JP3496579B2 - Setting device for remote monitoring and control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable and compact setting unit capable of being used in common for a plurality of systems and easily setting related data. SOLUTION: A portable setting unit body whose size is small to be gripped by a hand is provided with a display section 12 and an operation section 13. Relational data are displayed on the display section 12 by operating the operation section 13 and the related data are stored in a data memory when setting contents are confirmed. Furthermore, the operation section 13 has a function of transferring the related data to a transmission unit. The setting device can instruct a setting state where the related data are set to the transmission unit and a normal state where the transmission unit controls a load.

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] The present invention relates to a time division multiplex transmission method.
The transmission signal is transmitted to the signal line according to the formula, and this transmission signal is used.
Monitoring system that enables load control according to monitoring input
Is used in the control system to check the correspondence between the monitoring input and the load.
Related to setting devices for remote monitoring and control systems to be set
It is. [0002] 2. Description of the Related Art Conventionally, the structure shown in FIGS.
Remote monitoring and control systems are known. This remote monitoring system
In the control system, a two-wire system connected to the transmission unit 30
Operation terminals 31 and control for each signal line Ls
The terminal device 32 is connected (multidrop connection). Illustrated
In the example, as the operation terminal device 31, an individual switch 31a,
A turn switch 31b is provided. Each operation terminal 31
And each control terminal 32 has an individual address.
Are set, and the transmission unit 30 uses those addresses.
Operation terminal 31 and control terminal 32 individually
I do. Individual switch 31a and pattern switch 31b
Are switches Sa and Sb that generate monitoring inputs, respectively.
The control terminal 32 is provided with a load (a lighting load L in the illustrated example).
Built-in relay to control In addition, the operation terminal 31
Is a light emitting diode for checking the operation state of the lighting load L.
A confirmation light (not shown) is provided. here
In addition, latching type relays are generally used,
When the control terminal 32 operates the relay, the control terminal 32
Supply power in a loose manner. The control terminal 32 disconnects the relay
There is also a type that has in the part, in this case separately provided
Pulse power is supplied from the transformer to the relay. [0003] The transmission unit 30 is connected to the signal line Ls by:
The transmission signal Vs of the format shown in FIG.
I do. That is, the synchronization signal SY indicating the start of signal transmission and the transmission
Mode data MD indicating the mode of transmission signal Vs, operation terminal
Address for calling the terminal 31 and the control terminal 32 individually.
Data AD, control data CD for controlling the lighting load L,
Checksum data CS for detecting transmission errors, operation
Return signals from the operation terminal 31 and the control terminal 32 (monitoring data)
Signal return period W which is a time slot for receiving
T is a bipolar (± 24V) time division multiplexed signal
Data is transmitted by pulse width modulation.
(FIG. 27B). Each operation terminal 31 and each
In the control terminal 32, the transmission received via the signal line Ls
Is the address data AD transmitted by the signal Vs
When the address matches the previously set address, the transmission signal V
s, the control data CD is taken in, and the transmission signal V
monitor mode data during the s signal return period WT
(Short the signal line Ls via a suitable low impedance.
As a signal transmitted by the A desired operation terminal 3 is transmitted from the transmission unit 30.
1 or when transmitting data to the control terminal 32,
Data MD in the control mode, and the operation terminal 31 or
Let the address of the control terminal 32 be the address data AD
The transmission signal Vs is transmitted, and the transmission signal Vs is transmitted to the signal line Ls
, The operation terminal that matches the address data AD
Unit 31 or control terminal 32 receives control data CD
Then, the monitoring data is returned during the signal return period WT. Transmission
In the unit 30, the transmitted control data CD and the signal return period
Control data based on the relationship with the monitoring data received by the WT
The CD is transmitted to the desired operation terminal 31 or control terminal 32.
Confirm that it was sent. The control terminal 32 has received
Negative for controlling the lighting load L according to the control data CD;
The control terminal 31 outputs a load control signal,
The operation confirmation display of the lighting load L is performed according to the control data CD.
Output a monitoring signal for On the other hand, the transmission unit 30 normally
The transmission signal Vs in which the dummy data MD is in the dummy mode is constant
Sending at time intervals (constant polling), operation terminal
Of monitoring in connection with operation of switches Sa and Sb
When a force is generated, the operation terminal device 31
Attempts to transmit the occurrence of a monitoring input. That is,
This operation terminal device 31 transmits the dummy mode transmission signal Vs at the same time.
In synchronism with the period signal SY, an interrupt signal as shown in FIG.
At the same time, set the interrupt flag at the same time, and
Prepare for the subsequent information exchange with 30. In the transmission unit 30
When receiving an interrupt signal, the mode data MD
Set to ring mode and the upper half of address data AD
(If the address data AD is 8 bits,
4 bits) while transmitting the transmission signal,
In the operation terminal device 31 which has generated the interrupt signal, the interrupt polling is performed.
Upper 4 bits of address data AD of mode transmission signal
Are the top 4 addresses of the address set in the operation terminal 31.
When the address matches, the signal return period WT
The lower half of the bits are returned to the transmission unit 30. This
, The transmission unit 30 generates the interrupt signal
It is relatively short because 16 terminals 31 are collectively searched.
The operation terminal device 31 can be found in time. When the transmission unit 30 generates an interrupt signal,
When the address of the terminal 31 is obtained, the mode data M
D to the monitoring mode and hold the acquired address data AD.
One transmission signal is transmitted to the signal line Ls.
The operation terminal 31 transmits the information to be transmitted
During the signal return period WT. Finally, the transmission unit
Reference numeral 30 denotes an interruption to the operation terminal 31 which has generated the interruption signal.
A signal for instructing reset is transmitted, and the operation terminal 31
Release the embedded flag. As described above, the operation terminal 3
1 to the transmission unit 30 is transmitted by the transmission unit
Signal transmission from the terminal 30 to the operation terminal 31 (dummy mode)
Mode, interrupt polling mode, monitor mode, interrupt reset
G) to complete. Transmission unit 30 performs desired control
When trying to know the operation state of the terminal 32, the mode
Just send a transmission signal with data MD as monitoring data
Is fine. The above operation will be briefly summarized. First, the operation
The terminal device 31 monitors the operation of the switches Sa and Sb.
When a visual input occurs, the operation terminal device 31 responds to the monitoring input.
The corresponding monitoring data is returned to the transmission unit 30, and the transmission unit
The unit 30 transmits the control data CD to the control terminal 32.
Then, the control terminal 32 outputs a load control signal to
The load L is controlled. Here, the load is monitored by the control terminal 32.
Given input, monitor data corresponding to load monitoring input
The monitoring data is returned to the transmission unit 30 and the returned monitoring data is operated.
It is transmitted to the operation terminal 31. The operating end is
The terminal 31 outputs a monitoring signal. Monitor output is usually
Used to turn on and off the lights. In addition, individual switch 3
1a is provided with a switch Sa of up to four circuits,
2 can control the lighting load L of up to 4 circuits,
Each switch S is connected to the switch 31a and the control terminal 32.
