JPH0357696B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a transmission control device between devices arranged in a distributed manner.

BACKGROUND ART Conventionally, this type of remote control device has had a configuration as shown in FIG. In the figure, 1 is a power line that also serves as a transmission channel for transmitting communication signals, and 2
is a controller for turning on and off the load 7 by remote control, and the operation means 3 is operated by the user.
When an operation request is made to the operating means 3, a corresponding communication signal is created and this signal is transmitted to the communication means 5, and when the communication means 5 receives a signal on the power line 1, it generates a corresponding communication signal. a calculation means 4 that displays the necessary information using a display means (not shown) according to the conditions; and a calculation means 4 that receives a signal from the calculation means 4 and transmits this signal onto the power line 1; A communication means 5 is provided for receiving the signal and transmitting the signal to the calculation means 4. Reference numeral 6 denotes an adapter to which a load 7 is connected, which receives communication from the controller 2 and controls the load 7 to turn on and off by remote control, and also controls the load 7 to turn on and off by itself without using remote control. It has the ability to This adapter 6 receives a signal on the power line 1 and transmits this signal to the calculation means 10, and also transmits this signal onto the power line 1 when it receives a signal from the calculation means 10 that the control of the load 7 has been completed. When a signal from the communication means 9 and the controller 2 is received via the communication means 9, the drive means 12 is driven to generate a signal to control the load 7.
When the control is completed, the load control means 8 receives this signal via the drive means 12, and the calculation means 10 creates a signal to be sent back to the controller 2, and the linear load 7 is turned on and off without going through the controller 2. The load 7 is turned on and off by the operation means 11 operated by the user and the signal from the controller 2 or the signal from the drive means 12, and the signal when the on/off control is completed is sent to the drive means. Load control means 8 consisting of a relay etc. that sends data to 12
Then, the load control means 8 is driven in response to a signal from the calculation means 10, and a signal indicating completion of on/off control is received from the load control means 8, and this signal is sent to the calculation means 1.
0.

With the above configuration, load 7 is connected to controller 2.
The on/off control is performed remotely from the adapter 6, or the on/off control is performed directly from the adapter 6, and the control results are displayed on a display means included in the controller 2, so that the user can judge the state of the load 7. It is something that

Problems to be Solved by the Invention However, with the above configuration, although it is possible to control the load to be turned on and off immediately by operating the operating means 3 or 11, the on state is maintained for a certain period of time after the operation, and then the load is turned on and off. There was a problem in that it was not possible to perform off-delay control such as when it was desired to turn it off. For example, it would be more convenient for the ventilation fan in the restroom to remain on for a while while the restroom is being used and for a while after the restroom is used, and then turn off automatically. It would be more convenient to keep it on for a while after leaving the room and then turn it off automatically.

The present invention solves the problems of the conventional configuration, and provides a transmission control device having an off-delay function that can maintain an on state for a while after an off operation and then automatically turn off. The purpose is to

Means for Solving the Problems In order to achieve this object, the present invention adds an off-delay function consisting of a judgment means and a delay means to an adapter of a conventional transmission control device. When a control request to turn off the load occurs, the judgment means recognizes this and delays the load off control for a certain period of time using the delay means. When an off control request is received, the load is immediately turned off.

Function This configuration adds an off-delay function that keeps the load on for a while and turns off the load after a certain period of time when an off control request is made to the adapter operating means, making it extremely easy to use. This realizes a transmission control device with good performance.

Embodiment A first embodiment of the transmission control device of the present invention will be described below.
This will be explained based on the diagram.

