KR100746531B1 - The method of wireless local power control system - Google Patents

Abstract

An automatic wattage control apparatus using a wireless signal and a control method proper for the same are provided to make a wireless sensor device, a wireless control system, and a wireless remote controller transmit and receive a signal by wireless communication and to facilitate installation work by excluding a cable. An automatic wattage control apparatus using a wireless signal comprises a wireless sensor device converting an alarm signal generated from an output port of an automatic power control device if exceeding a set available power value, into a wireless signal and then transmitting the wireless signal, and a wireless control system receiving the signal output from the wireless sensor device and turning on or off a switch of an air conditioner. Management PCs(Personal Computers) of the automatic power control device and the wireless control system are connected through the internet to share data. The wireless control system is composed of a sensor port(101) assigning ID(Identification) to each alarm output port according to each grade and dividing the alarm for generating and releasing signals for each port; a sensor signal analyzer(102) analyzing the signals of the sensor port according to each grade and port; a controller(103) receiving and analyzing the signals analyzed in the signal analyzer; a wireless protocol generator(104) receiving and converting the signal analyzed in the controller, into a protocol capable of controlling a wireless remote controller; and an FM(Frequency Modulation) transmitting unit(106) converting the protocol into a digital code and then transmitting the digital code.

Description

Automatic premises power control system using wireless signal and control method suitable for it {The method of Wireless Local Power Control System}

1 is a block diagram showing an automatic premises power control apparatus using a wireless signal according to the present invention;

FIG. 2 is a block diagram of a wireless sensor device that detects an alarm signal of a power management system applied to FIG. 1 and generates a corresponding wireless signal and transmits the wireless signal to a wireless control system.

Figure 3 is a configuration of a wireless control system that controls the entire system applied to Figure 1 and analyzes the signals received through the wireless sensor device and the TCP / IP Network and generates a wireless protocol control signal and transmits through the antenna as a wireless signal Block diagram shown.

4 is a block diagram showing the configuration of a wireless remote controller for controlling a switch such as an air conditioner wirelessly applied to FIG.

* Description of Signs of Main Parts of Drawings *

100: wireless sensor device

200: wireless control system

300: wireless remote controller

400: Operating PC

500: power automatic control device

The present invention relates to an automatic premises power control apparatus and method using a wireless signal, and more particularly, a system that automatically maintains within a desired power peak value automatically using a wireless signal can be easily installed without a cable as a wireless product. The present invention relates to an automatic premises power control apparatus using a wireless signal and a method thereof.

In general, the automatic power control device according to the prior art monitors the amount of power used, the alarm signal is generated at the output port for each class, but when the alarm occurs, there is no choice but to directly connect the wire to the switch of the equipment to turn off the power.

In addition, it is even more impossible to install the switch of the equipment installed in the entire building by wire to the power control room.

Therefore, when you want to control the power switch of a specific refrigerator that consumes a lot of power, it is controlled by wires. However, the refrigerator is a facility that directly affects production, causing damage to the production. Even if it is normalized, there is no inconvenience to turn it on manually because there is no way to turn it on automatically.

Accordingly, an object of the present invention is to solve the above-mentioned problems, wirelessly design the entire system, wirelessly control the premises power wirelessly to save electricity bills, prevent the rise above the contracted power, and premises in the summer Increasing the use of electricity, even when peak power is used, important facilities are not shut down.Wireless control systems can be connected to a TCP / IP network, allowing multiple devices to be controlled simultaneously. It is to provide a wireless premises automatic power control device and method having an advantage that can be easily applied.

In order to realize the above object, the present invention, by connecting the output port of the demand controller, which is a power automatic control device and the sensor port of the wireless sensor device to detect the alarm signal in the sensor port for each class, the signal when the alarm occurs The control signal is generated by separating the signal and the alarm when the alarm is released, and the generated wireless signal is launched in the wireless protocol format and transmitted to the wireless control system. The wireless control system analyzes the received signal and Generates an encrypted signal using ID and message that can control the contact point of the wireless remote controller connected to the switch and wirelessly emits radio waves with POCSAG protocol or Zigbee protocol for wireless calling.

"Wireless remote controller has ID of each individual / group, and it controls power switch by opening or closing contact when receiving control signal, so it can automatically adjust the amount of power.

FIG. 1 is an overall configuration diagram of an automatic premises power control apparatus using a wireless signal according to the present invention, and when an alarm signal is generated in the automatic power control device 500 due to exceeding a reference for setting premises power usage, the alarm power is set for each alarm class. It automatically turns off the power of existing equipment by using wireless signal to turn down the power.If the power consumption is restored and the alarm is released, the power of the equipment is exceeded by setting the power of the equipment automatically in the reverse order. It's a way to keep it from doing. This will be described in detail for each process as follows.

