KR19980046498A - Facility Control - Google Patents

Abstract

The present invention relates to a facility control device in a similar device such as an unmanned automation system, and in particular, it is possible to efficiently control the overall facility system by allowing the control signal to communicate in both directions through the facility and the main transmitter of the unmanned automation system. It relates to a facility control device.

Description

Facility Control

The present invention relates to a facility control device in a similar device such as an unmanned automation system, and in particular, it is possible to efficiently control the overall facility system by allowing the control signal to communicate in both directions through the facility and the main transmitter of the unmanned automation system. The present invention relates to a facility control apparatus.

Conventional equipment control is composed of a controller 101 for controlling as shown in FIG. 1, and a facility controller 103 connected to the controller 101 to control each part of the facility and the lighting and air conditioner 105. . In FIG. 1, there is no control function for data communication between the controller 101 and the facility controller 103, and only a relay transmits a signal by an on / off contact method using a relay, thereby making it impossible to control a facility. Accordingly, it is difficult to know whether the status of each equipment target equipment is normal or abnormal in the main device, and it is difficult to control the equipment target equipment automatically, and when there are many equipment target equipment, it is difficult to accommodate it, and it is controlled by the expansion of the target equipment. It is difficult, and there is a problem that it is difficult to control unattended simply by turning on / off because there is no function to check the abnormality in the target equipment.

Accordingly, an object of the present invention is to provide a circuit capable of controlling two or more target devices by receiving an input signal from the main transmitter while communicating with each other through a center and a main transmitter at an unmanned automation corner.

Another object of the present invention is to provide a circuit capable of efficiently controlling a facility control device.

The present invention for carrying out the above object is a communication unit for communicating in a multi-drop method between the controller and the facility control unit, a monitoring selection unit for monitoring voltage and current, and a address input unit for identifying the own unique number in the controller, communication It is characterized in that it is configured as a control unit to control each equipment target equipment in a continuous operation automatically or manually according to the schedule.

1 is a conventional system diagram

2 is a system according to an embodiment of the present invention.

3 is a concrete block diagram of a facility control system;

4 is a detailed circuit diagram of FIG. 2 according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram according to an embodiment of the present invention.

DC power supply unit 201 for supplying DC power to each part, address input unit 202 for inputting unique number of the device, device lid opening monitoring unit 203 for monitoring the abnormality of the device lid, voltage and current A monitoring selection unit 204 for selecting monitoring and driving the facility control target device;

A relay driver 205, a communication unit 206 for communicating with the center, a display unit 207 for indicating normal and abnormality, an operation unit 208 for selecting functions of each unit, and an AC power source for supplying each relay And a power supply unit 209 and a monitoring unit 210 for monitoring on / off for voltage and current.

3 is a system diagram for controlling a facility control target device according to an embodiment of the present invention;

A plurality of facility control units # 1-5 (307), a plurality of CD / ATM monitoring unit 309, the facility control unit # 1-5 (307) and the CD / ATM monitoring unit 309 is connected to the state of the equipment It is connected to the main signal transmitter 303 for receiving the signal and transmits the overall equipment control signal, the power supply device 302 for supplying power to the main signal transmitter 303, and the main signal transmitter 303 in a controlled state. Is composed of an output device 305 for indicating a and a receiving device 301 for receiving the processing data of the main signal transmitter 303.

4 is a detailed circuit diagram of FIG. 2 according to the present invention.

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIGS.

