KR100780601B1 - Apparatus and method for intellectual integration auto controlling - Google Patents

Abstract

An intellectual integration auto-controlling apparatus and an auto-controlling method are provided to operate a mutual monitoring system and to enhance reliability by using additional monitoring devices. An illumination monitoring control unit(15) includes a photo sensor, a presence sensor, a program switch, a plurality of LCPs(Light Control Panels), and a first I2DCU(Intellectual Integration Data Control Unit). A security monitoring control unit(16) includes a door lock, an input/output M/C(Micro Controller), an alarm light, a siren, a security M/C, a fire sensor, a fire plug pump, a sprinkler, a fire monitoring M/C, and a second I2DCU. A CCTV monitoring control unit(17) monitors corresponding images from a DVR and a VTR in a real-time period. An automatic metering monitoring control unit(18) transfers metering data of a water meter, a heating meter, a gas meter, and an electric power meter to an integrated monitoring control unit(11). A power monitoring unit(19) transmits information of a distributing board and a generator to a block segment integration unit(14). An air condition monitoring unit(20) controls a boiler according to signals of a motor, a damper, and a temperature sensor. The block segment integration unit collects and matches data of the illumination monitoring control unit, the security monitoring control unit, the power monitoring unit, and the air condition monitoring unit. The integrated monitoring control unit analyzes, determines, commands, and monitors the data of the block segment integration unit, an ACU(ARS Communication Unit)(21), a PTC(Pan and Tilt Controller)(22), and a DCU(Data Control Unit)(23). A remote place monitoring control unit monitors and controls an operating state of a system. The integrated monitoring control unit briefs main information at a constant time to a supervisor by using a voice sound method through a speaker, a telephone, a cellular phone.

Description

Apparatus and Method for Intellectual Integration Auto Controlling

1 is a block diagram of an intelligent integrated automatic control apparatus according to the present invention.

Figure 2 is a block diagram showing a display device of the present invention.

Figure 3 is a block diagram showing a main monitoring control device of the present invention.

Figure 4 is a block diagram showing a remote control monitoring device of the present invention.

Figure 5 is a block diagram showing an integrated unit of the intermediate unit control unit of the present invention.

Figure 6 is a block diagram showing a lighting monitoring control device of the present invention.

Figure 7 is a block diagram showing a security, monitoring and monitoring control device of the present invention.

8 is a block diagram showing a CCTV monitoring and monitoring device of the present invention.

9 is a block diagram showing an automatic meter monitoring control device of the present invention.

10 is a block diagram showing a power monitoring control apparatus of the present invention.

Figure 11 is a block diagram showing a machine, air conditioning monitoring device of the present invention.

12 is a control flowchart illustrating a device-specific setting event function of the ACU of the present invention.

Figure 13 is a control flow diagram illustrating the ACU function upon request of data from a client of the present invention.

14 is a control flowchart showing a process judgment voice system (PJVS) self error function of the present invention.

15 is a control flowchart illustrating a function of a Center Control Main System (CCMS) Process error of the PJVS of the present invention.

<Description of the symbols for the main parts of the drawings>

10: display device

11: integrated monitoring control device

12: remote monitoring control device

13: internet

14: Intermediate unit control unit integrated device

15: lighting monitoring control device

16: security, control and monitoring equipment

17: CCTV monitoring control

18: automatic meter monitoring control device

19: power monitoring control device

20: machine, air conditioning monitoring device

21: ACU (ARS Communication Unit)

22: PTC (Pan & Tilt Controller)

23: DCU (Data Control Unit)

The present invention relates to an integrated automatic control apparatus and method, and more particularly, intelligent building, factory, apartment, hospital, school, playground and industrial facilities, power system automation, water and sewage equipment, gas supply equipment, disaster The present invention relates to an intelligent integrated automatic control apparatus and method for controlling, analyzing, and processing various data information obtained from the lowest level units and equipment such as prevention facilities and pumping stations.

Generally, the integrated automatic control device is the lowest unit equipment such as intelligent building, factory, apartment, hospital, school, playground and industrial facilities, power system automation, water and sewage facility, gas supply facility, disaster prevention facility, pumping station, etc. Refers to a system that controls, analyzes, and processes various data information obtained from equipment.

For example, in the conventional fire monitoring method, the management method that the witness observes and reports the fire or the management method in which the alarm is generated by installing a simple fire detection sensor is not recognized in real time at a remote place when a failure occurs. Since the fire suppression dispatch of the fire department is made only after a significant fire progress, there is a problem that a huge loss occurs when the fire is large.

In recent years, large-scale, high-rise, and complex buildings have introduced customers to integrate and manage various systems. The fire monitoring method also includes sensors for fire monitoring at each element in the building, that is, temperature (or heat). A sensor or smoke sensor is installed and connected to a central management device to operate the sprinklers and alarms, and to handle alarms for administrators. Furthermore, a fire monitoring system has been introduced that automatically fires notifications to nearby fire stations when a fire alarm occurs.

However, such a conventional integrated automatic control apparatus and method does not hierarchically manage various data information obtained from the lowest unit devices and equipment, and lacks a function of monitoring whether the entire system is operating smoothly and reliability of the system operation. There was a problem falling.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and transmits various data information obtained from the lowest unit device and equipment to a block segment integration unit to control, analyze, and process the data information. In addition, the processed data information is transmitted to the integrated monitoring room and the central control unit integrated device data information is controlled, controlled, analyzed, stored, judged and monitored in real time in the central control main system. In addition, there is a separate monitoring system that always monitors whether the system is running smoothly, and the central control main system (Cent Control Main System) program also adds the function to monitor the monitoring system, which makes the system more reliable in operating the system. Intelligent integrated automatic control system and method for strengthening The purpose is to provide.