2-bit load for individually recognizing a and lighting load L
Numbers have been added. The following describes the individual switches described above.
Switch 31a or the address of the control terminal 32
The channel and load number are collectively referred to as an address and
I will call it. That is, each switch Sa, Sb, each switch
Individual addresses are assigned to the light loads L, respectively.
Will be. In addition, individual switches corresponding to each other
Switch 31a and the control terminal 32 are set to the same channel.
To make the correspondence easier to understand (actually,
Also distinguish between the operation side and the control side according to the channel number.
It is. For example, the upper few bits of the address data
Indicates the operation side or the control side, and the lower few bits are
Used as a channel). By the way, this kind of remote monitoring control system
Then, the address pair of the pattern operation Sb and the lighting load L
Since the response is managed by the transmission unit 30, the transmission unit
In the unit 30, the address of the switch Sb of one circuit
The addresses of the lighting loads L of a plurality of circuits are paired as related data.
If applied, multiple circuits can be illuminated by one switch Sb.
It is possible to control the light load L collectively. This
Group control and pattern control.
You. In group control, multiple loads are controlled to the same control state
However, in pattern control, multiple loads are individually set in advance.
Control to the specified control state. Group control and pattern control
Control is particularly effective when controlling the lighting load L.
Many lighting loads are arranged like an office space
Turn on / off multiple lighting loads at the same time
Use group control and pattern control
Can be. In the illustrated example, a pattern with a switch Sb is provided.
Shows switch 31b, but terminal for group control
Are not shown. However,
For group control and group control, the
Other operation terminal except that the operation address
Is the same as As described above, in order to perform pattern control,
In the transmission unit 30
Lighting load of a plurality of circuits in the address of the switch Sb provided in
It is necessary to register the address of L
This type of setting operation is called pattern setting. group
The same applies to the case of control.
Is called group setting. By the way, the remote monitoring control system includes a lighting
Control mode for controlling the load L, pattern setting and glue
Has two operation modes, a setting mode for setting
ing. In other words, operate the remote monitoring and control system
The transmission unit 30 first enters the normal control mode.
Thus, a transmission signal in the dummy mode is transmitted to the signal line Ls.
If there is no interrupt signal, transmission in dummy mode as is
The polling which is generated by repeating the signal is always performed. one
On the other hand, if there is an interrupt signal, the operation terminal device 31 is specified and operated.
The request from the terminal device 31 is fetched. Where the operation mode
If no changes are required, the current operating mode is determined.
Separately, in the control mode, the lighting load L is controlled and the setting mode is set.
Mode, make pattern settings or group settings.
U. Also, when an operation mode change is requested
Changes the operation mode according to the request. To set a pattern in the setting mode,
Operate switch Sb of desired pattern switch 31b
Then, the illumination to be controlled by the switch Sb
When operating the switch Sa associated with the load L
It is. Here, the relationship between each switch Sa and the lighting load L
Is assumed to be set first. Such a hand
The state of the lighting load L according to the switch Sa operation in the order
It is taken as related data by the transmission unit 30 and one
State of a plurality of lighting loads L is associated with the switch Sb of FIG.
It is done. Group setting is almost the same as pattern setting
It is. On the other hand, this type of remote monitoring and control system
Is a kind of operation terminal device 31 as shown in FIG.
The pattern setting device 33 may be used. Pattern setting
Device 33 is provided with a plurality of operation terminals 31 in one device.
And has many switches S (shown in FIG.
The example has switches S for 64 circuits, and each switch
S so that it is possible to operate four circuits at a time.
Switch to select. Therefore, 25
Operation of six circuits is possible). Each switch S is an address
By assigning the
It can be used as a switch S. When using the pattern setting device 33, the
Switch S assigned as turn switch is selected
Later, the operation of the switch S assigned as an individual switch
The control state of each lighting load L is set according to
And transfer this relational data to the transmission unit 30.
You. That is, at the place where the pattern setting device 33 is installed,
Since it is possible to create relational data, individual switches
31a and a pattern switch 31b.
The work becomes easier as compared with the case of performing the setting. [0014] SUMMARY OF THE INVENTION
As described above, the pattern setting unit 33 controls the switch S for 64 circuits.
It is large and expensive because it has
It is usually used fixed on a control panel. In other words, small
Or medium-scale remote monitoring and control system (operation terminal 31
And a system with a relatively small number of control terminals 32)
It is not suitable for use in The present invention has been made in view of the above circumstances.
Yes, its purpose is to make it
To create related data.
Creation of relational data by providing
Provides a configurator for an easy remote monitoring and control system
It is in. [0016] SUMMARY OF THE INVENTION The present invention provides
Are connected to the signal line,
Time division between the transmission unit connected to the line and each terminal
Send and receive transmission signals by multiplex transmission method and address correspondence
By exchanging data between terminals using relationships
Connect to another terminal according to monitoring input to one terminal
Can be controlled, and one
Multiple addresses and loads corresponding to the
Set related data, which is a set of control status, in the transmission unit
During monitoring, multiple loads can be controlled by one monitoring input.
Used for remote monitoring and control systems that can be controlled collectively
Display unit that can switch and display screens with different display contents,
Address or related data of each terminal in cooperation with the display
The operation unit that instructs the setting contents of the
Data that can store multiple sets of related data
Memory and each terminal set by the display and operation unit.
Processing to transfer the address to the terminal and store it in the data memory
Process to transfer the related data to the transmission unit
Transportable with dimensions that can hold at least a signal processing unit that can be held by hand
In preparation for the mold body, The signal processing unit is connected to the transmission unit.
Set related data and data set in data memory
And collate the related data.
Display the group name of relational data when mismatch is detected
It has a function of displaying on a section. [0017] [0018] [0019] [0020] [0021] [0022] [0023] [0024] [0025] [0026] [0027] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A setting device 34 of the present invention is not shown in FIG.
As shown in FIG. 5, it is large enough to be held with one hand.
It has a flat body 11 formed in size, and is in front of the body 11
A display unit 12 composed of a liquid crystal display 22 is provided in the upper part of the screen.
The lower part of the front of the housing 11 is used to perform various operations.
A working unit 13 is provided. The body 11 forms the back
Coupling body 11a and cover 11b forming the front part
Formed. The liquid crystal display 22 as the display unit 12 is
It is a bit-matrix type display, and any characters or
Uses one that can display figures. Front of display unit 12
Is arranged so as to face the opening window 11c provided in the cover 11b.
And is covered with a protective plate 12a made of a transparent plate.
Has been done. Further, a central portion of the upper surface of the container 11 will be described later.
Emission and reception window 14 for transmitting infrared wireless signals
A signal line Ls is connected to the upper side of the body 11.
Receptacle 15 is provided. Furthermore, the body
On the left side of 11 is a slide switch as shown in FIG.
Handle of the power switch and the cover of the display
Pressed battery to turn on / off the backlight
A push button 17 of a light switch is provided. By the way, the body 11 of the setting device 34
As shown in FIG.
