JPS5812014A - Remote controller - Google Patents

Abstract

PURPOSE:To change the contents of memory freely, by setting a change while monitoring the contents of storage of an operation panel, through the provision of a switching device which freely changes over the state of a monitor room connected to the operation panel and the state of the operation panel connected to the monitor panel and terminal devices. CONSTITUTION:To an operation panel 1, a terminal device 3, a control panel 4 and a monitor panel 5 are connected via a transmission line 2. The terminal device 3 stores the contents of control of a transmission signal transmitted to the device 3 until the next transmission signal is transmitted and performs load control. The operation panel 4 has a storage section which stores the contents of control and transmission time and freely changes the contents of storage of the storage section. The monitor panel 5 only connected to the operation panel 1 between the operation panel 1 and the terminal device 2. The setting change can be made to this operation panel 1 without changing the control state of the load of the terminal device 3 and the monitor panel 5 while monitoring the contens of storage of the storage section of the operation panel 4 at the monitor panel 5.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a remote control device, more specifically, a remote control device in which a plurality of terminal devices are connected to the operation 11 via signal lines, and a plurality of terminal devices are connected to the operation panel 11.
The load connected to each terminal device is lost control due to the transmission signal, and the connection on the signal line is broken! This invention relates to a control device in which the content of a transmission signal is displayed on a woodcutter's board.

In general, a ζ0@0 arrester control device is installed on an operation panel and stores the load control contents and the time for transmitting the control contents in a large memory S, and calculates the load based on the stored contents of the storage section. It is now possible to perform so-called program control, but since the operation panel and the terminal are always in contact with each other, it has become difficult to perform control. To check whether the Og memory in the storage unit is correct or not, the transmission signal from 4111 to terminal 11 will be corrupted, and this remote control device will not be connected to the store. In the case of teru@attack KM%A, there is an inconvenience that the load behavior changes when checking the memory contents, so the memory contents can only be changed or checked at night or on holidays. there were.

The present invention has been made in view of such conventional drawbacks, and its main purpose is to enable the terminal 6 to be separated from the operation panel when changing or checking the stored contents. It is also possible to meet the 3 sini- rations on the supervisory board, and to change and check the memorized content without affecting the load.

Hereinafter, embodiments of the present invention will be explained based on the drawings.
Figure S1 shows an example of the metal body of the device, and shows an example for use in a food store or the like. The operation panel 1K) has two types, a main operation panel (1M) and a sub-operation panel (1b), and these operation panels 11) are connected to the terminal @Ill and the control panel via the transmission line 1!1. a143 and @ @ a, 1) tf
i contact49 exposure tL tev=ru. Sea bream board 14) K is connected to the frozen showcase (@) and 1 empty unit (11 and cool tower 1) tIX, and the frozen showcase (・) and air conditioner @1 unit) are connected to the sea bream board t4) K#f temperature t-Jsfl) is connected and receives the transmission signal C8r") from the refrigeration showcase 11) and II 11) and displays the contents. The terminal device illumination The load 1 excitation is connected and the transmission signal (ST
) The oscillator-off control is controlled by the light control 41111. t
In the IA, 11) is a distribution board that supplies power to the device, (1
The 1611 earthquake is a daylight sensor and a bell switch, respectively. The transmission signal (ST) is a start signal (8g) as shown in the St diagram.
The address signal (Sm), control signal (8c) and return hakama machine pulse (8m) are sequentially passed to indicate the order of -Wa, start signal (Ss) and signal, and address signal (Ss). By accessing the unique address of each terminal 5IIIK, the terminal 5IIIK calls the terminal @ ill connected to the control module 5IIIK, and the terminal device 1L calls its own address and the transmitted address signal R-4. (8m) matches,
The next control signal (Sc) is read and the lighting load is controlled accordingly, and the terminal @
is) is the next return waiting pulse (am) Kj within 6Kll
[t! A negative 1 fno control s1 is sent to the control panel (1) as a transmission signal. By the way, operation 4 $ 4
1) is a single number like 5saa. That is, operation s
5llii by loam, amass, l! Fuku11gt
1, a clock, a memory, etc., and the lighting load can be manually controlled using the operating section, or
Decide whether to use the program system and input the control details. In the calculation I/A-, this input is coded and organized into a transmission signal (!It)K, and during manual control, the signal is directly output to the signal waveformer 11S-, and the signal is transmitted through the modulator/demodulator 11fi. When writing the program, the control contents input from the operation section are encoded in the calculation section and stored together with the ea* data from the clock all#! The stored contents are read out at the same time in the program mode and transmitted on the signal line m via the waveform 1ls- and modulation/demodulation S-η. On the other hand, the aa signal returned from the terminal 513) is transmitted through the modulation/demodulation s1η and the return signal input S-, and the calculation/S- calculates the lighting load based on the return signal. The wave layer is shown in the display 11A@. In the figure, the symbol - is the electric wire that rectifies the voltage of the commercial power source (AC). On the other hand, as shown in FIG. 4, the terminal 11is) is not satisfied with the attribution setting a@, the operation asss, the relay drive section (b), etc. That is, the L5kagre9 transmission signal (S
t) is the terminal II 18) The operation a is passed through the branch shaping Is-
m is applied. The address is set in advance in the sub-computation section *sa
Because the own address set with @ and the address signal (S) in the transmission signal (8) match, and the next control signal (8)
c), translate the contents of the signal, and select the control signal (8C).
), the relay drive jI (incorporated) is controlled to turn off and blink the lighting load. j [
When the light load L11 is controlled, the calculation unit -〇I! The operating state of the input terminal mK11l is applied as a monitoring input to the load, this content is encoded in the operation S, and the return signal is sent to the drive IA4 as a return signal via the signal line. Operation panel (1) KhenaS. M in sI is a power section g, which rectifies the transmission signal (ST) flowing through the signal line pull-up and serves as a power source for terminal II 133.