Intelligent integrated automatic control apparatus and method according to the present invention for achieving the above object, the building, the building, the playground, and other major monitoring control targets to control and monitor the inside and outside, but the interior lighting control of the building (52 ), And the lighting monitoring control device (15), which is divided into the external lighting control (53) of the building and the control and monitoring, increases the efficiency of facility management, protects various information and property properties, and reduces maintenance costs by reducing the number of personnel. It is easy to create optimized internal working environment and time and attendance management of employees, security that can manage and control access control, operation management, and alarm management, control and control system (16), inside, outside or surrounding of building, main It has information storage, notification in case of abnormality, briefing function through DVR, VTR, etc., which monitors equipment in real time. Auxiliary electricity supply device as CCTV monitoring and control device (17), automatic meter reading and monitoring device (18) for various metering devices in buildings such as buildings, apartments, multi-family houses, and a plurality of water distribution devices (91) to be connected and monitored. When the generator 93 and the generator control panel 92 are configured, their information signals are collected by the digital meters (901 to 905) and sent to the intermediate unit control unit integrated device (14) to control water distribution and the generator at all times. Various information is stored, analyzed and processed, and main information is briefed through the ACU (ARS Communication Unit) 21 function to the administrator through broadcast notification, mobile phone, etc. The interior of the building is connected with the signals of the power monitoring controller 19, the motor 1005, the damper 1006, the temperature sensor 1001, etc., which can be briefed by accessing the ACU 21 through a mobile phone or a telephone Internet. ball It is linked with the boiler 103 in order to maintain a proper temperature of the circulation, and controls, monitors, commands, and controls the elevator operation, control, and monitoring machine, the air conditioning monitoring device 20, and individual main monitoring devices. Intelligent intermediate unit control unit integrated device 14, the intermediate unit control unit 14, ACU 21, PTC &lt; RTI ID = 0.0 &gt; (PAN & Tilt &lt; / RTI &gt; 23) The main center device that receives various information from the analysis, judgment, command, and monitoring, and the main monitoring device 11 for briefing through voice broadcasting, briefing, wired and wireless, and telephone at a predetermined time of the main information of the whole system Screen transmission win socket (Vidio & Voice) of the entire system of Client 1 (301), Client 2 (302), Client (n), (303) and Center Control Main System (CCMS) System monitoring contro l) It is possible to display and monitor the whole system of the remote control system of the remote control method of the PC remote control system, which has a bidirectional function and monitors and controls the operation status of the system through the Internet at a remote location. It is characterized in that it comprises a display device 10 is composed of a variety of display devices and has a function that can be selected and viewed conveniently by the management supervisor.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of an intelligent integrated automatic control apparatus according to the present invention.

As shown, Figure 1 is a block diagram for explaining the overall system of the present invention, a display device 10, integrated monitoring control device 11, remote monitoring control device 12, the Internet 13, the intermediate unit Integrated control unit 14, lighting monitoring control unit 15, security, control monitoring control unit 16, CCTV monitoring control unit 17, automatic meter monitoring control unit 18, power monitoring control unit 19 , A machine, an air conditioning control device 20, an ACU 21, a PTC 22, and a DCU 23.

CCMS (Center, Control Main System), that is, the integrated monitoring and control device 11 of the present invention receives various information from the intermediate unit control unit 14, ACU 21, PTC 22, DCU 23, etc. Main information about the main center unit and the whole system, which is commanded and monitored, is briefed through voice broadcasting, briefing, wired and wireless, and telephone at a fixed time, and the supervisor makes a phone call to check the system information while away from the current system. Intermediate unit control unit equipped with a system including a bidirectional ACU (21) function to receive a briefing function and a PC remote control remote monitoring and monitoring device (12) to monitor and control the operation status of the system via the Internet at a remote location The integrated device 14 is an intelligent integrated data cabinet that controls, monitors, commands, and transmits each major surveillance control device to a storage system. Each device is composed of an illumination monitoring control device 15, an integrated monitoring device 16 for security, control, fire monitoring, power, generator monitoring control device 19, a machine, an air conditioning control device 20, and the like. It has information storage, notification in case of abnormality, and briefing function through DVR, VTR, etc. that monitors the inside, outside or surroundings, main equipment of the building in real time, and is connected to the system through remote access from the client to the Internet (13). CCTV monitoring and control device 17 and automatic metering monitoring control device 18 for various metering devices in the building, such as buildings, apartments, multi-family houses.

2 is a block diagram showing a display device of the present invention.

As shown, the entire system display apparatus 10 capable of displaying and monitoring the entire system consists of various displays and has a function that the management supervisor can select and view for convenience.

Looking at the details, the system monitors and displays the system in real time, and converts the video signal provided from the monitoring and control device into a display signal through the DIFS (101) (Display Interface Selector) to provide a multi-screen with various display devices. . In addition, the LED signboard 102 makes it easy to quickly analyze the data and grasp the current status by displaying only the key information of the main information in real time, and the display rotates the contents of the daily briefing to the supervisor at the designated time by the designated data. The LED display board 102 repeatedly displays the monitoring and control screens in a large format so that a supervisor can be quickly recognized. The LCD & PDP TV 103 is equipped with a complicated system and displays various information or contents at the same time. It is an overall system display device having a beam projector (104) and a screen (105).

