KR101872464B1 - Lonworks-based building monitoring and alarm integrated control system with heterogeneous protocol conversion function - Google Patents

Abstract

The present invention relates to a Lonworks-based building monitoring and alarm integrated control system with a heterogeneous protocol conversion function which utilizes Lonworks robust to a noise as a lower network directly connected to various monitoring means and response means of fire, flooding, security, power, air conditioning, etc. for a facility, and autonomously transmit and quickly responds to a determined dangerous situation in a gateway so as to transmit and control all types of data of the lower network through a Modbus TCP/IP or a Modbus RTU protocol capable of performing high-speed communication.

Description

[0001] LONWORKS-BASED BUILDING MONITORING AND ALARM INTEGRATED CONTROL SYSTEM WITH HETEROGENEOUS PROTOCOL CONVERSION FUNCTION [0002]

The present invention relates to a facility management system, and more particularly, it relates to a facility management system that utilizes noise-resistant Lonworks as a sub-network directly connected to various monitoring means and countermeasures such as fire, immersion, security, , Modbus TCP / IP or Modbus RTU protocol that enables all data of the subnetwork to be transmitted and controlled centrally by means of high-speed communication, so that the judged risk situation can be transmitted to the destination set by the gateway and it can be quickly responded To a facility monitoring and alarm integrated control system based on LonWorks.

Generally, a management system for comprehensive monitoring and control of various fields such as air conditioning, lighting, electric power, water, and fire monitoring is being installed in various buildings including large buildings. Recently, with the development of IT technology, LonWorks is also being used in the management system to manage the entire facility efficiently.

LonWorks is an international standard protocol that is widely used in subnetworks directly connected to devices because it is more resistant to noise than other industrial communications. It is applied to a control network system for building automation to provide a microprocessor To implement intelligent networking and to communicate devices between different vendors' products, it is assumed that all devices are equipped with a chip capable of sensing and controlling the devices.

In applying this technology to remote monitoring and alerting of facilities, various networks such as Internet communication network and wireless communication network are recently applied in the use of the initial wired telephone network, thereby supporting immediate situation propagation and response in the event of a facility fault.

In this case, since the existing remote monitoring and alarm system finally sends the error to the administrator at the central control server, there is a problem that the notification is missed when the error occurs in the middle part due to the distance between the device and the server. There is a high possibility of errors due to different protocols.

Especially, various personal portable terminals having functions similar to those of a smart phone have been actively spread, so that remote monitoring and alarm transmission of facilities are more conveniently performed through applications developed for them, but data communication including Wi- There has been a problem in that stability can not be guaranteed due to unreliable areas, personal service restrictions, and the like.

Especially, in case of a vulnerability that may cause data communication failure due to lightning, rising ground potential (lightning caused by reverse surge), fire, flooding, physical damage, etc., There has been a demand for a method of ensuring stable remote monitoring while there is a possibility of occurrence of a problem.

Korean Patent Publication No. 10-1993-0020929 (October 20, 1993)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a LonWorks network in which a plurality of management compartments are connected to a LonWorks network to perform integrated monitoring of fire, flood, security, Which can transmit the data through the LonWorks network to the central control system at high speed by incorporating Modbus TCP / IP and Modbus RTU protocol. And to provide a facility monitoring and alarm integrated control system based on LoneWorks having a protocol conversion function.

It is still another object of the present invention to provide a system and method for heterogeneous protocol conversion that supports self-correspondence and on-the-spot operation for each situation even when an abnormality occurs in a system for conversion and transmission of signals for monitoring and operation of corresponding devices, And to provide a facility monitoring and alarm integrated control system based on LonWorks.

In order to achieve the above object, according to the present invention, there is provided a monitoring and alarm control system for a facility which is divided and managed into a plurality of sections, comprising: a plurality of units for performing fire detection, flooding detection, A sensing unit configured to collect monitoring information; The supervisory information collected from the sensing means is collected through a LonWorks network using a twisted pair (Twisted pair (FT-10A)), which is a power line or a non-power communication type. The monitoring information is converted through Modbus TCP / IP and Modbus RTU protocols A LonWorks control unit for relaying to the integrated control unit; A judging unit for classifying and analyzing the surveillance information transmitted from the LonWorks control unit according to each compartment to generate state information according to an abnormal state judgment; a message generating unit for generating a voice message including the corresponding compartment and state information upon determining an abnormal state; A call connection unit for receiving a telephone number or calling a designated number, and an alarm transmission unit for connecting the call to the telephone number designated at the time of the determination of the abnormal state, and recognizing the ringing tone and the ringback tone, An integrated control unit; .

