JP3481960B2 - Control terminal for remote monitoring and control system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote monitoring control system. 2. Description of the Related Art Conventionally, there is a remote monitoring and control system for controlling and monitoring a load using time division multiplex transmission. As shown in FIG. 6, the remote monitoring and control system comprises a transmission line 4 comprising a pair of lines from a central control unit 1.
Are connected to a plurality of control terminals 3, a monitoring terminal 2 for monitoring the operation of operation switches S ₁ ... Such as wall switches, and each control terminal 3 is connected to a load L ₁ . The monitoring terminal 2 is configured by connecting operation switches S ₁ . The operation of the supervisory control system will be described with reference to a multiplex transmission signal Vs shown in FIG. 1. A multiplex transmission signal Vs having a format as shown in FIG. The control terminal 3 and the monitoring terminal 2 are monitored and controlled. That is, the multiplex transmission signal V
s is a start pulse ST indicating the start of signal transmission as shown in FIG. 7B, and mode data M indicating a signal mode.
D, address data AD, control data C for controlling the load
D, a multi-pole (± 24 V) time-division multiplexed signal including a checksum data CS for detecting a transmission error, and a reply waiting period WT for setting a reply waiting period for reply data. The data is transmitted by pulse width modulation. It has become. In the control terminal 3 and the monitoring terminal 2, when the address data AD of the multiplex transmission signal Vs received via the transmission line 4 coincides with its own address set in advance. The control data CD of the multiplex transmission signal Vs is taken in, and the return signal is transmitted in synchronism with the return wait period WT of the multiplex transmission signal Vs by short-circuiting the current mode signal (between the transmission lines 4 via a suitable low impedance). Signal). On the other hand, the central control unit 1 is provided with a dummy signal transmitting means and an interrupt processing means. The dummy signal transmitting means constantly transmits the multiplex transmission signal Vs in which the mode data MD is set to the dummy mode. Further, when the interrupt signal Vi as shown in FIG. 7B is returned, the interrupt processing means causes the monitoring terminal 2 which has generated the interrupt signal Vi to return reply data. That is, the monitoring terminal 2 connects the operation switches S ₁ ... And sends an interrupt signal Vi in response to a change in the switch output when the switch output is turned on or off. In response to the interrupt signal Vi, the central controller 1 transmits a multiplex transmission signal Vs for address search for each group address in order to search for the interrupted terminal device 2. The interrupted monitoring terminal 2 returns its own unique address as return data when the group to which it belongs is accessed. [0007] By this reply, the central control unit 1 can determine the monitoring terminal 2 that has caused the interruption, and then the multiplex transmission signal Vs having the address data AD of the monitoring terminal 2.
Is transmitted to access the monitoring terminal 2, and the operation data of the operation switches S ₁ ... Connected from the monitoring terminal 2 is returned as monitoring data. On the basis of the operation data returned from the monitoring terminal 2 in this manner, the central control unit 1 controls the control terminal 3 for controlling the load 5 corresponding to the monitoring terminal 2.
The control data CD to be given to the
Is transmitted to the control terminal 3 via the transmission line 4 in a time-division multiplex manner, so that the lighting loads 5 are individually turned on and off. Since the control terminal 3 does not have a function of displaying whether or not a multiplex transmission signal has been received, the control terminal normally operates. I didn't know if it was. SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and has as its object the reception operation can be displayed by turning on the display element, and the address setting can be easily performed.
To provide a remote monitoring and control system that lame. In order to achieve the above-mentioned object, according to the present invention, a central control unit, a plurality of monitoring terminals and a plurality of control terminals are paired. Connected via a transmission line, transmitting a multiplexed transmission signal from the central control unit to access the terminal, and giving the control terminal a load control data based on the monitoring data from the corresponding monitoring terminal; The monitoring terminal is used in a remote monitoring and control system comprising a multiplex transmission system for returning monitoring data to the central control unit during a reply waiting period provided for the multiplex transmission signal.
The address data of the received multiplex transmission signal is its own address.
, When the load control is performed based on the control data included in the multiplex transmission signal,
A terminal circuit unit for generating a reception display signal during a reply waiting period, a reception display element illuminated during the generation of the reception display signal, a decimal rotary switch for setting a unique address, and a rotary switch A setting error display element that lights when an incorrect address is set by the terminal circuit unit, and the terminal circuit unit displays a reception display element and a setting error table.
The operation display of forced ON or forced OFF is displayed by the display element.
It is what makes them. According to the first aspect of the present invention, the load control can be performed by the terminal circuit section based on the control data of the multiplex transmission signal, and the display element for reception display can be turned on. In addition, since a decimal type rotary switch is provided for setting a unique address, it is possible to set an address using a decimal number that is used on a daily basis, thereby facilitating the address setting . The present invention will be described below with reference to examples. FIG. 1 shows an embodiment of a control terminal according to the present invention. In this embodiment, a multiplexed transmission signal Vs is rectified by a full-wave rectifier DB, and then a transistor Q is turned on.