3 is a block diagram showing a main monitoring control device of the present invention.

As shown, the Center Control Main System (CCMS) 201 is a system-wide supervisory control device, which is a program that controls, controls, and commands the entire system. The intermediate unit control unit 14, the ACU 202, and the PJVS (Process Judgment Voice System) (203), PTC (22), DCU (23), P / T (Port Terminal) (204), monitoring to receive, analyze, control, command, and store the information provided from the Internet (13) It is a control device. The intermediate unit control unit integrated monitoring device 14 includes a lighting supervisory control device 15 connected to each intermediate unit control device, a security control control device 16, a power generator supervisory control device 19, and a mechanical air conditioning control device. (20), CCTV control monitoring control unit 17, automatic meter monitoring control unit 18 as a single package (Pakage) type of monitoring control device as an object-oriented user to the user interface (CUI) environment as convenient as possible interface You can easily and quickly design the structure and program configuration of internal structures through Easybase and Wizard, making changes and additions easy. In addition, the PJVS (Process Judgment Voice System) 203 monitors whether the device is performing its duties smoothly and notifies the current situation by voice and telephone when an abnormality occurs, and monitors the state of the main platform of the CCMS 201. In case of system failure or downtime, PJVS 203 can have a mutual monitoring system with CCMS 201 as a PJVS 203 capable of promptly recovering and responding to system process status by voice notification to the supervisor's telephone.

In addition, the PJVS 203 monitors the process status of the main platform of the monitoring panel. The main platform and the interface are connected to RS-232C, and the main memory process (Main Memory Process) of the driving MMI (Background Memory Software) is BMS (Background Memory Software). PJVS is always monitored and when the MMI process is abnormally terminated, it transmits a status monitoring frame to the PJVS 203 and scans the interface port connected to the driving MMI to determine whether there is data transmission. The PJVS 203, which transmits the status monitoring frame to the 203 and receives the status monitoring frame of the current status notification by voice and telephone when a Main Platform Process error occurs, transmits the promised voice data to the supervisor's telephone. The number of notifications and specify the number of notifications. Cold Booting or Drive MMI by controlling the reset switch of the main platform according to the setting value according to the type and grade of the status monitoring frame received by Cold Booting and Bypass. Is connected to the redundant line, bypass the line and self-diagnostic function in case of self-diagnosis to the CCMS 201 and use the dual CPU or watch dog time function. When the operation processing is switched or the CPU is reset and the process status monitoring frame is not transmitted for a predetermined time, the driving MMI determines the state of the PJVS 203 and displays an error on the display device.

Brief information of system-wide key information can be briefed to the supervisor at a designated time and voice briefing can be made via the speaker 201 when the supervisor is away from the system. Whenever the supervisor wants to receive the system details at a distance from the system, the phone 206 and the mobile phone 207 can be briefed at any time. An ACU 202 device that can manage and supervise the system by establishing communication in both directions that can be briefed through the ACU 202. The main functions are a batch sequence method and a key that sends out all the data in order. Selective voice output function of partial sequential method to send only the item designated as (key) value sequentially and each voice box periodically Voicemail recording function to transmit and record data information from the terminal equipment, system error notification function to send a response error message even if there is a data request from the terminal when analyzing the current system, and exchange the receiver to another telephone when the terminal telephone is an extension It has possible recipient exchange function, talk time (send time, receive time) display and log (call date) display function.

The PJVS (Process Judgment Voice System) function monitors the status of CCMS's main platform at all times and restores the system to prompt response to the process status of the monitoring panel by voice notification to the administrator's phone in case of system failure or operation. As a management system, the function is summarized as follows.

1) Monitor the process status of the monitoring platform's main platform

The main platform and interface are connected by RS-232c, and BMS (Background Memory Software) constantly monitors the main memory process of the driving MMI. When the process of MMI abnormally terminates, it sends status monitoring frame to PJVS and scans the interface port connected to the driving MMI. It determines the data transmission status and transmits the status monitoring frame to PJVS when the data transmission is not made for a certain time.

2) Notification of current status by voice and phone when Main Platform Process error occurs

The PJVS, which receives the status monitoring frame, notifies the voice data promised by the administrator's phone according to its contents and can specify the number of notifications.

3) Cold Booting and Line Bypass of Main Platform using Auto Recovery

By cold reset by controlling reset switch of main platform by setting value according to type and grade of received status monitoring frame or bypass MMI connected by redundant line.

4) Self Diagnosis Function

Error notification to the CCMS through the built-in Dual CPU or Watch Dog Timer function to switch the operation or reset the CPU. When the process status monitoring frame is not transmitted for a certain time, the status of the PJVS is determined by the driving MMI to the display device. Indicates an error.

5) Voice output function using external speaker connector

Connect the external extension speaker to the external speaker output terminal of the product to output audio from the central monitoring room and the external speaker installation site when an event or error occurs.

6) Interphone transmission / reception function between PJVS

Equipped with an interphone function for communication between management personnel in two or more central monitoring rooms Connect the handset module to an external INT connector and select the designated number call button to make a connection request to the called PJVS. A conversation between the two is possible.