2 is a view for explaining the wireless sensor device 100, its configuration and operation are as follows.

Set the alarm output port for generating an alarm in accordance with the power usage in the automatic power control device 500 and to generate an alarm for each class according to the peak value of the power to be maintained in the premises.

The alarm output port is connected to the sensor port 101 of the wireless sensor device 100 by class. The wireless sensor device 100 may connect up to eight ports to one device, and a total of 128 wireless sensor devices 100 may be used. That is, a signal system is constructed to detect and use a total of 1024 types of alarms.

The signal detected by the sensor port 101 has a unique ID for each port, and is divided into two types of signals for generating an alarm and releasing an alarm for each port, and then transmitted to the sensor signal interpreter 102.

The interpreted signal is transferred to the controller 103 which is a CPU, and the wireless protocol generator 104 converts the signal interpreted by the controller 103 into a digital code of Manchester type for wireless transmission to the wireless control system 200. Then, the FM transmitter 106 emits radio waves through its own antenna 107 by radio waves.

At this time, in order to prevent an error due to a radio wave collision as a radio wave, the controller 103 automatically transmits a detected signal 2-3 times a minute randomly in a program to prevent a transmission error and to prevent a wireless control system 200 ) Also share a protocol that handles only one case even if received from one to three times within one minute. In addition, the LED display unit 105 can check the signal detection status and wireless transmission status of the detection signal for each power source and sensor port 101.

3 is a view for explaining the wireless control system 200, its configuration and operation are as follows.

The wireless control system 200 includes an FM receiver 201 for receiving a wireless signal generated by the wireless sensor device 100, a wireless signal protocol analyzer 202 for interpreting a protocol of the received wireless signal, a main controller 203, Subscriber DB (204) storing wireless Remote controller (300) ID, power control scenario DB (205) for generating signal to control wireless Remote controller (300), POCSAG protocol generator for converting the generated data into wireless protocol signal 207 or ZigBee protocol generator 208, FM transmitter 209 for emitting radio waves and the sensor port 211 that can be directly connected when the output port of the antenna 210, the power automatic control device 500 is within eight ), A serial interface 206 for connecting to the operating PC (400).

Detailed operation of the wireless control system 200 according to the present invention as described above is as follows.

In the wireless control system 200, as described above, the signal generated by the automatic power control device 500 is received from the wireless sensor device 100 as a wireless signal or an alarm signal is output from the output port of the automatic power control device 500. Directly through the sensor port 211 or the automatic power control device 500 is received from the operating PC via the TCP / IP Network.

The process of receiving a signal generated from the wireless sensor device 100 is as follows.

The radio wave emitted by the wireless signal from the wireless sensor device 100 is received by the FM receiver 201 of the wireless control system 200.

The received wireless signal is interpreted by the wireless protocol analyzer 202 and transmitted to the main controller 203, and the output port of the automatic power control device 500 is within 8 ports, so that the sensor of the wireless control system 200 can be directly When the alarm signal is directly received at the port 211, the alarm signal is transmitted to the main controller 203 for each port.

In addition, the data transmitted from the operating PC of the power automatic control device 500 is transmitted to the operating PC 400 of the wireless control system 200 via the TCP / IP Network.

Here, in the wireless control system 200, the subscriber DB 204, which is information of the wireless remote controller 300 to be controlled, and the power control scenario DB 205, which is a control signal, are connected to the main controller 203. Edit the program on the operating PC (400).

Subscriber DB 204 can set up 1,000 wireless remote controllers 300 per system, and ID is composed of 7 digits, and individual numbers corresponding to each ID are assigned to 3 or 4 digits for easy management. .

In the power control scenario DB 205, the control signal of the wireless remote controller 300 to be controlled by the alarm signal is set in the automatic power control system 500, and up to 20 individual wireless remote controllers 300 for each alarm signal are generated. Allows registration from the operating PC 400 to control.

In this case, the control signal uses encrypted data as a control signal to prevent a malfunction of the wireless remote controller 300.

That is, when an alarm signal for each grade generated by the automatic power control device 500 is received, the controller generates an control signal of a wireless remote controller to be wirelessly turned on and off by analyzing the alarm signal.

The control signal generated as described above is converted into a wireless protocol by the POCSAG protocol generator 207 or the Zigbee protocol generator 208 and emitted as a radio wave through the FM transmitter 209 and the antenna 210.

In addition, in order to prevent the peak value from being instantaneously turned on at the time of restoration and being turned on at the time of restoration, the function is specialized as follows.