The LonWorks control unit includes a plurality of LonWorks control units for processing detection signals from a group of sensing means classified as a subordinate configuration. The integrated control unit integrally manages signals from a plurality of LonWorks control units, If the detection signal is not transmitted for the set time, it may be determined as an abnormal state.

The integrated control unit may further include a destination registering unit for registering a telephone number and whether to transmit the telephone number to the remote server through a call connection method, a message creating unit for creating a voice message through a call connection method, And an alarm management unit for managing the number of transmissions of the message and whether or not the call is received.

A corresponding unit comprising a plurality of corresponding means for performing an operation corresponding to the monitoring information collected by the sensing unit; Wherein the integrated control unit comprises: an input unit for receiving the compartment information and the utilization information through the call connection method; a sensing unit corresponding to the use and utilization information of each compartment and a code for the sensing unit and the corresponding unit; A storage unit for storing operation information of the corresponding unit and the emergency power unit; and a control unit for setting a poise according to the utilization information and the determination result of the determination unit and calling the corresponding operation information from the storage unit to control the sensing unit and the corresponding unit. And a setting unit.

And a switching unit configured to switch off the commercial power according to the determination result of the determination unit and to supply power to the integrated control unit through the battery, An emergency power section; Wherein the integrated control unit further comprises an authentication unit capable of setting and controlling the corresponding unit and the emergency power unit according to the control signal received through the call connection method and sequentially granting control authority according to the set state .

Through the present invention, it is possible to perform integrated monitoring and management of a plurality of compartments of a facility, and it is possible to grasp the current status through general telephone and voice messages and to set various monitoring settings, Effective status and setting can be achieved. In particular, intensive and efficient monitoring and response to accidents can be achieved, reflecting the risk of accidents, reflecting the use of compartments in the fire, flood, security, and power sectors and the characteristics of work in the compartment.

1 is a conceptual diagram of the present invention,
2 is a block diagram illustrating a configuration and a connection relationship according to a preferred embodiment of the present invention.
3 is a block diagram illustrating a configuration and a connection relationship according to another embodiment of the present invention.

Hereinafter, a configuration of a facility monitoring and alarm integration control system based on LoneWorks having heterogeneous protocol conversion function according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual diagram of the present invention, and FIG. 2 is a block diagram illustrating a configuration and a connection relationship according to a preferred embodiment of the present invention.

The present invention is basically a system for monitoring and responding to accidents that can be applied to a relatively large-scale facility, that is, a facility, which is divided into a plurality of sections and managed for each of the sections, and includes a sensing unit 10, (30) and an integrated control unit (40).

Particularly, in the present invention, a remote manager can check the status of the mobile terminal easily by using a telephone for monitoring and responding to the message. Also, the status can be transmitted through a voice message and various monitoring settings can be performed through the telephone 60 .

Generally, large facilities require a large number of equipment and manpower for monitoring and management of fire, flooding, air conditioning, as well as access security. In the present invention, such conventional facilities management factors are also subject to major monitoring, and as a result of the recent trend, many parts are automatized so that they can be basically managed with a small number of personnel. In addition, .

The compartments referred to in the present invention are divided into structural barriers of various facilities or divided according to the administrative necessity, and the monitoring and management factors are changed according to the use of the ordinary space.

The sensing unit 10 includes a plurality of sensing means for performing intrusion from the compartment according to the setting, that is, monitoring of entrance and exit, fire detection, immersion sensing, air conditioning sensing, . Because of the nature of the compartment, various compartments may be equipped in a single compartment to perform comprehensive monitoring and management, and intensive monitoring and management of factors higher than those with relatively low probability of accidents may be possible.

For example, in a compartment for storing or using flammable materials, fire will be monitored naturally. In a compartment such as a passage where a person travels, the possibility of fire is relatively low. The monitoring of the used passengers will be done.

In addition, inundation monitoring will take place in the compartment where pipelines for water supply, including water tanks and water tanks, are used, and monitoring of electric power usage in areas where there are many electric devices, Air conditioning will be detected in compartments that require temperature control, such as storing objects.