7) External device input / output control using DI point

This function monitors the access door or key device of important equipment by using DI point. After setting the corresponding DI point alarm monitoring mode of PJVS, when an event occurs in the connected DI point, the alarm is notified by phone and speaker. Even if an event occurs on the connected DI point after canceling the DI point alarm monitoring mode, it is not treated as an alarm condition notification.

Figure 4 is a block diagram showing a monitoring control device of a remote site of the present invention.

As shown, the situation of a number of Client 1 (301), Client 2 (302), Client (n), (303) and CCMS overall system connected to the entire System Internet (304) of the CCMS in various places or workers The System Transmission Control is a Screen Transmission win Socket (Vidio & Voice).

5 is a block diagram showing an integrated unit of the intermediate unit control unit of the present invention.

As shown in the figure, the system receives an overall information command of the system operation from the integrated surveillance control unit (CCMS) 11 to perform an analysis, determination, and control function, and collect and analyze information and data obtained from each monitoring control unit. , The I2DCU (Integrated Integration Data Control Unit) 1 401 is an intermediate unit control unit integration unit 14 which performs control data storage function and transmits main information and data to the integrated monitoring control unit 11 and the ACU 21. 5, the I2DCU2 402 performs the task of security, control, integrated monitoring and control device of Figure 6, I2DCU3 (403) of the power, generator integrated monitoring and control device of Figure 9 Task execution, I2DCU4 (404) performs the task of the mechanical, air conditioning integrated monitoring and control device of FIG.

The I2DCU (Intellectual Integration Data Control Unit) provides detailed information and functions to analyze, control and judge the information data received from each terminal digital device and to operate the MMI program. PCU (Protocol Converter Unit) function as protocol conversion module (Module) as industrial standard method MODBUS, DNP3.0, etc.Converting function and DIOU (Digital Input & Output Unit) function to monitor and control the status of digital contacts as digital input / output module. Analog Input & Output Unit (AIOU) is an analog input / output module that is an intermediate unit control unit integrated device (14) having a supervisory control function of its value (4 to 200 mA).

6 is a block diagram showing the lighting monitoring control apparatus of the present invention.

As shown in the drawings, the light surveillance control device 15 is shown in detail, and when viewed in terms of lighting surveillance and control as a whole, buildings, buildings, sports grounds, and other major surveillance control objects, When the interior lighting control means 52 of the building and the external lighting control means 53 of the building is controlled and monitored.

In the internal light control unit 52 and the external light control unit 53, a plurality of LCP (Light Control Panel) # 1 (506), LCP # 2 (507) ~ LCP # 8 installed on each floor and section of the building, building, etc. 513 detects the sensing of the photosensor 517 for detecting the brightness of the light and the occupancy sensor 516 for detecting the movement of the object, thereby turning various lights 515 on / off with the program switch 514. (on, off) to control. In addition, when the information of the control state of each LCP (Light Control Panel) is sent to the I2DCU (Intellectual Integration Data Control Unit) 51 of the light monitoring control device 15, the I2DCU 51 may provide this information. It collects and sends to the intermediate unit control unit integrated device (14).
To this end, the I2DCU 51 may include a Light Control Unit (LCU) 1, 2 (501), 502, a Protocol Converter Unit (PCU) 503, a Digital Input Ouput Unit (DIOU) 504, and an Analog Input Ouput (AIOU). Unit) 505.

7 is a block diagram showing a security, control and monitoring control apparatus of the present invention.

As shown in the figure, the system of security management for building facility management is systemized, and the contents of security and control integrated supervisory control device to prevent accidents and control of facilities and buildings such as access control, crime prevention, fire, etc. are increased. It can protect various information and property assets and reduce maintenance cost by reducing the number of personnel. It is possible to create an optimized internal working environment and to easily manage attendance and attendance of personnel, and to monitor and manage access control, operation management and alarm management. .

In addition, it can minimize the loss of life and property by protecting the facility from intruders and promptly alerting when an intruder occurs by sensing the inside and outside of the building and the surroundings of facilities. In addition, it is a security control and monitoring device that can prevent fires in advance through various sensors, alarms, and broadcasts to prevent fires, and minimize damage to property and human life in the event of a fire.

Looking at the details, the access control unit 62, the contents of the various door opening and closing sensor 606, card reader (Card reader) 605, Remote Key (604), fingerprint recognition Finger scanner (Finger Scanner) 603 and the like to detect the entrance and exit means, a door lock (602) to physically open and close the door (Door Lock) (602), according to the access state detected by the access detection means It includes an entry and exit M / C (Micro Controller) 601 to open and close the door lock 602. These individual processes form a linkage operation with the entry / exit M / C 601 with a built-in microcontroller and the I2DCU 61 for security and control integrated surveillance control.

When looking at the contents of the security monitoring unit 63, a human body sensor 612 necessary for crime prevention, image cameras, thermal monitoring sensor 610, infrared sensor TR sensor (Sensor) (608) and the like to detect the movement of the object. An object detecting means, an alarm light alarm 611 and a siren 609, and an alarm light alarm 611 according to the movement of an object detected by the object detecting means. Security M / C 607 for operating Siren 609 is included. These individual processes are made in conjunction with the security M / C (607) with a built-in microcontroller and the I2DCU (61) for integrated security control control.

