 11...Light line, 12.13...Equipment, 1
8... Control terminal, 19... Infrared remote controller a20... Infrared light emitting element. Name of agent: Patent attorney Toshio Nakao and 1 other person No. 1
Figure/ Figure 2 Figure 3//

Claims (1)

[Scope of Claims] 0) A transmission communication path, a plurality of devices connected to the transmission communication path and whose transmission is controlled, a control terminal connected to the transmission communication path and controlling the devices, and a control terminal connected to the transmission communication path and controlling the devices. A transmission control device having an infrared remote control device for operation. (2) The control terminal is installed on the indoor ceiling or wall,
2. The transmission control device according to claim 1, wherein the infrared remote control device is provided with an infrared light emitting element so that the infrared light is directed upward. (3) The transmission control device according to claim 1 or 2, wherein the transmission communication path is a power line.