In the present invention, a typical sensing means for this purpose is an intrusion detector 11 for capturing an image or recognizing an access card, a passage through a door, etc., a power detector 12 for detecting a used power amount, a fire detector 13 for detecting a fire, A flood detector 14 for detecting the flooded water, a water storage sensor 15 for detecting the stored amount of the water storage such as a water tank, a temperature and humidity sensor 16 for detecting temperature and humidity in the compartment, And a weather information collecting unit 18 for collecting weather information, but it goes without saying that various sensing means may be applied.

The fire detector 13 detects smoke or gas generated during a fire or a fire in accordance with a possible cause of a fire, and the flooded sensor 14 mainly detects the bottom of a compartment located underground or discharges water during flooding. A well, and the like.

In addition, the low-water-holding portion 10 is installed in a storage means for supplying water required in a facility such as a water tank and monitors a storage amount. The temperature / humidity sensing portion 10 is a sensor for sensing general temperature / And the gas detector (17) can monitor the fire. However, when handling specific substances in the compartment, including fine dust or ultrafine dust, the gas sensor (17) And the like.

In addition to the temperature / humidity sensing unit 10, it may be used to maintain air conditioning conditions such as temperature, humidity, bacteria, odor, and air current in a room suitable for the purpose of use of the room.

Also, the weather information collecting unit 18 may collect current weather information from various webs providing weather information, although the weather information collecting unit 18 can measure the current weather state by the on / humidity and the rainfall installed outside the house.

The LonWorks control unit 30 is a LonWorks system that collects and relays surveillance information collected from the sensing means using a twisted pair (FT-10A), which is a power line or a non-power communication system, As a control network relaying means. Various protocol conversion algorithms can be applied for this purpose. However, in order to transmit the collected signals to the integrated control unit 40 due to the large number of LONWORKS-based devices for facility management, a high speed communication method such as Modbus TCP / IP , RS-485, and RS-232 can be applied. In other words, the lower heterogeneous protocol can be treated as a single device to prevent errors.

In this case, the twisted pair uses a cable made by twisting two insulated lines, one line carrying a detectable signal and the other being grounded, so that a signal caused by a strong source such as a nearby cable Interference can be reduced. In other words, the grounded line tends to absorb the crosstalk, thereby protecting the signal carried by the other line.

The integrated control unit 40 is configured to collect surveillance information and to control it by correspondingly controlling the corresponding means. The integrated control unit 40 includes a determination unit 43, a message generation unit 47, a call connection unit 41, (44).

The determination unit 43 is configured to classify and analyze the supervision information transmitted from the LonWorks control unit according to each of the compartments to generate state information according to the abnormal state determination. The determination unit 43 determines whether abnormalities such as fire, submersion, , High humidity and low humidity, lack of water storage, occurrence of intrusion by unauthorized persons, and excessive amount of specific substances in the air are judged comprehensively.

The message generating unit 47 generates a voice message including the compartment and status information upon determining the abnormal state through the determination unit 43. The message generating unit 47 generates a voice message including the compartment and the status information, The generated state information may be used to generate a voice message through a text-to-speech conversion algorithm, or a voice message may be generated by combining voice input data in advance according to the segment and state.

The call connection unit 41 is configured to receive a telephone number and receive a call or to make a call to a designated number. The call connection unit 41 includes a commercial telephone circuit capable of making a call to a designated number or receiving a call to a given number do.

The alarm transmission unit 44 transmits the compartment and status information to the designated telephone when the determination unit 43 determines the abnormal state. The alarm transmission unit 44 connects the call through the call connection unit to the predetermined telephone number, And recognizes the connection tone and reproduces and transmits the voice message. In other words, in response to the cause of the abnormal condition including the senior manager of the target facilities, the alarm is transmitted to the designated manager by the field by phone, so that the situation recognition and the action are carried out, and the telephone number to which the alarm is transmitted, Can be set in advance.

At this time, an algorithm that can recognize the ringback tone and the ringing tone is used so that the voice message can be started after the ringing tone due to the call connection is lost. If necessary, a response such as " It is possible to effectively cope with a case in which a coloring ring tone service or the like is set.

In addition, when a call or a telephone connection is not smooth, a sequential call is attempted with a designated number, and a smooth call connection and a situation transmission are performed.

The LonWorks control unit 30 may include a plurality of LonWorks control units 30 for processing the detection signals from the group of sensing means classified as a subordinate configuration. The determination unit 43 manages a plurality of subnetworks constructed from the monitoring means and configured to determine an abnormal state when the sensing signal is not transmitted from the specific LonWorks control unit for a predetermined period of time, So that appropriate responses can be made.