In the fire monitoring unit 64, the fire detection precautions 1, 2 (617), the fire hydrant pump 616, the sprinkler (Spring cooler) 615, the fire receiver 614, and the fire detection predecessor to detect the fire When the fire is detected from the 617, the fire hydrant pump 616, the sprinkler (Spring cooler) 615, and includes a fire monitoring M / C (613) for operating the fire receiver 614. All the fire monitoring M / C (613) of the end necessary for fire monitoring control and I2DCU (61) for the integrated security control control to achieve the operation.
The I2DCU 61 collects information on the control state from the entry / exit M / C 601, the crime prevention M / C 607, and the fire monitoring M / C 613, and transfers the information to the intermediate unit control unit integrated device 14. do.

8 is a block diagram showing a CCTV monitoring and monitoring device of the present invention.

As shown, the CCTV monitoring and control device 17 is a real-time monitoring and recording of the safety management purpose and equipment operation status of the building's internal and external environment as a video, and as a comprehensive security safety management system linked to the security system It is divided into internal monitoring (72) and outer monitoring (73), and monitors and records real-time monitoring and recording through DVR (707) and VTR (708) through video data transmission. When a worker wants to monitor remotely by connecting to the Internet through IP (web), client 1 (74), client 2 (75) can be monitored and stand type according to the place or content to monitor Webcam, ceiling domecam, and infrared cam that can be monitored at night are used.It automatically tracks the movement of objects according to the target, content, and location. (Pan / Tilt) function and camera monitoring and control using the Internet without a separate server, self-control and built-in control module, integrated web camera server and plug-and-play method without additional autonomy (driver) Apply the camera to recognize automatically.

In addition, you can connect multiple cameras that you want to monitor with high speed data transfer and multiple connection environment through USB2.0.

In the illustrated configuration, the internal monitoring 72 includes a plurality of camera signals of a webcam (701) and a domecam (702) by a pan / tilt controller (PTC) 703 and an external surveillance. In (73), a plurality of cameras of the webcam 704 and the dome cam 705 and an infrared camera whose function can be monitored at night can be installed at a place where the main part of the outside is not connected to the image data transmission by a communication line. The camera communication signal must be communicated by RF signal so that the outside intruder can be monitored in real time even when removing the communication line.

DVR 707 and VTR 708 transmit the component data of the internal monitoring 72, the PTC 703, the peripheral monitoring 73, and the video data signals of the PTC 706 to the DVR 707 and the VTR 708 for real-time monitoring and recording. 703), the communication RS-485 of the PTC (706) should be operated in conjunction with the MMI program of the separate CCTV monitoring and monitoring device 17, and connected to the CCMS (201) of the monitoring and control device should be controlled and monitored.

9 is a block diagram showing an automatic meter monitoring control device of the present invention.

As shown, the automatic meter reading control device 18 as a description of the power, gas, water, hot water, calories, etc., the meter reading meter automatically measured at a remote meter reading center without visiting the household directly It is a system that processes meter reading data and other billing business efficiently by processing collected metering data. Its main function is detailed power usage management from remote meter management connected to power distribution system to unit generation. Diagnosis function, voice notification and SMS text transmission function are available, can be linked with home automation by automatic meter reading notice function, notification by household by peak value reservation and manual reading and correction function using hand terminal 83. There is a function.

The illustrated configuration includes various types of water (801), heating (802), gas (803), heat capacity (804), and electric power (82). The meter reading information of the meter is analyzed and organized in the data control unit DCU 81, connected to the monitoring control device, and performs the automatic meter integrated monitoring control function in the CCMS.

10 is a block diagram showing a power monitoring control apparatus of the present invention.

As shown, a switchgear device that receives 22.900V of high-voltage electricity supplied from KEPCO and changes it to the required voltage capacity at the customer and supplies it to the load, and when KEPCO's electricity is not supplied due to a power failure or an accident It is related to generators and generator control devices that produce electricity.It receives high voltage electricity from KEPCO line, and according to switchgear system, switchgear, power fuse, current transformer, transformer, current transformer for instrument, vacuum breaker, transformer, low voltage breaker, wiring Protective relay, measuring device, control device, maximum demand power control device to perform the role of system and various devices in order of breaker, and to ensure safe and high-quality electricity supply to distribution box switch of final terminal load. Of power system such as generator, automatic power factor generator, generator controller, etc. In order to be able to monitor the time, and to monitor and control integrally, when the plurality of power distribution devices 91 are composed of the auxiliary electric supply generator 93 and the generator control panel 92, their information signals and the like are transmitted to the DM (901). 905) is collected and sent to the intermediate unit control unit integrated device 14 to control water distribution and generators at all times, and to store, analyze, and process various information. It is briefed through, and immediately responds to the occurrence of the problem, even when the worker wants to check outside the work place, the power to the power supply, generator monitoring control that can be briefed by accessing the ACU 21 via a mobile phone or telephone Internet.

11 is a block diagram showing a machine, an air conditioning monitoring control device of the present invention.

As shown in the drawings, the present invention relates to a machine and an air conditioning integrated monitoring and control device, and to provide a safe and efficient operation of various mechanical devices such as a motor, an air conditioner, a boiler, and an elevator in a building. As a device, the motor control center MCC 101, which controls the main power unit in the building, cuts off the power supply to operate various motors 1001 to 1005, and an air conditioner for air circulation of the building. It consists of a supply air conditioner that blows new air into the building and a return air conditioner that discharges the polluted air out of the building, including a motor 1005, a damper 1006, a temperature sensor 1001, and the like. In conjunction with the signal of the interior of the building will be linked with the boiler 103 in order to maintain a comfortable air circulation proper temperature. It is an elevator operation, control, and monitoring machine, air conditioning, and integrated supervisory control device that acts as the aorta of the building.