Register up to 20 wireless remote controllers 300 to be controlled for each alarm signal, and when the alarm signal is generated, the contacts of the wireless remote controller 300 are simultaneously open (powered off) to drastically reduce the amount of power used, and the alarm recovery signal. In case of occurrence of a delay time by separately contacting the wireless remote controller 300 to prevent the close (power ON) at the same time to minimize the load generated when the power is ON.

Of course, the delay time of each of the wireless remote controller 300 was made to be edited by the program in the operating PC (400).

In addition, the wireless remote controller 300 has two switches in the wireless remote controller 300 in preparation for two industrial air conditioners in one device, and the delay time when the two switches are also closed (powered on). The setting was made possible.

When the wireless remote controller 300 receives a control signal, an acknowledgment response signal is automatically generated. The acknowledgment signal is transmitted to the wireless control system 200 as a wireless signal, and each wireless control system 200 transmits a wireless acknowledgment signal. You can monitor the operation status of the remote controller.

In addition, the operating PC 400 invented to automatically save all the signal generation status, such as alarms as a monitor and log file, and has the function to send all the operation status as text to the pager or mobile phone of the person in charge.

4 is a view for explaining the wireless remote controller 300, its configuration and operation are as follows.

The wireless remote controller 300 is a wireless switch device attached to a facility such as an air conditioner to automatically turn on / off the power, and automatically turns on the power of the facility such as an air conditioner according to a control signal emitted from the wireless control system 200. This device turns on / off and has two ports on one device.

The internal configuration of the wireless remote controller 300 is as follows.

When the radio wave emitted from the wireless control system 200 is received by the radio receiver 301, the radio protocol interpreter 303 interprets the signal and checks whether it matches with its ID, and if it is interpreted as a signal to control itself Pass this to the main controller (304).

The main controller 304 is connected with an ID setting circuit 305 for setting the number of the wireless remote controller 300 and a 10pin ID setting switch 306 for setting the number, and controlling the power equipment with the analyzed control signal. Large-capacity contact control unit 307 for contacting the power supply and the switch of the facility 308 and the switch unit 309 for manually turning on / off the power of the facility without being automatically operated by a wireless signal Made up.

The wireless remote controller 300 can set its own number up to 1024 in the ID setting switch 306. A total of 2048 can be built in each of the wireless remote controllers 300 by connecting contacts for connecting two switches. It is possible to control the power of up to equipment individually.

The capacity of the contact point is increased by using a large-capacity relay capable of both AC and DC so that it can be directly connected to the air conditioner switch or the power of the facility.

In addition, each contact point is connected to the switch unit 309 with an ON / OFF switch so that the ON / OFF power can be manually turned on or off as required by the site. In preparation, the varistor was mounted on the contact circuit to invent it so as not to be affected by an external accident situation.

The radio circuit is designed as a radio receiver 301 for receiving a control signal of the radio control system 200 and a radio transmitter 302 for transmitting a signal to monitor the operation state of the radio control system 200. In other words, when a signal is received, the contact point is activated and at the same time the operating state is automatically invented by a radio wave structure. The operation situation will be described in detail as follows.

When the power control signal is generated, the wireless control system 200 converts it into a wireless control signal for automatically opening or closing the switch of the wireless remote controller 300 to emit radio waves.

The radio receiver 301 of the radio remote controller 300 receives the radio waves emitted by the antenna, analyzes them in the radio signal protocol interpreter 303, and transmits them to the main controller 304.

The main controller 304 analyzes its ID and the received control signal and sends the contact control signal to the large-capacity contact controller 307 to automatically open or close the power switch connected to the contact 308 to connect to the contact. Automatically turn on / off the power of equipment such as air conditioner.

In addition, the main controller 304 sends the received signal back to the wireless transmitter 302 as a recognition signal to emit radio waves so that the wireless controller system 200 can check whether the wireless controller 300 receives the received signal. do.

The contact part 308 uses a three-port contact type of Common, Normal Open, and Normal Close type in order to be utilized in various products, and also has a high-capacity, high-capacity AC / to control all power equipment in the premises. DC dual relay was used.

That is, the contact port acts as a switch when the power OFF signal is received to the corresponding wireless remote controller 300 and automatically turns off the power, and when the power ON signal is received, the power is automatically turned on.

In addition, in order to manually turn on the switch automatically turned off by the radio signal, a switch unit 309 for manually operating each contact point is attached to the front of the invention to add convenience.

In addition, the two switches in the device have their respective IDs.When the power is turned off, the two switches are turned off at the same time to turn off the power.When the power is turned on, the two switches are turned off to reduce the load generated when the power is turned on. The switch is designed to operate with the delay time.