In addition, according to the present invention, there is provided a counterpart 20 composed of a plurality of countermeasures for operating the sensing unit 10, that is, the sensing information collected from various sensing means, So that responses can be made through network construction.

The countermeasure means basically includes a compound door 21 for performing security and fire function through the opening and closing of the passenger and the cargo between the compartments according to the setting, A water pump 23 for transferring the water in the compartment to a specific place when the flooding is generated, a cooling and heating unit 24 for cooling and heating the compartment, A ventilating fan 25, a power breaker 26 for blocking power supplied to the compartment, and a general lighting 27 and an emergency lighting 28 provided in the compartment. It is needless to say that such a countermeasure means can be provided in addition to the basic structure for managing facilities and coping with various accident and anomaly situations. In the present invention, the door (21) is a door with security and fire protection function. In the present invention, lock and unlock operations are performed according to the security posture to control the entrance and exit of the personnel. At the same time, And manual closing operation control can also be performed.

The monitoring of the sensing means and the control of the corresponding means are performed remotely through a central control server or a building energy management system (BEMS) connected to the integrated control unit 40 via Modbus TCP / IP And the control data for the corresponding means may be stored in the integrated control unit 40 so that the on-site action may be performed through the corresponding control data when the abnormal state is detected.

3 is a block diagram illustrating a configuration and a connection relationship according to another embodiment of the present invention. This is because the above-described preferred embodiment has a basic configuration and more effective management and configuration for coping with an abnormal situation are added. In order to prevent the problem from being blurred, the same contents as those described above will not be described again.

In another embodiment of the present invention, the emergency power unit 50 is provided so that the 12V small lead acid battery can be used as the emergency power source.

The emergency power unit 50 is basically constructed such that power is supplied for a predetermined period of time in a state where the commercial power is not supplied smoothly due to an accident while being charged through commercial power that is normally supplied, (51), a battery (52), and a switching unit (53).

The converter 51 converts the commercial power into a power suitable for charging the battery 52. Since the commercial power is AC power, the conversion unit 51 converts the commercial power into DC power of a predetermined voltage and charges the battery 52 do.

The switching unit 53 is a switching circuit for switching power supplied to the integrated control unit 40 and the LonWorks control unit 30 or the battery 52 according to the determination of the determination unit 43. When the commercial power is not supplied The LonWorks control unit 30 and the conversion unit 51 when commercial power is not used due to the occurrence of trouble or the occurrence of problems or maintenance / In the normal state, the commercial power is supplied from the power line to the integrated controller 40, the LonWorks control unit 30, and the conversion unit 51 so that the battery 52 can be charged. .

Similarly, in the present invention, the emergency power unit 50 is an important constituent for stable operation of the system. The emergency power unit 50 is installed so as not to be exposed to the outside as much as possible, It is preferable to be covered with a shielding material having a shielding and heat-resistant property so as not to be damaged even in a fire situation.

In response to this, the switching unit 53 is configured to be able to selectively supply the power to the corresponding unit 20 so that a smooth response to an accident can be achieved even when power supply is not smooth.

The integration control unit 40 includes an input unit 42, a destination registration unit 441, an alarm management unit 442, a storage unit 45, a poetry setting unit 46, an authentication unit 48, And a message composition unit 49 are added.

First, the destination registration unit 441 registers a telephone number and whether or not the telephone number is transmitted to the remote server through a call connection method. In other words, by setting the call destination through the telephone call method, it is possible to provide a very convenient setting environment as compared with the conventional program method, and it is also possible to increase the security by adding a security procedure such as setting change and password input according to the designated telephone number have. After a predetermined security procedure is performed by making a call from outside with the number designated in the call connection unit, a call destination can be set through a preset key input method, an ARS announcement, etc., preferably seven designated numbers and necessary A setting can be made as to whether or not an incoming call to the server is set.

The message creating unit 49 is configured to create a voice message through the call connection method. Similarly, in response to the voice guidance guided by the designated area and the situation in the state of the telephone connection through the call connection unit 41, Various voice messages can be created by recording the transmitted voice. The message generator 47 divides the voice messages according to the compartments and situations, and makes them available for future use.

The alert manager 442 manages the number of times the voice message is transmitted by the alert transmitter 44 and whether or not the voice message is transmitted. That is, when a call is not connected for smooth transmission, an attempt is made to retransmit a voice message over a call connection at a predetermined interval, and the incoming call is confirmed and stored and used as data for verification of information transmission at a later time.