12 is a control flowchart showing a device-specific setting event (Event) function of the present invention ACU.

As shown, in the device event generating step, a series of events (alarm, operation by setting value, etc.) for which a briefing content is set at a predetermined time is generated. .

Subsequently, in the step of converting the event data from the device into event data, the briefing contents and the like of the event and the setting value data generated in the device are set in the form of a data communication packet predefined in the central processing unit. Is framed.

Event data Input the data framed packet to the ACU in the ACU input step.

In the event data processing step, the received packet is analyzed by the central processing unit according to the pre-defined protocol in the ACU. If the value is true, the next operation is performed. If false, E.Count <5 Branch to

Subsequently, in step E.Count <5, E.Count means the number of times an event data communication packet for a single event has been transmitted to the ACU, and the frame format of the input packet is defined according to a predefined protocol. If there is a mismatch or an error packet, the device sends a re-request packet to request up to 5 times for the event that occurred.If the value is true within the required number of times, the next operation is performed. If false, event data Terminate the routine in the processing.

A process of combining wave data corresponding to a frame analyzed in the wave data combining step is performed.

In the voice data modulation step, the combined wave data is modulated by the wave conversion module into analog voice data.

In the dialing step, the user dials the input telephone number of the telephone number storage memory set in the ACU.

The connector stage checks the line error and the busy state of the dialed phone number and performs the next task if the connection is true, and branches to the redial <3 stage if the connection is false.

Redial <3 attempts to redial up to 3 times and if the connection is possible (True), the next operation is performed. If the connection is not available (False), Redial <3 Redial) Repeat the routine process.

In the voice data transmission step, the modulated analog voice data is transmitted to the connected telephone terminal device.

The disconnect step disconnects between the ACU and the telephone terminal device connected after the completion of analog voice data transmission.

13 is a control flowchart showing a function of requesting data from a client of the present invention.

As shown, in the dialing step, the client dials the line telephone number assigned to the ACU in the telephone terminal device.

In the Connect stage, when dialing with the ACU (True) after the dialing, the following operation is performed. If the connection is not available, the Redial is attempted at the client's discretion.

In the step of inputting a key value, a data value to be requested for each region, address, and data item is selected as a predefined key value in the telephone terminal device and input to the ACU.

In the key value checking step, if the ACU is valid for the input key value (True), the next step is processed, and if the key value is invalid (False), a re-entry request or connection termination voice is transmitted.

The step of framing the key value with request data frames the input key value in the form of a data communication packet predefined in the ACU central processing unit.

The request data device input step transmits and inputs the framed packet to the corresponding device.

In the response data processing step, the response data packet processed by the device is analyzed by the central processing unit according to a predefined protocol in the ACU, and if the value is true, the next operation is performed. If false, branch to the step where Response Count is 5 or less.

In the case where the response count is 5 or less, R.Count indicates the number of response data packets sent to the ACU by processing packets for request data communication corresponding to the input key value to the ACU. If the frame type of the input packet does not match the predefined protocol or if it is an error packet, if the value in the response times is true up to 5 times by sending a re-request packet for the device, perform the following operation. If false, frame the error packet or null communication packet for the request data communication packet to perform the routine from the wave data combination process.

The wave data combining step performs a process of combining wave data corresponding to the analyzed frame.

The voice data modulation step modulates the combined wave data into analog voice data in the wave conversion module unit.

In the voice data sending step, the modulated analog voice data is voice-processed to a connected telephone terminal device.

The disconnect step disconnects the telephone connected to the ACU after the completion of analog voice data transmission.

14 is a control flowchart illustrating a PJVS self error function of the present invention.

As shown, this occurs when there is no response data packet in a port scan due to a PJVS itself failure or a circuit error in the PJVS error generation step.

In the BMS response null data processing step, the communication module determines the response data packet transmitted from the PJVS to the BMS as a null value.

In the BMS process reconfirmation data frame transfer to PJVS step, the BMS processes the data in the form of a process reconfirmation data communication packet and inputs the data to the PJVS.

R.Count <100 means that R.Count means the number of times that a Retry Process data packet is sent to PJVS. R.Count up to 100 times can be a response data packet response to BMS. If (True) branches to the start routine, and if there is no response (Response data) packet to the BMS up to R.Count 100 times (False) performs the following tasks.

In the BMS alarm manager step, the BMS alarm processing module determines that the PJVS has its own error and processes it.

In the display alarm window & voice output step, an error message transmission window for PJVS is output on the monitor panel display screen and a PJVS voice error is notified through the speaker device connected to the monitor panel.

15 is a control flowchart illustrating a CCMS process error function of the PJVS according to the present invention.

As shown in the figure, in the CCMS process unload event generation step, the CCMS S / W process that is to be loaded is abnormally unloaded from the memory of the monitor panel or the port is loaded. (Port) Occurs when there is no request data packet for a certain time in a scan.

In the step of framing event data in the BMS, the communication module unit of the background memory software (BMS) frames the data in the form of a predefined data communication packet according to the event content.

Event data The PJVS input step transmits and inputs the framed packet to the PJVS.

In the event data processing step, the central processing unit analyzes the frame according to a predefined protocol in PJVS. If the value is true, the next operation is performed. If false, E.Count. <Branch to step 5.