The signal processing unit 20 having a main configuration of
It is. System programs are stored in the signal processing unit 20
Program memory 20 composed of flash memory
a, the relationship created when performing pattern settings and group settings
Data consisting of flash memory for storing
Data memory 20b stores data to be temporarily stored
The working memory 20c composed of an SRAM is connected to the data bus BD.
T and an address bus BAD.
Here, the flash memory retains its stored contents even without power supply
The program stored in the program memory 20a.
RAM and related data stored in data memory 20b
Can be retained even after the power is turned off. The signal processing unit 20 includes a transmission / reception circuit 21 and
Connected to the receptacle 15 via the power switch SW1
Have been. The transmission / reception circuit 21 communicates with the remote monitoring and control system.
Between the setting unit 34 and the transmission unit 30 via the line Ls
Is a circuit that enables data transmission. Receptacle
Reference numeral 15 denotes a jack type, and the setting device 34
When connecting to the line Ls, it is detachable from the receptacle 15
A connection line Lc having a connector to be coupled at one end is used.
8, the other end of the connection line Lc is connected to the signal line Ls.
Connect with the air. A crocodile is used as a connection to the signal line Ls.
Use of mouth clips, pin plugs, Y-type terminals, etc.
it can. These connection lines Lc are connected to any part of the signal line Ls.
It is appropriately selected depending on whether or not to connect. Further, the signal processing unit 20 includes the display unit 12
The liquid crystal display 22 is connected. The liquid crystal display 22
Equipped with backlight, backlight control backlight
The light emission luminance is controlled by the circuit 23. The backlight is
Turn on / off by the backlight switch SW2 described above.
Lighting instructions are given. The above-described operation unit 13 is used to reset the pressing operation.
A so-called rubber switch that uses the elasticity of rubber as a return force
Key 18 using the key matrix 24 (see FIG. 4).
You. Here, the rubber swivel constituting the key matrix 24 is
The switch 18 uses a single elastic sheet to form a plurality of keys.
It is formed. In addition, optical wireless using infrared as a medium
An optical transmitting and receiving circuit 25 for transmitting and receiving signals is also provided in the signal processing unit 20.
It is connected. The optical transmitting and receiving circuit 25 emits and receives infrared rays.
Light emitting diode and photodiode for
You. In addition, a confirmation sound or an erroneous operation of the key matrix 24 is performed.
A buzzer Bz for generating a warning sound during operation
Signal processing unit 20. The setting device 34 is connected via the receptacle 15
And when connected to the signal line Ls, the signal line Ls
By rectifying and stabilizing the transmitted signal being transmitted,
Internal power supply. In addition, the signal line Ls
When not connected, use built-in battery as power source
be able to. Therefore, power supply to the internal circuit
In the power supply circuit 26, the power from the signal line Ls and the power from the battery
Select one of the forces and supply it to the internal circuit. Here,
Signal presence / absence detection circuit 2
7 is determined based on whether or not a transmission signal is input. In addition,
Which of the power from the signal line Ls and the power from the battery is used
Is different depending on the processing content. As shown in FIG.
Divided into three circuit boards 19a to 19c housed in body 1
Will be implemented. The rubber switch 18 described above has a circuit
Switch with switch pattern provided on substrate 19b
Function as the operation unit 13 by forming
A part is sandwiched between the substrate 19b and the cover 11b,
The protrusion provided on the bar switch 18 is provided on the cover 11b.
It is inserted through the through-hole and exposed as a push button for operation. Further
A battery compartment 11d is formed in the lower part of the rear surface of the body 11a.
The opening of the battery storage chamber 11 d is detachable.
It is covered by the pond cover 11e. In battery storage room 11d
Is a battery terminal 1 so that four AA batteries can be stored.
1f is arranged, and the output voltage of the battery is rated at 6V.
You. On the other hand, the operation terminal device 31 used in this embodiment
And the control terminal 32 communicates data with the transmission unit 30.
Data transfer is performed by the terminal processing unit mainly composed of a microcomputer.
The address and the type of terminal are composed of EEPROM.
It has a configuration stored in a data storage unit. In addition, light W
Wireless signal transmission / reception
Setting, correction, and confirmation of information stored in the data storage unit
Uses an optical wireless signal. Explained as conventional technology
As described above, the operation terminal 31 includes the individual switch 31.
a, for pattern control 31b, for group control
Group switch, dimming to instruct dimming of lighting load L
Optical switch 31c, sensor or switch as monitoring input
There are types such as input terminals to be connected, and control terminals
The relay 32 inserted between the lighting load L and the power supply
Terminal 32a for controlling the power supply to the lighting load L
Such as a dimming terminal 32c for controlling the power and dimming and lighting.
There is a type. These various terminals are provided with a terminal processing unit,
Data storage unit and wireless signal transmission / reception unit
The type of each terminal is stored in the data storage unit.
Therefore, the terminal processing unit performs an operation according to the type of the terminal.
U. In other words, the data storage unit is not a kind of memory switch
Function as a parameter memory, depending on the setting
Thus, the operation of the terminal processing unit is defined. Paraphrase
The terminal processing unit has multiple types of program modules.
Depending on the settings in the data storage,
It is decided whether to use joules. Data storage
The information that can be set in the section includes the type of terminal,
Turn on the load for a certain time after the operation to turn on the load
After a certain period of time from turning on the load and turning off the load,
Delay off to turn off the load, turn on or off the lighting load
Fade to gradually increase or decrease the light output of the lighting load from operation
Functions can also be set, and these functions
And can be set. By the way, as shown in FIG.
Around the screen 12b, the "control type"
"Address No.", "ON / OFF", "Timer
-'' And `` Dimming level '' are written in order from the left.
Along the side, "mode", "address setting", "PG setting"
Set, Initial, Special, and Confirm
Along the lower side, "switch", "input T /
U "," Relay T / U "," Dimming T / U "," Remaining amount table "
Are shown in order from the left. Display section
12 along the left side around the screen 12b
“Address setting”, “PG setting”, “Initial”, “Special”
Notation along the part corresponding to the character
"Switch", "input T / U", "relay T /
Marker M is displayed near the characters "U" and "dimming T / U"
Marker M is displayed in reverse video (display color is different from background).
Which means to let That is,
The function being executed is indicated by using the marker M. Above the word "remaining amount display", there is a power source.
The battery symbol I is displayed. This symbol I
The remaining amount of the pond is indicated. Battery symbol is filled with symbol I
The amount of brushing is represented in three stages, and the amount of filling is
The higher the number, the higher the remaining battery level. In addition, the transmission unit
As will be described later, the relation data between the
Data can be transferred, but the transfer of related data
It may take 30 to 40 minutes,
If the battery runs out during work, the work will be wasted
If the battery level is low, transfer related data
Is not performed. In addition, the battery capacity is low
, Regardless of what kind of processing is performed
Power is forcibly shut off. This point will be described later
I do. In order to display the remaining battery power as described above,
In this embodiment, the battery remaining amount detection circuit 28 is provided.
