KR20200110982A - System for monitoring and alarming abnormal operation of facilities - Google Patents

Abstract

The present invention relates to a system for integrating facility monitoring and alarming, and more specifically, to a system for integrating facility monitoring and alarming, which detects an abnormal signal (alarming signal) generated during abnormal operation of various facilities (air conditioning/water supply and drainage/communications/electricity/firefighting/heating, etc.) installed in a building and operated through an Internet of things (IoT) sensor, and then integrates a detection signal with a dedicated terminal or a virtual private server (cloud server) so as to transmit an alarming message to a worker terminal. The present invention detects an abnormal signal (alarming signal) generated during abnormal operation of various facilities through the IoT sensor for each of the facilities, and integrally receives a detection signal to a dedicated terminal or a virtual private server (cloud server) to transmit an alarming message to a terminal of a worker, thereby providing an alarming situation of facilities to the worker more stably.

Description

Facility monitoring and alarm integrated system {SYSTEM FOR MONITORING AND ALARMING ABNORMAL OPERATION OF FACILITIES}

The present invention relates to an integrated facility monitoring and alarm system, and in detail, an abnormal signal (alarm signal) generated when an abnormal operation of various facilities (air conditioning/water supply/drainage/communication/power/firefighting/heating, etc.) installed and operated in a building ) Is detected through an Internet of thing (IoT) detector, and the detection signal is integrated into a dedicated terminal or a virtual private server (cloud server) to transmit an alarm message to a worker's terminal.

In general, in the modern era, various facilities such as air conditioning facilities, water supply and drainage facilities, power facilities, firefighting facilities, communication facilities, and heating facilities are installed to efficiently operate and manage these buildings as various buildings become more sophisticated and complex. It is in operation.

These facilities are common facilities that are installed and operated to provide better convenience to users or visitors who use buildings, and abnormal operation may cause property damage and personal damage. Accordingly, in buildings in which common facilities are installed, a management system that monitors the abnormal operation of the facilities and notifies an alarm in case of abnormal operation is established.

The management system according to the prior art known so far basically detects an abnormal operation of a facility installed in a building through a detector and transmits it to a management server or a dedicated terminal (PC) built in the central management room to provide the manager with the movement of the facility. I did.

However, such a management system according to the prior art has the following problems.

First, in the management system according to the prior art, when an abnormal operation (breakdown) of a facility is detected, it is simply transmitted to the management server or dedicated terminal built in the central management room to warn. There was a problem that couldn't.

Of course, an alarm message (notification message) can be transmitted to a terminal carried by the administrator through a dedicated terminal provided in the central management room, but since most of the alarm messages are sent one-time, workers often do not recognize the alarm message. As a result, there has been a problem that it is not possible to quickly respond to abnormal operation of the facility.

Second, in the management system according to the prior art, in the event of an abnormal operation of a facility, after receiving an alarm signal according to a detection signal through a dedicated terminal in the central management room, a worker in the management room calls the field worker (the facility worker working near the facility). It was difficult to respond quickly as it was carried out in a manner of notifying that an abnormal operation occurred in the facility.

Third, in the management system according to the prior art, when a facility is malfunctioning, it does not send an alert message by selecting the current worker and the non-worker, but sends an alert message to the terminals of all registered facility management staff at the same time. Being provided with a message can cause aggravating work stress and adversely affect health.

Fourth, in the management system according to the prior art, there is a problem of indiscriminately sending an alarm message because there is no means for filtering it when a detector malfunctions.

Fifth, in the management system according to the prior art, there is still a limit to improving the efficiency of monitoring and alarming of the facility because it cannot be confirmed whether the worker (including the field worker) has received and confirmed the alarm message sent to the terminal in case of abnormal operation of the facility. .

KR 10-1035908 B1, 2011.05.13. KR 10-1872464 B1, 2018. 06. 22.

Accordingly, the present invention has been proposed to solve the above problems, and has the following objects.

First, the present invention detects an abnormal signal (alarm signal) generated during abnormal operation of various facilities for each facility through an Internet of thing (IoT) detector, and then transmits the detection signal to a dedicated terminal or a virtual private server (cloud server). Its purpose is to provide a facility monitoring and alarm integrated system that receives and transmits alarm messages to workers' terminals.