In step E.Count <5, E.Count means the number of times the event data communication packet has been sent to PJVS. If the frame type of the input packet does not match the predefined protocol or is an error packet, it is requested again for the BMS. If the event is generated by sending a packet up to 5 times and the value becomes True within the required number of times, the next operation is performed. If false, the routine of the event data processing process is terminated.

In the voice data modulation step, the corresponding error content is modulated into analog voice data by the wave conversion module unit.

In the dialing step, dialing is performed on an input phone number of the phone number storage memory set in PJVS.

The Connect step checks the line status and busy status of the dialed phone number and performs the following operations if the connection is True and if the connection is False, the process goes to Redial <3 do.

In Redial <3 steps, if the connection is true, the next operation is performed. If the connection is not available, the next operation is performed. Redial) Repeat the routine process.

In the voice data transmitting step, the modulated analog voice data is voice-processed to a connected telephone terminal device.

Thereafter, in the disconnect step, after the completion of analog voice data transmission, the connection between the ACU and the telephone terminal device is disconnected.

Although the above has been illustrated and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the above-described embodiments, and the present invention without departing from the gist of the present invention claimed in the claims is common in the art to which the present invention pertains. Various modifications can be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

According to the intelligent integrated automatic control apparatus and method according to the present invention as described above, intelligent building, factory, apartment, hospital, school, playground and industrial facilities, power system automation, water and sewage equipment, gas supply equipment Various data information obtained from the lowest unit equipment and equipment such as disaster prevention facilities and pumping stations is transmitted to the block segment integration unit to control, analyze and process the data information and transmit the processed data information to the integrated monitoring room. In addition, the central control main system (Cent Control Main System) controls, controls, analyzes, saves, judges and monitors the data information of the entire system in real time. A separate program of the central control main system (Cent Control Main System) Also in addition the ability to monitor the monitoring device By operating the mutual monitoring system there is an effect that the enhanced reliability on the system operation.

Claims (5)