1 to 12 in the figure are the same as those explained in the conventional example, and their explanation will be omitted here. 13, the signal received from the calculation means 10 is transmitted to the controller 2.
or from the operating means 11 within the device itself, and turns on the load 7 using the signal transmitted from the controller 2 and the signal transmitted from the operating means 11. If the signal is a command to turn off the load, the signal is sent directly to the drive means 12, and if the signal is a command to turn off the load, the signal is sent to the delay means 14. It is. Note that the determining means 13 also has the function of receiving a signal returned from the load controlling means 8 via the driving means 12 when the control of the load 7 is completed, and transmitting it to the calculating means 10. 14 is judgment means 1
This delay means receives the transmission from 3, suspends the transmission for a certain period of time after reception, and sends a signal to the driving means 12 after the certain period of time has elapsed. Due to the function of the delay means 14, the load 7 is turned off after a certain period of time after the off command signal is transmitted from the operation means 11. In addition, the load 7 is determined by the judgment means 13 and the delay means 14.
It has an off-delay function for

With the above configuration, when the user operates the operating means 11 of the adapter 15 to turn off the load 7, this transmission control device operates as follows. That is,
The off control request generated in the operating means 11 is converted into an electrical signal by the calculating means 10, and the determining means 13 determines that this signal is a command signal to turn off the load 7 from the operating means 11. Judgment method 1
3, this signal is sent to delay means 14. After being delayed for a certain period of time by the delay means 14, this signal is sent to the drive means 12 by the load control means 8.
operates to turn off the load 7. Further, when the load 7 is turned off, this signal is transmitted to the power line 1 via the load control means 8, the drive means 12, the judgment means 13, the calculation means 10, and the communication means 9,
receives this and displays on a display means (not shown) included in the controller 2 that the load 7 has been turned off.

Incidentally, the remote control for turning on and off the load 7 from the controller 2 and the turning-on control of the load 7 from the adapter 15 are performed in the same manner as before.

FIG. 2 is a configuration diagram showing a second embodiment of the transmission communication device of the present invention. In this embodiment, a forced off means 16 is provided in the adapter so that the load 7 can be immediately turned off. When the user operates this forced off means 16, this signal is created by the calculation means 10, and the judgment means 13 recognizes that this signal is the one that the forced off means 16 has been operated, and sends it to the driving means 12. Output this signal. The drive means 12 drives the load control means 8 to turn off the load 7. In other words, by operating the forced off means, the load 7 can be forcibly turned off even during the off-delay.

Although the first and second embodiments have been described above,
In these embodiments, the determining means 13 and the delaying means 1
Although the adapter 15 or 17 is provided with the off-delay function configured in 4, the object of the present invention can also be achieved with a configuration in which the controller 2 is provided with the off-delay function and the adapter 15 or 17 is not provided with this function.

Effects of the Invention As described above, according to the present invention, it is possible to provide a transmission control device having an unprecedented off-delay function, and it is possible to provide a transmission control device that is easy to use and can be used in a very wide range of applications. .

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a first embodiment of the transmission control device of the present invention, FIG. 2 is a block diagram showing the second embodiment, and FIG. 3 is a block diagram showing a conventional transmission control device. be. DESCRIPTION OF SYMBOLS 1...Light line, 2...Controller, 3...Operation means, 4...Calculation means, 5...Communication means, 7...
...Load, 8...Load control means, 9...Communication means,
10... Calculating means, 11... Operating means, 12...
Drive means, 13... Determination means, 14... Delay means, 15... Adapter, 16... Forced off means,
17...Adapter.

Claims (1)

[Scope of Claims] 1. Consists of a controller that communicates with each other via a transmission communication path and an adapter to which a load is connected, and the controller includes a communication means that sends and receives signals to and from the transmission communication path, a calculation means, and an operation means. The adapter includes a load control means, a drive means for driving the load control means, a communication means for transmitting and receiving signals with a transmission communication path, an operation means, a control request from the operation means of the controller, and a control request from the operation means of the controller. In addition to distinguishing control requests from the operating means of the adapter,
When there is a control request from the controller to turn the load ON or OFF, or when there is a control request from the adapter to turn the load from OFF to ON, a signal is sent directly to the drive means, and the adapter controls the load from ON to OFF. determining means for sending a signal to the driving means via the delay means when a request is received; delay means for sending a signal to the driving means after a certain time delay from when the control request is received; and the communication means and the operating means. , a calculation means that interconnects the judgment means, and a transmission control device. 2. The transmission control device according to claim 1, wherein the adapter is provided with forced off means for forcibly turning off the load immediately even during a predetermined time delay caused by the delay means.