You. The battery level detection circuit 28 detects the battery voltage in two steps of the reference voltage.
And the output voltage of the battery is higher than each reference value.
When a part of the symbol I is
ing. In other words, the battery voltage is lower than the lower reference value.
When high, fill half of symbol I
When the battery voltage is higher than the reference value of
The other half is painted. Where the reference voltage is the battery
The circuit operation can be maintained when the remaining amount is about half
Is set to determine that the
You. However, when the battery voltage is higher than both reference values,
Then, the entire symbol I is painted out and the battery voltage
If only the reference value is exceeded, half of the symbol I is painted.
Crushed. Also, the battery voltage is lower than either reference value.
When it comes to the end, only the end of symbol I is filled
Become. Circuit operation cannot be maintained in this state
From the data generated by the previous work
Prevent data loss by storing in memory 20b
You. After saving the data in the data memory 20b, turn off the power.
Automatically shut off. Based on the output of the battery level detection circuit 28
The process of changing the symbol I shown on the display unit 12
The signal processing unit 20 performs this. Here, the remaining battery power is half
When it is about a minute, "Please replace the battery"
Warning message is displayed on the display unit 12 and the remaining battery power is
When the amount becomes insufficient to maintain the circuit operation,
The warning message `` The pond has run out '' is displayed on the display
It is desirable to display the information at 12. Also, the data
Saving the data in the memory 20b will cause the warning message
It may be about 20 seconds after the display. In this embodiment, a battery is also used as a power source.
If you forget to turn off the power, the battery will be exhausted.
Will be. Therefore, the operation unit has never been operated within the specified time.
It is configured to shut off the power when it is not made.
You. Operation unit (key matrix 24) operated within specified time
The signal processing unit 20 determines whether or not the operation has been performed.
Is not operated, the signal processing unit 20 sends an auto-off signal.
Signal is output. Auto-off signal from signal processing unit 20
The circuit that shuts off the power supply to the internal circuit
26. The key matrix 24 constituting the operation unit 13
As shown in FIG.
ー K11 、 Clear key K12 、 Setting key K13 、 Car
Sol key K14, switch key K15, execution key K1
6. Cancel key K17, forward key K18, address
Key K21, P / G setting key K22, initial key K
23, special key K24, individual key K31, dimming key K3
2. A group key K33 and a pattern key K34 are provided.
Have been. These keys are basically divided into four types.
Is placed. Address setting is performed in the operation mode of the setting unit 34.
Mode, pattern group setting mode, initial setting mode
Mode and special mode.
Are the address setting key K21 and the PG setting key K, respectively.
22, by pressing the initial key K23 and the special key K24
Selected. That is, the address setting key K21, PG
The setting key K22, the initial key K23, and the special key K24 can be selected.
Pressed selectively. Also, which mode is selected
Is displayed on the left side of the screen 12b of the display unit 12.
It can be known from the position of the camera M. The address is set by operating the address setting key K21.
When the address setting mode is selected, the characters
The corresponding marker M is highlighted and displayed on the optical wireless signal.
Address and function data in the data storage section of each terminal.
Data can be set or confirmed. Setting device 3
4 is turned on without connecting to signal line Ls
Also enters the address setting mode. That is, the signal line Ls
In the state where the signal is not connected, the signal presence / absence detection circuit 27
Since no transmission signal is detected, the transmission signal
If not detected, the mode shifts to the address setting mode. As described in the prior art, one end
Since the terminal has four load numbers, the address setting mode
In the LCD display, four LCDs are displayed in four lines on one screen of the LCD display.
The setting column for the address is displayed. The setting column is 5 rows on the left and right.
And has squares of 4 rows and 5 columns. Highlighted square
Can be changed and the position of the grid to be highlighted
Can be moved using the cursor key K14.
You. That is, the cursor key K14 is moved up, down, left, and right.
Direction key that indicates the direction, and corresponds to the desired direction
By pressing, the position of the inverted display moves in that direction. Contents of "control type" (first square)
Uses the cursor key K14 to highlight the desired grid.
After the state shown, the switching key K15 is used.
Or individual key K31, dimming key K32, glue
By using the keypad K33 and the pattern key K34
Can be changed. Use switch key K15
And "individual", "group", "pattern", "dimming"
Can sequentially select the control type of the terminal from among
Individual key K31, dimming key K32, group key K3
3. Use the pattern key K34 to perform the same
-Can be selected by operation. As the "control type", as shown in FIG.
When "other" is selected, as shown in FIG.
o. (The second column) is the channel number and load number
Is displayed as a hyphen combined with
And load numbers can be displayed separately in reverse (the reverse display
Status is indicated by hatching). That is, the cursor key K1
When the position of the reverse display is moved by 4
The number and load number are highlighted separately. Channel number
When the number is highlighted, the switching key K15
To increase or decrease the channel number and highlight the load number
Is set, the load number is selected by the switch key K15.
Can be increased or decreased. As the "control type", "pattern" (P)
Or, if you select “Group” (G),
Les No. "Is a pattern number or group
The loop number can be highlighted. Pattern number and guru
Group numbers are used for pattern control and group control, respectively.
Group names given to relational data for
When displayed, the switch key K15
You can change the turn number or group number
You. When the “control type” is “individual” or “glue”
In the case of “P”, the “Timer” (the fourth column)
Can be set. "Timer"
When the display is highlighted, the switch key K15
Time on and delay off can be specified.
Selected. In other words, temporarily on (after turning on the switch,
Control for turning on the load for a fixed time) is 30 seconds, 1
Minutes, 5 minutes, 60 minutes, and 120 minutes can be selected.
Off (After a certain period of time has passed since the switch was turned off,
30 seconds, 1 minute, 5 minutes for control to turn off the load)
Has become possible. Specifically, timer off, temporary
30 seconds on, 1 minute on, temporary off, 30 seconds off, delay
Type of action, such as 1 minute off, timer off, etc.
Combination of another and time is switched by switch key K15
Next selected. Here, timer off is temporarily on or delayed
It does not turn off. As described above, the "control type" and "address
No. ", The setting of the first line is completed for" timer "
After that, there is something to be set for the second and subsequent lines
If so, the same operation is repeated. After completing the required settings
And send / receive window 14 to the wireless signal transmission / reception section of the terminal.
By pressing the setting key K13 close to it, the wireless communication
The setting contents displayed on the display unit 12 after transmitting the
It can be stored in the data storage of the terminal. here
The data is stored normally in the data storage unit of the terminal
, The buzzer Bz sounds and a confirmation sound is generated. Another terminal
When setting the content of
It is possible, but by pressing the forward key K18,
Address (channel number) forward (increment by 1)
The same setting can be displayed on the display unit 12.
it can. In such a procedure, the individual switch 31a and the glue
Switch function can be set. On the other hand, data recording of the pattern switch 31b
In the setting of the data to be written to the storage unit,
It is called "pattern". In this state, “address N
o. "Can be set only. That is, the pattern
Only the identifier of the related data used for control is given. This
In the case of, the data of the terminal device is
The setting contents of the display unit 12 can be registered in the data storage unit.