A photosensor 517 for detecting the brightness of light; An occupancy sensor 516 for detecting movement of an object; A program switch 514 for turning on and off the plurality of lights 515; A plurality of Light Control Panels (LCPs) for sensing the sensing of the photosensor 517 and the occupancy sensor 516 and controlling the plurality of lights 515 by turning on / off the program switch 514 accordingly. 506-513); Light monitoring control device 15 including a first I2DCU (Integrated Data Control Unit) (51) for collecting the information of the control state of each LCP (Light Control Panel) and delivers to the intermediate unit control unit integrated device 14 ), An access detecting means for detecting an access state, a door lock 602 for physically opening and closing the door, and an entrance M / C for opening and closing the door lock 602 according to an access state detected by the access detecting means ( Micro Controller 601; Object detecting means for detecting the movement of the object, Alarm light (611) and Siren (609) and the alarm light alarm light (Alarm light) according to the movement of the object detected by the object detecting means Crime prevention M / C 607 for operating 611 and a siren 609; The fire hydrant pump 617, the fire hydrant pump 616, the sprinkler (Spring cooler) 615 and the fire receiver 614, and the fire sensation pump 617, the fire hydrant pump for detecting a fire, A fire monitoring M / C 613 for operating a spring 616, a sprinkler 615 and a fire receiver 614; Second I2DCU (61) to collect the information of the control state from the access M / C (601), crime prevention M / C (607) and fire monitoring M / C (613) to the intermediate unit control unit integrated device (14) Security control and monitoring control device 16, including; Real-time monitoring of the video from the DVR (707) and VTR (708), which stores real-time video of the building's interior, exterior or surroundings, and major equipment, and remotely from the client (74) (75) to the Internet (13) connection. CCTV monitoring and control device 17, which is connected to the system to monitor the video in real time, Reading of the water meter 801, the heating meter 802, the gas meter 803, and the electric power meter 82 installed in a building, apartment, or multi-family house, etc. Automatic meter monitoring control device 18 for collecting and arranging quantity information in the data control unit DCU 81 and connecting the integrated monitoring control device 11 to the integrated monitoring control device 11; The switchgear device 91 which receives 22.900V of high voltage electricity supplied from KEPCO and changes it to the required voltage capacity at the customer and supplies it to the load, and when the electricity of KEPCO is not supplied due to power failure or accident, Power monitoring control unit 19 to collect the information of the generator 93 to produce a DM (Digital Meter) (901 ~ 905) and send to the intermediate unit control unit integrated device 14 to control on / off, Machine for controlling the boiler 103 to receive the signals of the motor (1005), damper (1006) and temperature sensor (1001) to maintain the air circulation and the appropriate temperature in the building, air conditioning monitoring device (20), Intermediate for collecting and matching data transmitted from different lighting protocols from the lighting monitoring control device 15, the security control monitoring control device 16, the power monitoring control device 19, and the machine and the air conditioning monitoring control device 20, respectively. Unit control unit integrated device (14), The intermediate unit control unit integrated device 14, ACU (ARS Communication Unit) 21, PTC (Pan & Tilt Controller) 22, DCU (Data Control Unit) 23 receives the respective data analysis, determination Integrated monitoring and control device 11 for commanding and monitoring, and voice broadcasting the operation state through a wired or wireless telephone at a predetermined time; Remote monitoring and control device 12 for monitoring and controlling the operation status of the system through the bidirectional Internet communication from the remote system to the situation of the plurality of clients 301, 302, 303, In the intelligent integrated automatic control device comprising a display device 10 for displaying the result value and the determination value processed in the integrated monitoring control device 11, The integrated monitoring control device 11, Brief information of the entire system is sent to the supervisor at the designated time, and when the supervisor is far from the system, the system status or details are voiced through the speaker 201, telephone 206, mobile phone. When the data value, status, and abnormal information required by 207 are briefly voiced and the supervisor wants to receive the system details at a distance from the system, the ACU 202 is transferred to the telephone 206 and the mobile phone 207. It is briefed through the system, but the batch sequence method for sending all the data in a batch order and the selective voice output of the partial sequence method for sending only the items designated by the key value sequentially, and each terminal periodically in the voice mail box of the mobile phone Voicemail recording function that sends and records data information from the device, and analyzes the current system. Display system error notification that sends a response error message even if there is a request for a request, exchange a recipient who can exchange a call to another phone if the terminal phone is an extension, and display call time (transmission time, reception time) and log (call date). Intelligent integrated automatic control device, characterized in that. The method of claim 1, The display device 10, It provides a multi-screen display to the LCD & PDP TV 103 by converting the video signal provided from the integrated monitoring control device 11 into a display signal through the DIFS 101 (Display Interface Selector) as a content to monitor and display the system in real time. And intelligent integrated automatic control device further comprises a LED sign for displaying the selected information in real time (102). The method of claim 1, The integrated monitoring control device 11, Intelligent integrated automatic control device that can promptly recover the response to the system process status by voice call to the client supervisor in case of system failure or shutdown. The method of claim 1, The integrated monitoring control device 11, Monitor the process status of the monitoring platform's main platform The main platform and the interface are connected via RS-232C, and the main memory process of the operating MMI (Man Machine Interface) is constantly monitored by BMS (Background Memory Software). When the process is abnormally terminated, PJVS (Process Judgment Voice System) 203 transmits a status monitoring frame and scans the interface port connected to the driving MMI to determine whether there is data transmission. The PJVS 203, which transmits the status monitoring frame and receives the current status notification status monitoring frame by voice and telephone when a Main Platform Process error occurs, transmits the prestored voice data to the supervisor's telephone. Notify and specify the number of notifications. Main Pl using Auto Recovery Cold booting by controlling the reset switch of the main platform according to the preset settings received at cold booting and bypass of the atform If connected, the line bypass (By Pass), self-diagnosis function built-in self-diagnostic function, error notification to the Center Control Main System (CCMS) 201, dual CPU or Watch Dog Time function Intelligent integrated automatic control characterized in that the operation processing is switched or the CPU is reset, and the status of the PJVS 203 is judged by the driving MMI to display an error when the process status monitoring frame is not transmitted for a predetermined time. Device. In the intelligent integrated automatic control method, A PJVS error generation step that occurs when there is no response data packet in a port scan due to a PJVS (Process Judgement Voice System) failure or a circuit error; A BMS response null data processing step of determining, by the communication module unit, a response data packet transmitted from the PJVS to a background memory software (NMS) as a null value; Retry process data frame transfer to PJVS step of inputting data to PJVS by framing process reconfirmation data communication packet in BMS; R (Response) .Count means the number of times that a Retry Process data packet is sent to PJVS.R.Count Up to 100 times when there is a response of a response data packet to the BMS (True). Is branched to the start routine and if there is no response to the response data packet to the BMS up to R.Count 100 times (False), the following steps are performed: R.Count 100 times or less; A BMS alarm manager step of determining and processing a self error for the PJVS in the BMS alarm processing module; A display alarm window & voice output step of outputting an error message transmission window for PJVS on a monitor panel display screen and notifying the PJVS voice error through a speaker device connected to the monitor panel; The CCMS Center Control Main System Software Process to be loaded is abnormally unloaded from the memory of the watch station, or a request data packet is lost during a port scan. CCMS process unload event generation step that occurs if there is no; Frame by the event data in the BMS framed in the form of a data communication packet predefined in accordance with the event (event) in the communication module unit of the BMS (Background Memory Software); An event data PJVS input step of data-transmitting and inputting the framed packet to the PJVS; Event packet that analyzes frame by central processing unit according to pre-defined protocol in PJVS and performs the following task if its value is True and if it is False, event data branching to E.Count 5 times or less (Event Data) processing step; E.Count means the number of times the event data communication packet has been sent to PJVS.If the frame type of the input packet does not match the predefined protocol or is an error packet, E.Count is sent for the event generated by sending the request packet to the BMS. E. Count 5 or less steps to terminate the routine of the event data processing process if the request is made up to 5 times and the value becomes True within the required number of times, and if the value is True, if False, the event data processing routine is terminated; A voice data modulation step of modulating corresponding error contents into analog voice data in a wave conversion module unit; Dialing step of dialing the input telephone number of the telephone number storage memory set in the PJVS; Check the busy status of the line error and dialed phone number and perform the following operations if the connection is True. If the connection is False, Redial branches to three or fewer steps. step; If you try to redial up to 3 times, if the connection is True, the next operation is performed. If the connection is False, the redial routine is executed as many as the number of stored phone numbers after the memory address of the phone number. Repeating Redial three times or less; A voice data transmitting step of transmitting and outputting the modulated analog voice data to a connected telephone terminal device; An intelligent integrated automatic control method comprising a; disconnecting (Disconnect) step of disconnecting between the telephone terminal device connected to the ACU after the completion of the analog voice data transmission.

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