_1. a power supply unit 10 for obtaining a stabilized DC voltage by a stabilizing circuit comprising a Zener diode ZD and the like;
The s and receiving circuit 11 that extracts the switching of the transistor Q _2, the central control unit a response signal of the current mode by short-circuiting the signal line 4 via the resistor R ₁ and the full-wave rectifier DB by a switching transistor Q ₃ 1 , A terminal circuit unit 13 composed of a microcomputer, an address setting unit 14, a two-winding type latching relay Ry ₁ for load control, and the like. The terminal circuit unit 13 inputs the multiplex transmission signal Vs extracted by the transistor Q ₂ of the reception circuit 11, reads the address data AD of the multiplex transmission signal Vs, and reads the set value of the address setting unit 13 and the address data AD. When they match, a control function for setting and resetting the latching relays Ry ₁ ... Based on the control data CD and the state of the monitoring contacts r ₁ ... Of the latching relays Ry ₁ . And the operation signal of the forcibly on switch SWa and the forcibly off switch SWb are taken in, and the lashing relay Ry
₁ ... and forcibly performs functions set reset, or to light the display element L ₁ comprising a light emitting diode to output the contact r ₁ ... monitoring input return period in the received display signal for the monitor, address When the address set by the setting unit 14 deviates from a predetermined address setting range assigned for a control terminal, a display signal indicating a setting error is output to display element L including a light emitting diode. ₂ is provided with a display function for lighting. The address setting section 14 is composed of two decimal rotary switches RS ₁ and RS ₂ , one rotary switch RS ₁ for the tens place and the other rotary switch RS ₂ for the ones place. . The latching relay Ry ₁ ... contacts r ₁ '... for loading is inserted between a power supply and a load, on-off load was turned on or off in response to the latching relay Ry ₁ ... Reset Set Control. Reference numeral 15 denotes a reference clock generation circuit of the terminal circuit section 13, and reference numeral 16 denotes a reset circuit. In the control terminal of the present invention, since the unique address is set by using the decimal rotary switches RS ₁ and RS ₂ , the unique address is set by using a hexadecimal dip switch, or an external setting device is used. Address setting can be performed easily as compared with the case where address setting is performed using the address. Port The terminal circuit portion 13 when the set address of the address setting is out of the address setting ranges that are assigned in advance control terminal unit is connected to the display element L ₂ "
In the L "displayed by lighting the display element L _2, it is possible to inform the user of the setting error. [0019] Now During normal operation, the address of the multiplexed transmission signal Vs transmitted from the central controller 1 When the data AD matches the address set by the rotary switches RS ₁ and RS ₂ of the address setting unit 14, the terminal circuit unit 13 sets the latching relay Ry ₁ based on the contents of the control data CD.
.. Are set or reset via drive transistors Q ₁₁ , Q ₁₂ ,.
The status of the monitoring contacts r ₁ .
During this time, a reply is sent to the central control unit 1 through the transmission circuit 12.
And during this return period, and to "L" port connected to the display element L _1, to light the display element L _1, indicating that the operation is successful by receiving the multiplexed transmission signal Vs. Since this display is short, the current consumption is small. When the load is forcibly turned on or off on the control terminal side, the forcible on switch SWa or the forcible off switch SWb may be operated. In this case, the terminal circuit unit 13 includes the forcibly on switch SWa. Or, the port connecting the switch SWb for forced off is "
Latching relay Ry ₁ detects that became the L "...
Is forcibly set or reset. At the same time the display element L ₁ or L ₂ is turned on current flows through the switch SWb for forced ON switch SWa or forced off, performs an operation display forced on or forced off. The control terminal of the present invention is shown in FIGS.
As shown in FIG. 1, the circuit components shown in FIG. 1 are mounted on a body 20 having a size corresponding to a double module size of a standard module size of an embedded wiring device. Vessel 2
Numeral 0 is fitted and mounted in the central window hole of the two mounting frames 21 so that it can be mounted in an embedded switch box or an embedded hole provided in a wall. The mounting frame 21
Are made of synthetic resin, and upper and lower frame pieces are provided with holes 21a for mounting to the switch box, screw holes 21b for mounting the decorative plate, holes 21c for mounting the wall surface, and holes 21d for mounting the clamps for holding the wall panel. Provided. On the front of the body 20, the display elements L ₁ and L ₂
And the operation shaft 22 of the rotary switches RS ₁ and RS _2
1, 22 ₂ of the head, the forced-on switch SWa, the operation button 24a of the forced OFF switch SWb, are exposed to 24b, viewing and display from the front, so that it is a switch operation. The operation buttons 24a and 24b of the forcible on switch SWa and the forcibly off switch SWb are connected to the body 2
It is exposed at the bottom of the recess formed on the front surface of the button 0 to prevent the operation buttons 24a and 24b from being pressed by mistake. On the back of the body 20, terminals 25 and 26 each having two built-in quick connection terminals connected to one end of the load, and a quick connection terminal connected to the other end of the power supply having one end connected to the load. And a common terminal 27 having a built-in terminal and a transmission line terminal 28 for connecting the transmission line 4 composed of two wires. FIG. 4 shows a front surface and a back surface of a printed circuit board 23 disposed in the body 20, and the display element L is provided on the front surface.