You. The light control switch 31c of the operation terminal 31
To set data in the data storage section of
Is set to “individual”, and “address No.” is set. Dimming
Set the contents of the "timer" for the switch 31c
It is possible, but this content is ignored. In addition,
In the case of misalignment, “-” is displayed in the column where the content cannot be set.
It is. In the above example, the address for the operation terminal
Although the example of the setting of the address and the function is shown, the control terminal 32
Set the address and function in the same way
Can be. In addition, the data already set in the data storage
To check the stored data, use the address setting key K2
After the push operation of 1, the wireless signal can be transmitted.
By pressing the confirmation key K11 for instructing confirmation, the end
The contents set in the data storage unit of the terminal are displayed on the display unit 12.
Listed in. Next, the PG setting key K22 is operated to
Explains when turn group setting mode is selected.
I will tell. At this time, the characters corresponding to the characters “PG setting”
Marker M is highlighted, and the pattern control or group control
Creation, setting, and confirmation of related data for
You. In the pattern / group setting mode, as shown in FIG.
The setting device 3 is connected via a connection line connected to the receptacle 15.
4 must be connected to the signal line Ls.
Pattern when power is turned on while connected to line Ls
・ Transition to group setting mode. However, the pattern
Before entering the group setting mode, set the address setting mode.
It is necessary to set an address for each terminal depending on the password.
It is important. In the pattern / group setting mode, FIG.
As shown in FIG. 2, the pattern corresponding to the "control type"
Fade the lighting number or group number and lighting load
Whether to increase or decrease the light output with the passage of time)
And the batch on / off information. Other columns are addresses
It is the same as the setting mode. However, address setting mode
The third and fifth rows, which were not used, can now be used.
You. Turn the load on or off in the third row
Is displayed. In the fifth row, the lighting load
The dimming level is indicated by a numerical value from 1 to 7. Shift to pattern / group setting mode
And the pattern (P) or the glue at the top of the "control information" column.
Group (G), pattern number or group number
And a number indicating the number are displayed. These are highlighted separately
The group key with the type highlighted.
By pressing K33, the pattern (P) is selected and the pattern
Group (G) is selected by pressing the on-key K34.
It is. To operate the switching key K15 in the same state
Therefore, the pattern (P) and the group (G) can be alternatively selected.
You can choose. Also, operate the cursor key K14.
To make the value highlighted (the cursor position
Move), and by operating the switching key K15, the pattern
The number or group number can be changed. Relationship between pattern control and group control
When data is set in the transmission unit 30,
As described above, whether the pattern control or group control
After indicating the pattern number or group number,
By pressing the authentication key K11, the designated pattern number
Or whether the data related to the group number is the transmission unit 30
And is displayed in a list on the display unit 12 as shown in FIG.
It is. However, only four addresses are displayed on one screen at a time.
Although not shown, highlight the column of "Address No."
By operating the switching key K15 in the state where
You can display other addresses to be controlled.
You. Relationship between pattern control and group control
For data editing, confirm the related data as described above.
Regardless of whether it is performed or not, the following procedure can be used.
Here, the group control is performed so that the state of each load becomes equal.
The load is controlled collectively at each load like pattern control.
It can be said that this is a special case when setting the status of
Below we will first discuss the editing of related data in the case of pattern control.
And editing of related data of group control
Will be described later. Editing pattern control related data
Has the same pattern as the
(P) and a pattern number are selected. Also, fade
The column “Fade” is displayed by operating the switching key K15.
None, Fade 3 seconds, Fade 6 seconds, Fade
1 minute "can be specified. In other words, the lighting load phase
If you want to do a “3 seconds”, “6 seconds” or “1 minute”
Fade at a certain time becomes possible. For information on the batch ON / OFF of loads,
All On, All Off, All Level, One
Batch editing "and" All clear "can be specified. these
With this function, most of the load can be controlled by pattern control.
To create relational data that controls the same state
After selecting the same control state at once,
By adopting the work procedure of changing only minutes,
Reduce the time required to create turn control related data
It becomes possible. "All on" means full load in the specified range
Is turned on, and "All off" is specified in reverse.
To turn off the full load in the specified range
is there. "All level" dimming within the specified range
Function to match the dimming levels of all lighting loads.
For the dimming level, the switching key K15 is used.
Set by thing. In addition, "Batch Edit"
, All-off, all-level, all-
This function sets the range of the `` rear '' function.
By using the sol key K14 or the switching key K15
To set the address range. "All clear"
Exclude all loads in the specified range from pattern control
Function. Therefore, the address can be
Is set to “all on”,
"All off", "All level", "All clear"
Each function of "-" is an address (load) within the set range.
And the range of addresses is set by "Batch Edit".
If not specified, all addresses (load) in the system
Applied to Each of these functions is assigned to the switch key K15.
Therefore, after selecting these functions, the execution key K16 is
Press to set the selected content and press the Cancel key
Pressing K17 cancels the selection. Here, as shown in FIG.
A case of editing using the "ON" function will be described.
All addresses are used because of the “all-on” function.
The column of “ON / OFF” is ON (character is “O
N "). The “Address No.” column is highlighted.
Switch key K15 is pressed for a short time
Then, each address displayed on the screen of the display unit 12 is displayed.
Can be selected sequentially. Also, the switching key K15
Is pressed for a long time (for example, 2 seconds or more),
The address displayed on the display unit 12 can be changed
Can be. The desired address can be set using such a function.
It is displayed on the display unit 12 and the cursor key K13 is used.
Move the cursor to the "ON / OFF" column,
Is selected by the switching key K15. In this state,
You can select “On”, “Off” or “Out of area”.
You. Pattern control is performed for addresses with "out of area" specified
Excluded from With the “Timer” column highlighted
Is the same operation as in the address setting mode. That is,
Designation of temporary ON and delay OFF by switching key K15
And the time is also selected. That is, temporarily
On (Load is turned on for a certain period of time after the switch is turned on.)
30 seconds, 1 minute, 5 minutes, 60 minutes, 120
The minute can be selected and the delay is turned off (switch off operation
After a certain period of time, the load is turned off)
Can be selected for 30 seconds, 1 minute, and 5 minutes. Concrete
Specifically, "Timer off", "Temporary on 30 seconds", "One
Hour on 1 minute "..." delay off 30 seconds "," delay off 1
Minutes "... The type of action, such as" Timer off "
Combination with time is sequentially selected by switch key K15
Selected. In the pattern control, as described above, the dimming level
Settings are also possible. For the dimming level, refer to
Switch key K with the "Light level" column highlighted
15 is used to select a level. Here, the choice of level
Address for which ON is selected in the "ON / OFF" column
Only possible. As described above, one pattern number belongs to
"ON / OF" for each "Address No."
Set “F”, “Timer” and “Dimming level” as necessary.
By pressing the setting key K13 after setting, the data memo
The related data is written to the entry 20b. In the above example, the data related to the pattern control is
The procedure for setting has been described, but the relationship between group control
The data is almost the same. However, load ON / OFF
Information is "All groups", "Batch edit", "
Exclusion "can be selected. "Allguru
Is set when setting related data for pattern control.