Second, the present invention selects the workers and non-workers on the day based on the work scheduling of the staff when sending the alarm message to the worker's terminal through a dedicated terminal or a virtual private server, and transmits the alarm message only to the terminal of the worker. Another purpose is to provide an integrated facility monitoring and alarm system that can reduce work stress.

Third, the present invention has another object to provide a facility monitoring and alarm integrated system capable of preventing an alarm message from being sent to a worker's terminal indiscriminately due to a malfunction of an IoT detector due to other factors despite the normal operation of the facility. .

Fourth, the present invention continuously transmits the alarm message to the worker terminal at regular intervals until the worker checks (recognizes) the alarm message transmitted from the dedicated terminal to the worker terminal in the event of an abnormal operation of the facility, thereby improving the monitoring and alarm efficiency of the facility. Another object is to provide an improved facility monitoring and alarm integrated system.

The present invention according to an aspect for achieving the above object is a facility including at least one of air conditioning facilities, water supply and drainage facilities, power facilities, fire fighting facilities, communication facilities, and heating facilities installed inside and outside various buildings. Internet of thing (IoT) detectors for detecting abnormal signals generated when abnormal operation or failure occurs; And a detection signal of the IoT detectors corresponding to an abnormal signal generated when an abnormal operation or failure of the facility occurs by being connected to the IoT detectors through a wired communication network or a wireless communication network, and displays the abnormal signal of the facility. And, it provides a facility monitoring and alarm integrated system, characterized in that it comprises a dedicated terminal or a virtual private server for transmitting an alarm message to a previously registered worker terminal through a wireless communication network.

Preferably, the IoT detectors are respectively installed in the facility or installed in close proximity to the facility to detect an abnormal signal of the facility generated when an abnormal operation or failure of the facility occurs, and the abnormal signal of the facility is an alarm sound, a vibration sound, or It may be characterized by any one of abnormal current/voltage/temperature/pressure/gas.

Preferably, the IoT detectors are each assigned an identification number so that the dedicated terminal or the virtual private server receives a detection signal from one of the IoT detectors, based on a unique identification number included in the received detection signal. It may be characterized by identifying an IoT detector that has transmitted a detection signal to identify a facility where an abnormal signal has occurred.

Preferably, the dedicated terminal includes a signal receiving unit for receiving a detection signal transmitted from the IoT detectors; A signal identification unit for identifying a facility in which the abnormal signal is generated by identifying a detection signal corresponding to an abnormal signal of a facility based on the detection signal received through the signal receiving unit; An abnormality corresponding to any one of an alarm sound, a vibration sound, or an abnormal current/voltage/temperature/pressure/gas/smoke by analyzing the detection signal transmitted from the signal identification unit. A signal analysis unit that analyzes whether a signal is a signal; A display unit for displaying a result identified and analyzed by the signal identification unit and the signal analysis unit; A text transmission unit for transmitting a warning message corresponding to the facility identified by the signal identification unit to a worker terminal; A schedule management unit for setting and managing the entire schedule of the management staff managing the facility; And the corresponding facility for which an abnormal signal is currently generated and the type of the abnormal signal of the corresponding facility through the display unit, and a warning message including the type of the facility and the type of the abnormal signal for which the current abnormal signal has occurred is displayed through the text transmission unit. It provides a facility monitoring and alarm integrated system comprising a control unit for transmitting to the terminal.

Preferably, when an abnormal signal occurs in any one of the facilities, the control unit may be characterized in that it transmits an alarm message only to a worker terminal of a worker who works on a corresponding day set by the schedule management unit. .

Preferably, the dedicated terminal further comprises a text reception confirmation unit that checks whether or not the text transmission unit has confirmed the alarm message transmitted to the worker terminal and transmits it to the control unit, and the worker terminal includes a'monitoring and alarm integration 'App' is installed, so when an alarm message is transmitted from the text transmission unit, the'integrated monitoring and alarm app' is automatically activated, and a confirmation button is provided on the screen window of the worker terminal to confirm whether the alarm message has been received. , When the worker touches the confirmation button, an alarm message confirmation signal may be transmitted to the text reception confirmation unit through a'monitoring and alarm integration app' executed on the worker terminal.