The input unit 42 is configured to receive the partition information and utilization information from an administrator or an operator, and can input information in conjunction with an interface configured separately.

The interface for this purpose is an input / output means provided in the field. The supervisory information transmitted from the LonWorks control unit 30 is basically classified according to the compartments and outputted to the manager so that the manager can visually check the status of the compartments. It is possible to arrange various kinds of collected monitoring information including classification according to monitoring information.

In addition, the inputted compartment information and utilization information can be used as a criterion for judging which element should be intensively monitored depending on what kind of compartment is used or what work is performed. For example, if access levels are controlled by increasing the level of security during a specific period of a specific compartment, intensive monitoring of personnel entry and exit should be done intensively. If work is done using flammable materials or storage of flammable materials, The manager or the operator inputs the division information and the utilization information including the contents in advance through the input unit 42. [

The storage unit 45 stores usage and utilization information of each compartment input through the input unit 42, detection and countermeasures corresponding to the codes and the poisoning means corresponding to the sensing means and the corresponding means, 50 are stored in advance.

That is, for example, when the utilization information is related to the fire, the corresponding sensing means will be the fire detector 13 and the corresponding means will be the fire pump 22. In other words, as an abnormal situation is determined through various sensing means and sensing means corresponding to possible situations according to various utilization information, corresponding means for corresponding operation is stored as a code.

As the use and application information of such compartments are received, it is necessary to monitor the compartments at a higher level than usual. In some cases, the monitoring of the empty compartments may not be carried out, A situation may arise in which a monitoring level is given as the device is used for this specific purpose.

In the present invention, such a monitoring level is managed as a posture. For management efficiency, it is possible to manage the posture in various ways and levels. For example, in the case of fire monitoring, 1 is set for empty compartment, 2 for general use compartment where fire risk is slightly lower, and 3 In case of POSITIVE 1, no surveillance is made. In case of POSITIVE 2, normal surveillance through a fire detector is carried out. In case of POSITIVE 3, surveillance period is increased, or measures are taken so that surveillance is performed even if adjacent compartments are empty. The maintenance of the stand-by state of the pump, the maintenance of the automatic closing state of the door 21 as a fire door, etc. can be performed, and the efficient monitoring and management can be performed.

The poisoning setting unit 46 sets poise on the basis of the utilization information input through the input unit and the determination result of the determination unit 43 and calls the corresponding operation information from the storage unit 45 And controls the indentation detecting means and the corresponding means.

As described above, the posture designation is performed by reflecting the utilization information and the judgment result, and the monitoring period of the designated monitoring means or the operation or non-operation of the monitoring means for the adjacent compartment and the corresponding countermeasure means are operated at any time So that a standby action can be performed.

If it is determined that the determination unit (43) is in an abnormal state, the operation of the corresponding means may be immediately performed according to the setting.

The poetry setting unit 46 is configured to determine the possibility of occurrence of a lightning stroke that is a major cause of a surge and to divide the boundary level into a normal state with a small probability of lightning strike and a boundary state with a large possibility of lightning, Weather information including the weather is received from the air conditioner 18 and the boundary level is discriminated through this.

That is, the user can access the weather station or obtain detailed weather information by time in the area through various apps or sites related to the weather. The weather setting information analyzing unit 46 analyzes the received weather information, The possibility of occurrence is judged. For example, if the weather is clear and the probability of precipitation is low, it is determined to be a normal state. If the rain or precipitation probability is high, the boundary state is determined.

At this time, as described above, it is possible to calculate the posture end time that is switched from the boundary state to the normal state as the weather information is subdivided by time.

The authentication unit 48 is basically capable of setting and controlling the corresponding means and the emergency power unit 50 according to the control signal received through the call connection method, And is configured to be able to control the corresponding means and the emergency power unit 50, that is, the switching unit 53. [ That is, the control authority is sequentially given according to the currently set posture, thereby preventing the administrator from arbitrarily controlling the corresponding means and the switching unit 53, thereby preventing the secondary accident caused by the wrong control.

In addition, in another embodiment of the present invention, the emergency power section 50 is provided with the configuration of the current measuring section 54 and the power management section 55.

The current measuring unit 54 is configured to measure the current amount of the battery, that is, the remaining amount of power stored in the battery. The power management unit 55 controls the use of the power of the storage battery, A power saving measure for stepwise controlling the power consumption of the storage battery 52 in accordance with the operation information of the emergency power unit 50 of the storage unit from the time of using the power of the storage battery through the end setting time according to the posture to be.