Like "all on" and "all off" in
When the address range by "Batch edit" is not specified
Is the total load in the system as the load belonging to the group.
Address range is specified by "Batch Edit"
Sometimes all loads within a specified range belong to a group.
Load. "All exclusion" means "bulk edit"
If the address range is specified in
All loads within the specified range are excluded from the group and "Batch Edit"
If no address range is specified in the
Exclude all loads from the group. The subsequent operations are related data used for pattern control.
This is the same as setting data. However, the group
After deciding the address to belong to, enter the "ON / OFF"
If the switching key K15 is operated with the display highlighted, the load
To turn on or exclude from the group
become. Other procedures set the pattern control related data.
Is the same as Each of these functions is operated by a switching key K1.
5. After selecting the function by pressing 5, press the execution key K16.
If you make it, the selected content will be set and the cancel key K1
Pressing 7 stops the selection. By the way, when the initial key K23 is operated
Has an initial setting mode for setting various functions of the setting device 34.
And the marker M is deflected at the position corresponding to the “initial” character.
Is displayed. In the initial setting mode, as shown in FIG.
In addition, on the display unit 12, "operation sound"
Each item of "interval", "transmission unit", and "terminal change monitoring"
The field is set for. When the initial setting mode is selected, the operation unit 1
The buzzer Bz is sounded as an operation sound in accordance with the operation of Step 3.
Whether or not the operation is completed when the operation unit 13 is not operated.
Automatically turn off after a long time
Or, monitor the type of transmission unit 30 and the number of terminals
It is possible to set whether or not to do so. Here,
To set the contents by using the cursor key K14
The content of the selected item is changed by the switching key K15.
Can be selected. Also, the contents of the selected item
Is highlighted. The presence or absence of the operation sound by the buzzer Bz is switched.
This function is selected by the key K15.
"Yes" and "No" will be selected. "Yes"
When selected, every time the operation unit 13 is operated
The operation is confirmed by the sound of the buzzer Bz. When the operation unit 13 is not operated, the power is automatically turned on.
The function to turn off automatically switches the “power off time”
-By operation of K15, "None", "5 minutes", "10"
Minutes ”can be selected. That is, the battery
No operation with power on to prevent wear
, The non-operation state is maintained for a certain time (5 minutes or 10 minutes).
Minute) If you continue, the power is turned off.
You. When the power is automatically turned off, the working memory 20
The contents of c are stored in the data memory 20b which is a non-volatile memory.
Is stored. When “None” is selected, the power supply
It does not turn off dynamically. In the “transmission unit” field, the transmission
The type of the unit 30 can be selected. Currently several types
Transmission units 30 are used.
In the knit 30, the contents of pattern settings and group settings are
Transmission unit that transmits the specified relation data through the signal line Ls
In addition to the models that can be transferred to the 30, old models that do not have this function
Some are. In addition to this point, the transmission unit 30 has
There is a difference in ability. Therefore, the field of the "transmission unit"
The model number (by product type) of the transmission unit 30 is switched
The selection can be made by a key K15. Also, signal line
When the power is turned on while connected to Ls, the setting device
34 make various requests to the transmission unit 30,
The transmission is performed by the response of the transmission unit 30 to this request.
The type of the unit 30 is automatically determined. For example, signal line
There is no function to register related data transmitted through Ls.
Transmission unit 30 has made a request to transfer related data.
Can be determined by the lack of a response
Noh. Thus, the function of the transmission unit 30 is utilized.
If the response is confirmed, the type of the transmission unit 30 is specified.
Can be The type of the transmission unit 30 is specified
Thereafter, the setting unit 34 is set according to the type of the transmission unit 30.
In, usable functions are selected. Note that "Transmission
When the "Unit" field is selected, the display unit 1
2 when a confirmation is requested, the execution key K16
Press. Thus, the type of the transmission unit 30 can be changed.
By selecting, the relationship for each type of transmission unit 30
Restrictions on setting specifications of the engagement data are selected by the setting device 34
For example, transmission units that do not support dimming control
In the case of the knit 30, when setting the related data,
It is now possible to restrict functions so that settings cannot be performed.
You. The model number of the transmission unit 30 is connected to the signal line Ls.
Transmission unit
The relational data corresponding to 30 can be performed only by the setting device 34.
It is possible. A function for monitoring a change in the number of terminals (that is,
And “Terminal change monitoring”), “Setting” and “Release”
Selectable and when "Settings" is selected
Is the number of terminals connected to the signal line Ls increased?
Whether the number has decreased or not is detected, and if the number of
17 is displayed on the display unit 12 as shown in FIG.
Is displayed and the address of the terminal that has increased or decreased is displayed.
Is done. When this screen is displayed,
Pressing K17 can return to the original screen.
This function detects terminal failures and poor connection
It is provided in. In other words, this kind of abnormal condition occurs
The number of connected terminals changes when the
No such abnormality is detected and reported.
You. Here, as a method of detecting a change in the number of terminals,
Indicates that the transmission signal generated by the transmission unit 30 is constantly monitored.
Observe that there is no response from the existing terminal
Or there is a response from a terminal that did not exist
In such cases, it is detected that the number of terminals has changed.
You just have to put it out. The special mode is selected by operating the special key K24.
When selected, the marker M is highlighted at the position of the "special" character
Is done. In the special mode, as shown in FIG.
12, "Transmission unit", "Check", "Edit"
Fields are set for the items
It is. Also in this case, select an item with the cursor key K14,
The content is selected with the switching key K15. In the item of “transmission unit”, “input”,
"Output" and "collation" can be selected.
Related data set in the transmission unit 30
Function to read into the unit 34, setting for the transmission unit 30
Function for writing related data from the transmitter 34, the transmission unit 3
The relation data set to 0 and the relation data set to the setter 34 are set.
This means the function of collating with the relevant data. Here
When "Input" is selected, the screen shown in FIG.
The contents of the field F1 are displayed and the switching key K15
Depending on the pattern range, all groups,
Enclosure ”,“ All data ”,“ All patterns ”
Becomes possible. After selection, execute key K16 and cancel key
-Perform or abort function by one of K17
You can choose. `` All data '' is a pattern setting
Settings and group settings, `` All
Is the entire contents of the pattern settings, and
Means the entire contents of the settings. Also, "Pattern range"
If “Group range” is selected, the pattern number
Or a screen for specifying the group number range appears.
On this screen, switch key K15 and cursor key K
14, the pattern number or the group
You can set the range of loop numbers. Then, the execution key K16
By pressing, the related data in the specified range is
The data is transferred from the unit 30 to the setting unit 34. The setting from the transmission unit 30 in this way
Creates relational data based on the data read into the unit 34
To do so, press the PG setting key K22 to
Move to the set pattern / group setting mode
No. On the other hand, in the item of “transmission unit”,
When "output" is selected, the data memory 20b stores
The related data stored is transmitted through the signal line Ls.