As described above, the automatic premises power control apparatus utilizing the wireless signal according to the present invention is a wireless sensor device for generating an alarm signal, a wireless control system for controlling a signal, and a wireless remote controller for receiving a signal and turning on / off power of a facility. All of them are invented as a structure that sends and receives signals wirelessly, so it is free to use, and there is no wired cable, so it is easy to install, and the wireless control system can be connected to in-house TCP / IP network. The service was made available. In the past, in order to automatically control the power used in the premises, a person in charge should turn off the power to the refrigerator when power peak occurs, or request to turn off the air conditioner by internal broadcasting or wire the alarm alarm output terminal of the automatic power control device. Although the power of some facilities was inevitably turned off, when utilizing the present invention, it is possible to automatically turn on / off the power of facilities such as air conditioners using a wireless signal according to the amount of power set in the premises. Savings, preventing the rise above the power contracted with KEPCO, and the increase in the use of premises electricity in the summer, the important facilities will not stop even when peak power usage.

In addition, there is an advantage that it is easy to change and expand the facility by the wireless method.

In addition, the automatic premises power control device using the wireless signal implemented in the present invention can automatically control all the alarms, switches, etc. in the premises, as well as the function to automatically adjust the amount of power used in the premises, production as well as the power supply Unattended monitoring of the line or facility, and all control conditions are delivered to the pager or mobile phone of the person in charge so that the person in charge can monitor the status of the equipment he manages on the go.

Claims (8)

delete A wireless sensor device that converts and transmits an alarm signal generated at the output port of the automatic power control device to a wireless signal in excess of the set value of power set in the premises, and receives the signal output from the wireless sensor device as well as an air conditioner switch. In the wireless power control system using the wireless control system using the wireless signal to share data by connecting the wireless control system and the operating PC of the automatic power control device and the operating PC of the wireless control system to the Internet, The wireless control system includes a sensor port for classifying the alarm output port into a class and a unique ID for each port, and distinguishing two types of signals for generating and canceling an alarm for each port; A sensor signal interpreter for interpreting each class and port according to the signal at the sensor port; A controller for receiving and interpreting the signal analyzed by the signal analyzer; A wireless protocol generator for receiving a signal interpreted by the controller and converting it into a protocol capable of controlling the wireless remote controller, and a wireless transmitter comprising an FM transmitter for converting the digital code into a wireless remote controller and converting the digital code. Automatic premises power control device utilized. The method of claim 2, The wireless control system includes an FM receiver for receiving a wireless signal generated from the wireless sensor device; A wireless signal protocol analyzer and main controller for analyzing the protocol of the received wireless signal; A subscriber database storing the wireless remote controller ID and a power control scenario database generating a signal for controlling the wireless remote controller; POCSAG protocol generator for converting the generated data into a wireless protocol signal, Automatic premises power control using wireless signal, characterized in that consisting of the FM transmitter and the antenna for emitting the radio waves. The method according to claim 2 or 3, The wireless remote controller is a wireless receiver for receiving a radio wave transmitted from a wireless control system, A radio signal protocol interpreter which interprets the signal received from the radio receiver and confirms whether it matches its ID and interprets it as a signal for controlling itself, and transmits it to the main controller; An ID setting circuit for setting the number of the wireless remote controller connected to the main controller and controlled, and a 10pin ID setting switch for setting the number; Automatic power control device using the wireless signal characterized in that it consists of a large-capacity contact control unit for controlling the power equipment with a control signal analyzed by the main controller and a contact unit for connecting the power and the switch of the equipment. delete Receiving an alarm signal output from each output port of the power automatic control device in excess of the set value of the power used in the premises, each wireless sensor device converts and transmits the wireless signal to a wireless sensor device for each sensor port; Converting the control signal into a control signal capable of controlling the remote controller in the wireless control system and transmitting the control signal to the transmitter; and controlling the on / off switch of the air conditioner according to the wireless control signal in the remote controller. In the premises power automatic control method using a wireless signal comprising, In order to transfer the wireless signal to the wireless control system, the same signal is automatically randomly sent out two or three times within a certain time, and the main control system receiving the wireless signal is also first received even if the same signal is received two or three times within one minute. Automatic control of premises power using a wireless signal, characterized in that the processing of a single signal ignoring the overlapping signal other than the signal. The method of claim 6, Wireless remote controller that can control the automatic power control signal 1 port by program from the operating PC connected to the wireless control system to control the power of several facilities at the same time by each port when power peak value signal occurs in the power automatic control device. Programmable to set the number of up to 20, the automatic power control method using the wireless signal, characterized in that to control the power of up to 20 equipment set at the same time when the control signal occurs. The method of claim 6, When the power off from the wireless remote controller is turned on according to the power recovery signal, the delay time is set when the wireless remote controller connected to the power automatic control signal 1 port is turned on. Automatic control of premises power using a wireless signal, characterized in that to prevent the power of the equipment is turned on at the same time by sending a.

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