To this end, the operation information of the emergency power unit (50) includes information on priority to supply and cut off electric power corresponding to the power remaining amount of the battery according to the posture and posture holding time and time. For example, the general illumination 27 has a higher power cut-off priority than the emergency light 28 and the emergency priority is set to a very low cut-off priority.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

10: sensing unit 11: intrusion detector
12: power detector 13: fire detector
14: flood detector 15: water detector
16: Temperature and humidity detector 17: Gas detector
18: weather information collecting unit 20:
21: Compound door 22: fire pump
23: Drain pump 24: Heating and cooling unit
25: ventilation fan 26: power breaker
27: General lighting 28: Emergency lighting
30: LonWorks control unit 40:
41: call connection unit 42: input unit
43: judging unit 44:
441: destination registration unit 442: alarm management unit
45: storage unit 46: poise setting unit
47: message generation unit 48: authentication unit
49: message generating unit 50: emergency power unit
51: Conversion section 52:
53: Switching section 54: Current measuring section
55: power management unit 60: telephone

Claims (5)

A monitoring and alarm integrated control system for a facility that is divided into a plurality of sections,
A fire detector 13 for detecting a fire, a flood sensor 14 for detecting a flood water, an intrusion detector 11 for detecting an inflow and an entrance door, a power detector 12 for detecting an amount of power used, A water sensor 15 for sensing the amount of stored water in the compartment, a temperature and humidity sensor 16 for sensing temperature and humidity in the compartment, a gas sensor 17 for sensing a specific component in the air, A monitoring unit 10 for collecting surveillance information including a plurality of sensing units including a weather information collecting unit 18;
A compound door 21 that performs an operation corresponding to the monitoring information collected by the sensing unit 10 and performs security and fire prevention functions by opening and closing between the compartments, A drain pump 23 for transferring the water in the compartment to a specific place when the flooding occurs, a cooling and heating unit 24 for cooling and heating the compartment, and a ventilation fan (not shown) for discharging the air in the compartment to the outside A corresponding portion 20 comprising countermeasures including a power circuit breaker 26 for blocking power supplied to the compartment, a general lighting 27 provided in the compartment and emergency lighting 28;
The supervisory information collected from the sensing means is collected through a LonWorks network using a twisted pair (Twisted pair (FT-10A)), which is a power line or a non-power communication type. The monitoring information is converted through Modbus TCP / IP and Modbus RTU protocols A LonWorks control unit (30) which is provided to relay detection signals to the integrated control unit and processes detection signals from the collection of sensing means classified into the reference set as the lower configuration;
The LonWorks control unit 30 collectively manages the signals from the plurality of LonWorks control units 30 and classifies and analyzes the monitoring information transmitted from the LonWorks control unit 30 according to the compartments to generate state information according to the abnormal state determination, A message generating unit 47 for generating a voice message including the compartment and the status information when the abnormal state is determined, A call connection unit 41 for making a call to a designated number, and a call connection unit 40 for connecting the call to the telephone number designated at the time of the determination of the abnormal state, and recognizing the ringing tone and the ring back tone and the voice response of the receiving side, An alert transmission unit 44 for attempting to make a sequential call with a plurality of designated numbers when the call is inaccessible or during a call, A message creating unit 49 for creating a voice message through a call connection method, a voice message creating unit 44 for creating a voice message by the voice communication unit 44, An alert manager 442 for managing the number of transmissions and an incoming call and attempting to retransmit a voice message over a call connection at a predetermined interval when the call is not connected and confirming and storing the incoming call; And the operation information of the sensing unit and the corresponding unit 20 according to the readiness and the level of monitoring are stored in the storage unit 42. [ And a control unit 45 for setting the posture and monitoring level according to the utilization information and the determination result of the determination unit 43 and loading the corresponding operation information from the storage unit 45 Integrated control unit comprising the means and the posture setting section 46 for controlling the corresponding unit (40); A facility monitoring and alarm integrated control system based on LonWorks having a heterogeneous protocol conversion function.
delete delete delete The method according to claim 1,
A battery 52 charged by the converted power source; and a control unit 52 for turning off the commercial power according to a result of the determination by the determination unit 43, An emergency power unit (50) having a switching unit (53) configured to supply power to the battery (40); Further comprising:
According to the control signal received through the call connection method, the integrated control unit 40 can set and control the corresponding means and the emergency power unit 50, (LonWorks) facility monitoring and alarm integration control system having a heterogeneous protocol conversion function.

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