Preferably, the dedicated terminal is a facility that will preferentially transmit an alarm message when two or more detection signals are simultaneously received from the IoT detector through the signal receiver due to simultaneous occurrence of an abnormal signal in two or more facilities among the facilities. It may be characterized in that it further comprises a priority determining unit to determine the.

Preferably, the schedule management unit manages facilities by providing a monthly calendar method through the display unit in order to transmit an alarm message only to the terminal of the worker of the worker working on that day when an abnormal signal occurs in any one of the facilities. It manages the employee's schedule, but it can be characterized by setting the working hours and shift hours by dividing the entire facility management staff into'weekly','nighttime', and'by group'.

Preferably, the schedule management unit adds an overlapping time in which these times overlap a certain time between the end time at which working hours end and the start time at which the shift time of the next worker starts, taking into account the gap between the current worker and the next worker, and the The control unit may be characterized in that when an abnormal signal occurs in any one of the facilities during the overlapping time, it may transmit an alarm message to both the current worker and the next worker's worker terminal.

Preferably, the dedicated terminal further includes an SMS setting unit for setting a delay time during SMS transmission to prevent confusion by indiscriminately sending an alarm message to a worker when frequent malfunctions occur, and the control unit detects it through the signal receiving unit. When a detection signal is not received from the same IoT detector after a time set within the delay time when the SMS is sent after the signal is received, it is determined that the facility or the IoT detector malfunctions, and an alarm message is not transmitted.

As described above, according to the present invention, the following effects can be obtained.

First, the present invention detects an abnormal signal (alarm signal) generated during abnormal operation of various facilities for each facility through an Internet of thing (IoT) detector, and then transmits the detection signal to a dedicated terminal or a virtual private server (cloud server). By receiving integrated and transmitting an alarm message to the worker's terminal, it is possible to more stably provide the alarm situation of the facility to the worker.

Second, the present invention selects the workers and non-workers on the day based on the work scheduling of the staff when sending the alarm message to the worker's terminal through a dedicated terminal or a virtual private server, and transmits the alarm message only to the terminal of the worker. It can reduce work stress.

Third, the present invention can prevent an alarm message from being indiscriminately sent to a worker's terminal due to a malfunction of an IoT detector due to other factors despite the normal operation of the facility.

Fourth, the present invention continuously transmits the alarm message to the worker terminal at regular intervals until the worker checks (recognizes) the alarm message transmitted from the dedicated terminal to the worker terminal in the event of an abnormal operation of the facility, thereby improving the monitoring and alarm efficiency of the facility Can be improved.

Fifth, the present invention detects an abnormal signal (alarm signal) generated during abnormal operation of various facilities for each facility through an IoT detector, and then integrates and receives the detection signal to a dedicated terminal or a virtual private server and converts it into a database for accurate and fast. Real-time alarm status can be checked, and past alarm history can be searched for easy data management.

Sixth, the present invention has the advantage that schedule management is more convenient and easier by allowing a worker's schedule on a monthly or annual basis when scheduling the work of a facility management employee.

1 is a conceptual diagram showing a facility monitoring and alarm integrated system according to an embodiment of the present invention.
Figure 2 is a block diagram illustrating the configuration of a dedicated terminal according to the present invention.
3 is a view showing a main screen of a dedicated terminal according to the present invention.
4 is a diagram showing a schedule setting screen of a dedicated terminal according to the present invention.
5 is a diagram showing an SMS environment setting screen of a dedicated terminal according to the present invention.
6 is a conceptual diagram showing a facility monitoring and alarm integrated system according to another embodiment of the present invention.

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

1 is a conceptual diagram showing a facility monitoring and alarm integrated system according to an embodiment of the present invention.