It can be transferred to the knit 30. "Output" is also
Power ", you can specify the data transfer range
You. Here, which pattern is used for "input" and "output"
Whether the data related to the number or group number is transferred
Is displayed on the display unit 12, and the
Then, a message indicating the end is displayed on the display unit 12.
This allows "input" and "output" to take a relatively long time.
Whether it is working properly or not.
To some extent predict how long it will take
Can reduce the user's anxiety.
You. When “collation” is selected, the data memo
And the transmission data stored in the storage unit 20b.
Compares with the relational data set in No. 30 and the collation result
Ends normally if matches, and the matching result does not match
When a mismatch is detected, the matching is suspended and the
Display the pattern number or group number on the display unit 12.
You. Thus, between the transmission unit 30 and the setting unit 34
Related data can be collated with the transmission unit.
Waste writing the same related data many times
Can be prevented. The setting unit 34 and the transmission unit 30
The transfer of data between and the load during the operation of the system
Can be performed without hindering the control of the control. Toes
The setting unit 34 transmits the relevant data to the transmission unit 30.
When trying to transfer by the same as the operation terminal 31,
An interrupt signal is generated, and data is transmitted to the transmission unit 30.
Make a transfer request. However, transfer is possible with one transmission signal
Since the number of bytes is smaller than the number of bytes of the related data,
Related data must be transferred by dividing into several transmission signals.
You. Therefore, the transmission unit 30 and the setting unit 34
Is provided with a counter, and is transferred between the
Count the number of bytes of related data
It is determined whether or not the transmission has been completed. In addition, transfer of related data
When an interrupt signal is generated by the operation terminal 31 during transmission
Means that the transmission unit 30 interrupts the transfer of the related data and
Priority is given to the processing for the interrupt signal from the terminal 31.
You. After the end of this processing, the transmission unit 30 sets the setting unit 34
And the transfer of the related data is resumed. Such a place
Control of the load L by operating the switch SW
The transfer of relevant data will take place without interruption.
You. Generally, generation of an interrupt signal by the operation terminal device 31 is performed.
The frequency depends on the number of times the dummy mode transmission signal is transmitted.
Compared to the transmission signal in dummy mode
Is transmitted, that is, the idle time
Existent enough to forward. Paraphrase
However, even if the load control is prioritized as described above,
Engagement data can be transferred in a relatively short time. The “check” is actually performed using the relational data.
"Operation check" to determine whether or not to operate
"Free terminal display" to be displayed, and the address of each terminal
Displays whether or not it is used in the session settings and group settings
"Terminal registration PG display"
The function of "system status display" can be selected. In the “operation check”, as shown in FIG.
Fields F2 to F4 for type, number and confirmation, and light control level
Is displayed, and the cursor keys K14 and
To give a type and a number by the switching key K15
Therefore, the operation state of the load and the dimming level are displayed.
Here, in a state where the confirmation field F4 is highlighted.
Operating the switching key K15 controls the on / off of the load.
Can be controlled and the cursor can be adjusted to the dimming level bar B
Is moved and the switching key K15 is operated to adjust the light control level.
Can control the That is, the setting device 34
Control, pattern control, group control,
Light level control becomes possible. In the “free terminal display”, as shown in FIG.
If the address of a terminal not under the control of the transmission unit 30 is
Is displayed. Since the display area of the display unit 12 is small,
If there are more free addresses than the amount, switch key K1
The remaining free addresses can be displayed by operation 5
it can. Here, the screen required to display the free address is displayed.
The number of faces is displayed as a fraction in the upper right. In the illustrated example, “1”
/ 1 "and can be displayed on one screen
It is shown. "1/2" when two screens are required
"2/2" is displayed. With this feature,
The address that is already used when adding a terminal
Since you can know, avoid mistakes in address duplication and malfunction
Crop can be prevented. In addition, "free terminal display"
Obtains the operation state of each terminal from the transmission unit 30
Depending on which terminals are used and which are not
And can be identified. In the "terminal registration P / G display", a terminal device is specified.
Then, in which pattern or group does the terminal
A list can be displayed as to whether or not they are used. Toes
As shown in FIG. 22, at the top of the screen of the display unit 12,
The cursor key K14 and the switching key K15
Therefore, after specifying the address (11-2 in the illustrated example),
When the execution key K16 is pressed, the pattern number and group
A list of loop numbers is displayed. This function is
Pattern setting and group setting
It is effective when it is necessary to change the contents and the purpose
Terminal belongs to any pattern number or group number.
By knowing which pattern setting and group
To easily change the contents of the loop settings.
You. Traditionally, this type of work has been done manually,
Turn settings and group settings were checked individually
On the other hand, the setting device 34 of this embodiment employs this type of work.
Has been automated to increase convenience. Note that "terminal registration P
・ G display ”means information obtained by searching related data
Is shown. The “system status display” is as shown in FIG.
In this way, the load status of each address is listed.
This is indicated by detecting the transmitted signal.
In the example shown, it corresponds to addresses 0-4, 1-2, 2-2
When the load is off. Pattern control and groups
Use this function after actually operating it during control
And the load operates as set in the pattern settings and group settings.
You can check whether you are making it by listing it,
The presence or absence of an error can be easily confirmed. By the way, when “edit” is selected,
Turn inversion, Copy, Erase all, Range
Becomes selectable. These choices are the same as in the above example.
A state in which a desired item is selected by the switching key K15
Then, the execution key K16 is operated. “Pattern inversion” is switched to the switching key K15
When the user selects and presses the execution key K16, the switching key
The state in which the pattern number can be selected by -K15.
Here, select the pattern number and press the execute key K16
When the related data belonging to the pattern number is turned on,
Can create relational data that is interchanged with off
You. If this function is used, for example, lighting
For one area to be lighted, one pattern
Turn on the load, turn off the lighting load for other patterns
Setting two sets of relational data such as
Becomes easier. In other words, two sets of "copy"
Create relational data,
If you apply `` inversion '', the on-off relationship will be opposite to the difference
Thus, two sets of related data can be created. Note that
For the terminal set outside the rear,
In the “inversion”, the on / off is not inverted. When “copy” is selected, the display section 12
Is the pattern or group, the copy source, and the copy
A field for entering the destination appears. Each field
Is specified by the switching key K15, and the execution key
By pressing K16, the related data is transferred from the copy source to the copy destination.
The data is copied. In other words, two sets of the same relational data
Can be achieved. By using this function,
When creating similar relational data,
Rather than create from scratch, modify some after copying
It is possible to create related data
This makes the task of creating a file easier. When "Erase All" is selected,
All data, all patterns, all glue
The user can select one of
By pressing 16, pattern control and group control
All relation data of pattern control, all relation data of pattern control
Data and group control data.
It can be erased collectively. In the “range”, the range or group of pattern numbers
Loop number range can be selected (pattern or group)
Is selected with the switching key K15).
The number at the end is designated by the switching key K15.
