JP2773819B2 - Control system - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a control system using a remote control relay. [Background Art] FIG. 2 shows an overall view of a control system of this kind, in which a commercial power supply voltage of 100 V or 200 V is reduced to a small power voltage by a step-down transformer 1 and a remote controller is used by using the reduced AC. The relays 2 are operated by the operation switches 4 of the operation unit 3. Here the remote control relay 2 is composed of one winding polar latching relay as shown in Figure 3, switching the rectifier diode Da or Db with auxiliary contact r ₁ upon excitation operation is connected in series with the excitation coil C rectifier diode Da, switches the energization direction by Db, and is adapted to turn on and off the load L such as lighting by turning on and off the main contact r ₂ Te. The operation unit 3 is connected to each remote control relay 2.
When the operation switch 4 is turned on, the energization direction is set in the same direction as the diode Da, for example, and the operation switch 4 is turned off. The energization direction can be set in the same direction as the diode Db. By the way, since the step-down transformer 1 is used in this conventional example, the remote control relay 2 is controlled by the capacity of the step-down transformer 1.
.., And the wiring length are limited, and furthermore, there is a problem that a space for mounting the step-down transformer 1 is required when the step-down transformer 1 is incorporated into the distribution board 5. [Object of the Invention] The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to directly drive a remote control relay with a commercial power supply and to limit the number of simultaneously driven remote control relays and the wiring length. There is no control system to offer. DISCLOSURE OF THE INVENTION According to the present invention, the main contact is turned on or off in the direction of the current flowing through the exciting coil to maintain the state of the main contact until the next reverse excitation, and the auxiliary contact is switched to be connected in series to the exciting coil. The direction of the rectifier diode is switched, and a remote control relay that turns on and off the load at the main contact, and a control terminal and a monitoring terminal having a unique address are connected to the central control unit via a signal line. When accessed by the time division multiplex transmission signal transmitted via the signal line, the monitoring terminal returns the status of the operation switch of the operation unit, and the central control unit responds to the corresponding control based on the returned monitoring data. The terminal is accessed by the time-division multiplexed transmission signal, and control data corresponding to the state of the operation switch is sent. A time-division multiplexing transmission system that sets the direction of energization to the excitation coil of the remote control relay. The control system includes a remote control relay, a central control device, and a control terminal in a distribution board. And a series circuit with the energization direction switching unit is directly connected to a commercial power supply, and the remote control relay is excited by the commercial power supply voltage. Hereinafter, the present invention will be described with reference to examples. FIG. 1 shows an embodiment 1 in which the control terminal 6 of the time division multiplex transmission system switches the energizing direction of each corresponding remote control relay 2, wherein the time division multiplex transmission system comprises a central control device 7, The monitoring terminal 8 for monitoring the state of the operation switches 4 of the operation unit 3 and the load L are connected to the remote control relays 2.
Are connected to a pair of signal lines 9, and the central control unit 7 accesses the monitoring terminal 8 to return monitoring data, and the control formed based on the monitoring data. The central control unit 7 accesses the control terminals 3 and transmits the data, and the control terminals 3 return a control confirmation signal. Thus, the central controller 7 accesses the control terminals 6 to return an operation confirmation signal indicating the control state of the load L,
The operation state of each load L is indicated by a lamp on the operation unit 3. Next, the central controller 7 checks whether there is an interrupt request from the monitoring terminal 8. The monitoring terminal 8 generates an interrupt signal when any one of the operation switches 4 is operated, notifies the central control device 7 that an operation input has been made, and requests access by interrupt processing. ing. When the interrupt signal is received, the central control unit 7 immediately accesses the monitoring terminal 8 to return the monitoring data, and operates the operated operation switches 4.
Is confirmed, control data for controlling the load L is created based on the operation input, and the control data is transmitted by accessing the control terminals 6... For controlling the load L. The control terminal 6 compares its own unique address with the address transmitted by the address data signal of the transmission signal, and when an address match is obtained, the control data transmitted by the subsequent control data signal. And outputs a load control signal for controlling the load L as switching of the energizing direction of the remote control relay 2 to drive the remote control relay 6 to turn the load L on or off. Next, a control confirmation signal is returned from the control terminal 6 to the central controller 7 as a current mode signal in synchronization with the return standby period signal. The central controller 7 receives this control confirmation signal and receives the load L
Is checked, and the operation display lamp is controlled to display the current load control state. According to the present invention, the main contact is turned on or off in the direction of the current flowing through the exciting coil to maintain the state of the main contact until the next reverse excitation, and the auxiliary contact is switched to be connected in series to the exciting coil. The direction of the rectifier diode is switched, and a remote control relay that turns on and off the load at the main contact, and a control terminal and a monitoring terminal having a unique address are connected to the central control unit via a signal line. When accessed by the time division multiplex transmission signal transmitted via the signal line, the monitoring terminal returns the status of the operation switch of the operation unit, and the central control unit responds to the corresponding control based on the returned monitoring data. The terminal is accessed by the time-division multiplexed transmission signal, and control data corresponding to the state of the operation switch is sent. A time-division multiplexing transmission system that sets the direction of energization to the excitation coil of the remote control relay. The control system includes a remote control relay, a central control device, and a control terminal in a distribution board. Since the series circuit with the energization direction switching unit is directly connected to the commercial power supply and the remote control relay is excited by the commercial power supply voltage, there is no need to provide a step-down transformer, and the limited space inside the distribution board is effectively used. Since many remote control relays and control terminals can be centrally arranged by using them, there is no restriction on the wiring length, and there is no need to consider the capacity of the step-down transformer 1, so the number of simultaneously driven remote control relays In addition, there is an effect that the wiring to the load and the control terminal can be centrally managed and the maintenance is facilitated.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic configuration diagram of Embodiment 1 of the present invention, FIG. 2 is a schematic configuration diagram of a conventional example, and FIG. 3 is an operation circuit diagram of a remote control relay. 2 ... remote control relay, 3 ... operation unit, 4 ... operation switches.

Continuation of front page       (56) References JP-A-60-70938 (JP, A)                 JP-B-51-9869 (JP, B2)                 Tokiko Sho 51-9870 (JP, B2)

Claims (1)

(57) [Claims] The main contact is turned on or off in the direction of the current flowing through the exciting coil to maintain the state of the main contact until the next reversal excitation, and the auxiliary contact is switched to switch the direction of the rectifier diode connected in series to the exciting coil. A remote control relay that turns the load on and off at a contact point, and a control terminal and a monitoring terminal having a unique address are connected to the central controller via a signal line, and sent from the central controller via the signal line. When accessed by the time division multiplex transmission signal, the monitoring terminal returns the state of the operation switch of the operation unit, and the central control unit uses the time division multiplex transmission signal to notify the corresponding control terminal based on the returned monitoring data. Access and send the control data corresponding to the state of the operation switch, and the control terminal sends the corresponding remote controller relay excitation coil Is composed of a division multiplex transmission system when setting the electrostatic direction, remote control relay and the central control device,
A control system having a control terminal built into a distribution board,
A control system characterized in that a series circuit of a remote control relay and an energization direction switching unit of a control terminal is directly connected to a commercial power supply, and excitation of the remote control relay is performed at a commercial power supply voltage.