Referring to FIG. 1, the facility monitoring and alarm integrated system according to an embodiment of the present invention includes various facilities (alarm signals) in order to detect abnormal signals (alarm signals) generated when an abnormal operation or failure of various facilities (#1 to #n) occurs. Internet of thing (IoT) detectors (11a~11n) installed in #1~#n), IoT detectors (11a~11n) and various facilities (#1~#n) through wired communication network or wireless communication network (14) The detection signal detected by the IoT detectors (11a~11n) that detects the abnormal operation or abnormal signal generated when a fault occurs is provided through the wireless communication network (15) and transmits an alarm message to the worker terminals (#P1~#Pn). It includes a dedicated terminal 12.

Facilities (#1~#n) are facilities installed inside and outside the building to provide users' convenience and efficiently use and manage various buildings, including air conditioning facilities (#1), water supply and drainage facilities (#2), and It includes at least one of equipment (#3), power equipment (#4), and fire fighting equipment (#n).

IoT detectors (11a~11n) are installed directly or adjacent to each facility (#1~#n), and each facility (#1~#n) is installed in case of abnormal operation or failure of each facility (#1~#n). ) To detect and collect. At this time, the abnormal signal of the facilities #1 to #n may be various parameters according to characteristics of each facility such as an alarm sound (siren), a vibration sound, current, voltage, temperature, and pressure.

These IoT detectors 11a to 11n include sensors for detecting abnormal signals including an alarm signal generated by one or more units installed in one facility. For example, an abnormal signal of a facility detected through the sensor may be, for example, an alarm sound, a vibration sound, or an abnormal current/voltage/temperature/pressure/gas/smoke of the facility.

As described above, the IoT detectors 11a to 11n are at least one of a sound sensor, a vibration sensor, an overcurrent sensor, an overvoltage sensor, a temperature sensor, a pressure sensor, a steam sensor, a water pressure sensor, a smoke sensor, a gas sensor, etc. Including sensors, these sensors detect an abnormal operation of a facility or an abnormal signal caused by a failure according to the characteristics of the facility.

In addition, the IoT detectors 11a to 11n are provided with a dedicated LCD display window to display whether or not an abnormal signal of the facility is detected and the status of transmission completion of the detection signal to the dedicated terminal 12 in real time.

In addition, the detection signals transmitted from the IoT detectors 11a to 11n to the dedicated terminal 12 have different signals according to the abnormal signal of the facility. For example, different signal sizes (width) are differentiated by outputting different detection signals according to the type of abnormal signal.

For example, when the abnormal signal generated by the firefighting facility #1 is a fire alarm sound of the firefighting facility #1, a detection signal having a first width is generated. In addition, in the case of an abnormal signal corresponding to an overcurrent or overvoltage of an electric and electronic device built in the firefighting facility #1 in addition to the fire alarm sound, a detection signal having a size smaller than the first width is generated by differentiating it.

In addition, the data of the detection signal generated by the IoT detectors 11a to 11n includes a unique identification number given in response to each sensor included in the IoT detectors 11a to 11n. The identification number corresponds to the type of abnormal signal of the facility. A unique identification number is assigned according to the type of the sensor, for example, sound detection sensor, vibration detection sensor, overcurrent sensor, overvoltage sensor, temperature sensor, pressure sensor, steam sensor, water pressure sensor, smoke sensor, gas sensor, This identification number is included in the detection signal generated by the IoT detectors 11a to 11n.

Through this, the dedicated terminal 12 analyzes the detection signal transmitted from the IoT detectors 11a to 11n to identify the facility where the abnormal signal is generated, and easily analyzes the type of the abnormal signal based on the size of the detection signal. The cause of the abnormal signal can be more easily recognized.

In addition, it is electrically connected to each facility (#1~#n) by wire or wireless to detect and collect abnormal signals of each facility (#1~#n) in real time, and When an abnormal signal is generated, the detected signal is transmitted to the dedicated terminal 12 through the wireless communication network 15. In this case, the wireless communication network 15 may be a short-range wireless communication network, an Internet network, or a mobile communication network.

The IoT detectors 11a to 11n are given an identification number (or identification symbol) to be identified. In addition, the detection signal generated by the IoT detectors 11a to 11n includes an identification number assigned to each IoT detector and an identification number corresponding to it. That is, the detection signal is a data signal including a unique identification number assigned to each IoT detector. Accordingly, when a detection signal of any one of the IoT detectors 11a to 11n is received, the dedicated terminal 12 detects the IoT detector that has transmitted the current detection signal based on the unique identification number included in the data of the received detection signal. It identifies and displays the facility detected by the IoT detector through this.