The facility control unit 307 is operated by receiving the power supplied from the power supply 302 from the main signal transmitter 303, and the CD / ATM monitoring unit 309 is configured to communicate data with the communication unit 206. It is configured to transmit abnormal signal. The AC power supply unit 209 is provided with the AC power input as the driving power of the relay, which is also provided to the DC power supply unit 201 to generate the driving power (5Vcc) of each part. According to the supply of the driving power, each part is in normal operation. The address input unit 202 connects the rotary switch S2 to the buffer U3 and reads data from the input port of the central processing unit 211 to read the address when power is applied to the device. The CPU 211 uses the switch S2 as a unique address when the device is operated. When the unique address is read once by the central processing unit 211, the unique number is continuously stored, and when an error occurs, the unique address is transmitted along with the unique number. When the device lid opening monitoring unit 203 opens the lid using the photocoupler PC1, the light emitted from the light emitting diode is applied to the phototransistor to turn on the phototransistor. When the phototransistor is turned on, the collector becomes low, so the central processing unit 211 periodically detects this and checks for abnormalities. The abnormality is transmitted to the main signal transmitter 303 according to the detection result to inform that the abnormality of the facility control unit 307 has occurred. The monitoring selector 204 is selected by the switch S1 to monitor the voltage or current of the household equipment target device. The signal sensed according to the selection of the switch S1 is pulled up by the resistors R21-R27 and applied to the CPU 211 through the buffer U2. The relay unit 205 is a latch relay switch ( SW8-SW10), auxiliary relay and VC relay. Five latch relays are used, which are operated at a power supply DC12V, are closed between C-NO when facility control is on, and are open between C-N0 when facility control is off. When C-N0 is closed, it operates as a voltage contact. The relay receives the DC input signal and supplies the input voltage to the VC1 relay. The coil power of the auxiliary coil operates with AC 220 and is closed between C-N0 when the facility control is on, and is opened between C-N0 when the facility control is off. The VC relay is turned on and off automatically and manually by the schedule of the signal transmitter 303. Therefore, it is connected to VC1-VC5 in order. The VC relay output unit senses an output current using a current transformer to recognize an operating state. The communication unit 206 configures data as + 12V (high) and 0V (low) to communicate. When receiving data, + 5V (high) is input from T of the terminal board, and is input to the comparator U8 to compare with the reference voltage. At this time, the output of the comparator U8 is low because it is higher than the reference voltage. The transistor Q1 is turned off by the low of the output of the comparator U8, so the central processing unit 211 receives a high. However, data reception is input to comparator U8 when + 0V (low) is input from T of the terminal board and compared with the reference voltage. At this time, the output of the comparator U8 becomes high because it is lower than the reference voltage. The transistor Q1 is turned on by the high of the output of the comparator U8, so the CPU 211 receives a low. The display unit 207 is composed of seven light emitting diodes (LED1-LED7) on the front of the device, so that the power, communication, and the status of the device can be seen, the power LED operates both AC and DC. And the communication LED is activated when communicating with the signal transmitter. The fault LED indicates the normal and fault status of VC relay 1-3, the on / off status is indicated by the schedule of the signal transmitter, the ON is input on the schedule and the manual operation of the AUTO / MAN switch Send error to the equipment and turn on the abnormal LED of each equipment number. The operation unit 208 is located on the front panel, and is composed of five switches (SW3-SW7). The switch is a switch that can be operated manually and automatically up to the equipment number NO1-N02. As the contact state continues to operate, the equipment control switch has high reliability. The AC power supply unit 209 has an input power supply of 220V and a built-in temperature fuse to protect the device when a short occurs from the outside. In addition, 680V circuit is connected at both ends of AC, so it can cut inflow voltage from AC, DC voltage and voltage lightning.

As described above, by communicating with the main signal transmitter, each equipment can be controlled by a predetermined schedule in the main signal transmitter, and a current detection circuit capable of detecting it by operating with a low current consumption and automatically on / off manually. Therefore, there is an advantage that can control the equipment unattended.

Claims (2)

In the equipment equipped with a controller and a facility control unit, Communication unit for multi-drop communication between the controller and the facility control unit, address input unit for identifying the own unique number in the controller, and a control unit for continuously controlling each equipment target equipment automatically or manually according to the communication schedule Device characterized in that. In the facility control system, DC power supply unit 201 for supplying DC power to each part, address input unit 202 for inputting unique number of the device, device lid opening monitoring unit 203 for monitoring the abnormality of the device lid, voltage and current A monitoring selection unit 204 for selecting monitoring and driving the facility control target device; A relay driver 205, a communication unit 206 for communicating with the center, a display unit 207 for indicating normal and abnormality, an operation unit 208 for selecting functions of each unit, and an AC power source for supplying each relay And a power supply unit (209) and a monitoring unit (210) for monitoring on / off for voltage and current.