₁ , L ₂ , rotary switches RS ₁ , RS ₂ , forcibly on switch SWa, forcibly off switch SWb, etc.
On the back side, latching relays Ry ₁ .
6 and 27 are implemented. FIG. 5 shows a cross section of the terminal portion 25 (26, 27), in which a well-known quick-connecting terminal comprising a locking spring 30 and a terminal plate 31 is incorporated. The core wire of the inserted electric wire is locked between the locking spring 30 and the terminal plate 31, and this locked state can be released by a release button 33. [0026] [Effect of the Invention of claim 1, wherein the invention is the control terminal device used in the remote monitoring control system, multi-received
The address data of the double transmission signal matches its own address.
The load control based on the control data included in the multiplex transmission signal and wait for the return of the multiplex transmission signal.
A terminal circuit portion for generating the received display signal during a reception display for a display device which lights during the generation period of the received display signal, a rotary switch decimal for unique address set incorrectly by rotary switch and a setting error display elements to be turned on when it is set to the address, end
The end circuit part becomes the display element for reception display and the setting error display element.
More force on or force off operation display
Since that, performs a load control based on the control data of the multiplexed transmission signal by the terminal circuit, there is an effect that it is possible to light the reception display for a display device. In addition, since a decimal type rotary switch is provided for setting a unique address, it is possible to set an address using a decimal number that is commonly used, and it is possible to set an address using a hexadecimal dip switch or an external setting device. Address setting becomes easy. In addition, when the wrong address is set by the rotary switch, the setting error display element is turned on, so that the user can be notified of the address setting error, and the reception display element and the setting error are displayed.
Operation table for forced ON or forced OFF using the display element
Indications can be made.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a circuit diagram of one embodiment of the present invention. FIG. 2A is a front view of the above-mentioned container. (B) is a side sectional view of the same body. FIG. 3 is a rear view of the same body. FIG. 4A is a top view of a printed circuit board mounted in the above-mentioned case. (B) is a bottom view of the printed circuit board mounted in the same body. FIG. 5 (a) is a terminal portion used in the same as above,
It is -A 'sectional drawing. FIG. 4B shows a terminal portion used in the same manner as BB ′ in FIG.
It is sectional drawing. FIG. 6 is a configuration diagram of a remote monitoring control system. FIG. 7 is an explanatory diagram of a multiplex transmission signal Vs. [Description of Signs] 11 Receiving circuit 12 Transmitting circuit 13 Terminal circuit section 14 Address setting section Ry ₁ ... Latching relay r ₁ ... Monitoring contacts L ₁ , L ₂ Display elements RS ₁ , RS ₂ Rotary switch

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-188096 (JP, A) JP-A-3-44135 (JP, A) JP-A-63-227299 (JP, A) JP-A-4- 5387 (JP, A) JP-A-62-197957 (JP, A) JP-A-1-265698 (JP, A) JP-A-56-98331 (JP, U) (58) Fields investigated (Int. ⁷ , DB name) H04Q 9/00 H05B 37/02

Claims (1)

(57) [Claims 1] A central control unit is connected to a plurality of monitoring terminals and control terminals via a pair of transmission lines, and a multiplex transmission signal is transmitted from the central control unit. To access the terminal, give the control terminal the load control data based on the monitoring data from the corresponding monitoring terminal, and send the reply provided in the multiplex transmission signal to the monitoring terminal. A multiplex transmission signal received and used in a remote monitoring and control system comprising a multiplex transmission system for returning monitoring data to a central control unit during a standby period.
Multiplexed when the address data of
The load control is performed based on the control data included in the transmission signal, and the load is received during the return waiting period of the multiplex transmission signal.
A terminal circuit unit for generating a communication display signal, a reception display element illuminated during the generation of the reception display signal, a decimal-type rotary switch for setting a unique address,
And a setting error display elements to be turned on when it is set to the wrong address by the rotary switch, the terminal circuit unit
Forced off by the display element for reception display and the setting error display element
Or forced off display.
Control terminal unit of the remote monitoring control system.