At around 7, in the remote control device configured as above in a, the operation panel 41) is used to store in advance which lighting loads are to be turned on in the memory g. In the memory contents @
The operation panel 113 automatically blinks the lighting load 1 mm, so during so-called dimming control, the transmission signals (8 signals) transmitted from the operation panel (1) are transmitted only to the monitoring panel + II K. , a switching means is provided for switching between a state where the terminal 51m3K is not transmitted and a state where the terminal 51m3K is also transmitted with the transmission signal (St). The following is an explanation of the switching means. There are the following three embodiments of the switching means. i.e. II 10m1
The m example has an operation panel (凰)' and a terminal (3) as shown in Figure 6.
Connect the monitoring board Ii1 between the terminal 1 and the monitoring board +il, and install a switch C5'll such as a relay on the monitoring board +il, and operate this switch (SW). It opens and closes with a signal, and the position where the signal line +11 connects the operation panel (1) and the terminal device 1$1, and the position where one set of terminal devices is disconnected from the operation panel 11) and the operation panel +s) K Ill viewing panel 1
) can be freely switched depending on the position where only the control panel is connected.In the embodiment of Ill, it was necessary to connect the operation panel +1) and the monitoring panel 1@) in close proximity. 11)
When the monitor 11 ill and the monitor 11 ill are located apart from each other, switching is performed as follows. In other words, lol! In the embodiment shown in FIG.
When A) is transmitted and the signal signal of the protalam control is performed, only the address signal (SA) of the monitor panel ill is transmitted to the terminal, and the terminal 5111 is effectively separated from the operation panel flll. , In the third embodiment, a recognition signal (S,) is added to the transmission signal (!!1) as in No. 6-, and during normal transmission, the recognition signal (SP) is IKL, , terminals 11+11 are separated. OK the recognition signal (S,) for yourself.
Of course, the validity of the recognition signal (SP) can be set in the opposite way. In this way, it is only necessary to check the parity of the recognition signal using the terminal device iml and to switch between receiving the transmission signal (ST) and not receiving it.

In addition, in the first embodiment, @
If the turntable is equipped with a -1OIm tooth, just attach a switch (8W) directly to the operation panel 113K as shown in Figure 7. The threshold value is determined by the previously transmitted transmission signal (
In addition, in this embodiment, the terminal 5131 is equipped with a lighting load, but other loads may also be used.
゜As described above, the present invention can freely switch between a state in which only the monitoring panel is connected to the operation panel and a state in which the monitoring panel and the terminal device are connected to the operation panel between the operation panel and the terminal device. A switching means is provided, and with only the monitoring panel connected to the operation panel, the contents of the storage section of the operation panel can be monitored without changing the load control layer of the terminal. Since the terminal can be disconnected from the operation panel when changing or checking the memory contents of the storage unit, the memory contents can be displayed on the monitoring panel! Is it possible to freely change the memory contents without affecting the load even if you change the memory? It has the advantage of being able to be used as an I-rack.

[Brief explanation of the drawing]

1g1 is a schematic configuration diagram showing an embodiment of the present invention, 132
The figure is an operation explanatory diagram showing an example of the same transmission signal as above, sswJ
The following is an outline showing an example of the operation panel used in the above-mentioned example, Part 4
Figure 6 is a schematic diagram showing an example of a terminal device conveniently used in the above, Figure 6 is a schematic diagram showing an example of a terminal device, and Figure j1 is an operation explanatory diagram showing another example of the transmission signal in the same manner. Figure 7 is a schematic configuration diagram showing another example of the above, where IO is the operation panel, (Snow 1 is the signal line, 11) is the terminal, ill is the monitoring panel, cm is the load, 3m is the storage unit, (ST ) is the transmission signal. Agent Patent Attorney Ishi 1) Choshichi

Claims (1)

[Claims] +1) Multiple terminals are connected to the operation panel via signal lines, and the transmission signal transmitted from the operation panel controls the load connected to each terminal, and the load connected to the signal line is controlled. This is a system in which the contents of the transmission signal are displayed on the monitoring panel, and when one transmission signal is transmitted, the terminal retains the control contents of the previous nine transmission signals until the next transmission signal is transmitted. The operation panel has a storage section that stores the control contents and the time at which the control contents are transmitted, and the storage contents of the storage section can be changed freely. In between, it is possible to freely switch between a state in which only the monitoring panel is connected to the operation panel and a state in which the monitoring panel and terminal device are connected to the operation panel.
A switching means is provided, and when only the monitoring pin is connected to the operation #Ii, the storage of operation values 180 and the storage contents can be monitored on the monitoring panel without changing the control state of the load of the terminal device. A remote control feature that allows for easy settings! ll device.