Also, for all addresses in the range,
Select either the off or out of area with the switch key K15
Then, when the execution key K16 is pressed, a plurality of patterns
Relationship data or relationship data for multiple groups
Can be set to on, off, or outside the area
Will be possible. By using such a function,
All-on, all-off,
The setting outside the all area becomes possible, and similar relation data
Create relational data in a short time when creating many sets of data
It becomes possible to do. In the “setting state”, the remote monitoring system
The operating mode of the system is controlled in the normal state (load
Control mode) or stop load control and
(Setting mode) for setting data to the transmission unit 30.
"P / G setting mode setting" to select
Turn control related data and group control related data
List of “PG setting contents” to be displayed in a list, pattern numbers,
"Available PG display" for displaying a list of available group numbers
Is selected. In the "PG setting mode setting", the switching key
-Normal state and setting state are selected by K15
is there. By providing this function, the transmission unit 3
It is possible to know whether 0 is a normal state or a setting state.
The state can be switched by the setting device 34
For example, even if it is in the setting state,
Release by the switch 34 and shift to the normal state
Can be. FIG. 24 shows the “PG setting contents list”.
Belong to each pattern number or each group number
The on / off status of the address is displayed in a list. Figure
In the example shown, the pattern number (P1) is displayed at the upper left.
You. Here, the addresses belonging to the pattern number or group number
If the address exceeds the display amount of the display unit 12, the
By operating the key K15, the screen is switched to another address.
Can be displayed one after another. FIG. 25 shows the "free PG display".
List of pattern numbers and group numbers, and
A circle is attached to the product. Here, the switching key K1
The screen is switched by the operation of 5 to change the other pattern numbers and
Group numbers can be displayed one after another. In addition,
Press the group key K33 to display the turn number.
Use the pattern keys to operate and display the group number.
Press K34. The pattern number and glue
It has a function to display the available
Pattern numbers that have already been used when expanding
The group number can be checked, and the pattern number and group
It is possible to prevent loop numbers from being duplicated. this
The function is also realized by searching for related data. [0092] According to the present invention, a plurality of addresses each having an address are provided.
Several terminals were connected to the signal line and connected to the signal line
Time division multiplex transmission between transmission unit and each terminal
To send and receive transmission signals, and use the
One of the terminal devices by exchanging data between devices
Controls the load connected to other terminals according to the monitoring input to
Enables one address and load corresponding to the monitoring input
A set of corresponding addresses and load control status
When the related data set in the transmission unit is set
Can control multiple loads at once by one monitoring input
Used in remote monitoring and control systems
Display unit that can switch and display different screens, and in cooperation with the display unit
Indicates the address of each terminal or the setting contents of related data
Operation unit, and multiple units set by the display unit and operation unit
A data memory capable of storing a set of related data, a display
And the address of each terminal set by the operation unit.
Process and related data stored in the data memory
Signal that can be transferred to the transmission unit at least
The processing unit is provided in a portable body that can be gripped by hand
Is a common configuration, portable and compact.
While it can be used for multiple systems,
Data settings can be checked easily.
The function suitable for editing the setting contents of the related data
Facilitates the setting of related data
be able to. [0093] [0094] [0095]In particular,The signal processor is installed in the transmission unit.
Relationship data and data memory
And the related dataIf there is a mismatch
When a match is foundThe set name of the related data is displayed on the display
Have the function of indicatingFrom, biographyTransfer unit
Relationship data and the relationship data set in the data memory.
Checking whether the data matches
There is no need to set the data again. [0096] [0097] [0098] [0099] [0100] [0101] [0102]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing an embodiment of the present invention. FIG. 2 is a longitudinal sectional view of the same. FIG. 3 is a plan view of the same. FIG. 4 is an exploded perspective view of the same. FIG. 5 is a rear view with the same part cut away. FIG. 6 is a side view of a main part of the above. FIG. 7 is a block diagram of the above. FIG. 8 is a wiring diagram showing a usage pattern of the above. FIG. 9 is a front view of a main part showing a display unit of the above. FIG. 10 is an operation explanatory view of the above. FIG. 11 is an operation explanatory view of the above. FIG. 12 is an operation explanatory view of the above. FIG. 13 is an operation explanatory diagram of the above. FIG. 14 is an explanatory diagram of the operation of the above. FIG. 15 is an operation explanatory view of the above. FIG. 16 is an operation explanatory view of the above. FIG. 17 is an operation explanatory view of the above. FIG. 18 is an explanatory diagram of the above operation. FIG. 19 is an explanatory diagram of the operation of the above. FIG. 20 is an explanatory diagram of the operation of the above. FIG. 21 is an explanatory diagram of the operation of the above. FIG. 22 is an explanatory diagram of the operation of the above. FIG. 23 is an explanatory diagram of the operation of the above. FIG. 24 is an explanatory diagram of the above operation. FIG. 25 is an explanatory diagram of the operation of the above. FIG. 26 is a block diagram showing a conventional system configuration. FIG. 27 is an explanatory diagram of the above operation. FIG. 28 is a block diagram showing another conventional system configuration. [Description of Signs] 11 Body 12 Display unit 13 Operation unit 20 Signal processing unit 20b Data memory 21 Transmission / reception circuit 30 Transmission unit 31 Operation terminal unit 32 Control terminal unit 34 Setting unit Bz Buzzer L Lighting load Ls Signal line Sa switch Sb switch

Continuation of the front page (56) References JP-A-11-46387 (JP, A) JP-A-11-69468 (JP, A) JP-A-11-113044 (JP, A) JP-A-8-294177 (JP, A) JP-A-10-94078 (JP, A) JP-A-2-39648 (JP, A) JP-A-7-236187 (JP, A) JP-A-6-96872 (JP, A) (58) Field surveyed (Int. Cl. ⁷ , DB name) H04Q 9/00

Claims (1)

(57) [Claims 1] A plurality of terminals each having an address are connected to a signal line, and time division multiplexing is performed between the transmission unit connected to the signal line and each of the terminals. Transfers transmission signals according to the transmission method, and transfers data between terminals using the correspondence of addresses, so that the load connected to another terminal can be controlled according to the monitoring input to one of the terminals. When a transmission unit is set with relational data in which one address corresponding to a monitoring input and a plurality of addresses corresponding to a load and a control state of the load are set in the transmission unit, a plurality of loads are collectively processed by one monitoring input. A display unit that is used in a remote monitoring and control system that can control the display by switching between screens having different display contents, and cooperates with the display unit to specify the address of each terminal device or the setting contents of the related data. Operating unit, a data memory capable of storing a plurality of sets of relational data set by the display unit and the operation unit, and a process of transferring an address of each terminal set by the display unit and the operation unit to the terminal. And a signal processing unit capable of at least performing a process of transferring related data stored in the data memory to a transmission unit, provided in a portable body having a size that can be gripped by hand, wherein the signal processing unit includes the transmission unit.
Related data set in the data memory
Match with the related data, and the matching result does not match
The group name of the relational data when a mismatch is detected with
A setting device for a remote monitoring and control system having a function of displaying on a display unit.