Dedicated terminal 12 is provided in a central management room, for example, in a management room or security room in the case of an apartment, and detection transmitted from each IoT detector 11a-11n in response to the occurrence of an abnormal signal in each facility (#1 ~ #n). The signal is received and integrated into a database, while an alarm message is transmitted to the previously registered worker terminals #P1 to #Pn through the wireless communication network 15.

2 is a block diagram illustrating a configuration of a dedicated terminal according to the present invention.

Referring to FIG. 2, the dedicated terminal 12 according to the present invention may use a 9-inch touch terminal to facilitate portability, for example, to provide a user interface (GUI).

The dedicated terminal 12 according to the present invention collects and integrates the detection signals of the IoT detectors 11a to 11n, and in response thereto, transmits an alarm message to the worker terminals #P1 to #Pn, as shown in FIG. Signal receiving unit 121, signal identification unit 122, signal analysis unit 123, timer 124, control unit 125, display unit 126, text transmission unit 127, schedule management unit 128, character reception confirmation It includes a unit 129 and an SMS setting unit 130. Further, a priority determining unit 131 may be further included.

The signal receiving unit 121 is a wired or wireless communication receiving unit, and when an abnormal signal of each facility (#1 to #n) is generated by wired or wireless communication with each IoT detector (11a to 11n) through a wired communication network or wireless communication network (14) It receives a detection signal transmitted from the IoT detection (11a ~ 11n).

The signal identification unit 122 identifies whether the detection signal received through the signal reception unit 121 is a detection signal of an IoT detector that has detected an abnormal signal of a facility. In this case, the identification may be implemented by analyzing a unique identification number of IoT detection included in the data of the detection signal.

The signal analysis unit 123 analyzes the signal size (width) of the detection signal transmitted from the signal identification unit 122 or a unique identification number for each type of abnormal signal included in the data of the detection signal.

That is, the detection signal analyzes whether the abnormal signal of the facility corresponds to any one of parameters such as alarm sound, vibration sound, current, voltage, temperature, and pressure. The analyzed parameter may be displayed together with the corresponding facility on the main screen of the display unit 126.

The controller 125 controls the overall operation of the dedicated terminal 12, and based on the results identified and analyzed by the signal identification unit 122 and the signal analysis unit 123, the current abnormal signal, that is, the facility where the event has occurred, and , The parameter, which is the cause of the abnormal signal of the facility, is transmitted to the display unit 126 to be displayed, and the schedule management unit 128 through the text transmission unit 127 uses the worker terminals (#P1~#Pn) working on the day of the week. ) To send an alarm message.

The schedule management unit 128 sets and manages the entire schedule (working days) of management staff who manage facilities. Through this, when an abnormal signal (event) of a facility occurs, an alarm message is transmitted only to the terminal of the worker who actually works on the day and time.

The text reception confirmation unit 129 checks whether or not the worker checks the alarm message transmitted from the text transmission unit 127 to the worker terminals #P1 to #Pn, and transmits it to the control unit 125.

The method to check whether the worker's alarm message is checked is as follows. Worker terminals (#P1~#Pn) are equipped with a'monitoring and alarm integrated app', so when an alarm message is transmitted from the text transmission unit 127, it is automatically executed and activated, and an alarm message is received on the screen window of the terminal. It comes with a confirmation button to confirm whether or not. Thereafter, when the worker touches the confirmation button, the alarm message confirmation signal is transmitted to the text reception confirmation unit 129 through the monitoring and alarm integration app executed on the worker terminals (#P1 to #Pn).

The priority determining unit 131 is a facility that will preferentially transmit an alarm message when a detection signal is received through the signal receiving unit 121 due to simultaneous occurrence of an abnormal signal in two or more of the facilities (#1 to #n). To decide. For example, in the present invention, when an abnormal operation of the firefighting equipment #n is performed, an alarm is given priority over other facilities.

3 is a diagram illustrating a main screen of a dedicated terminal according to the present invention.

Referring to FIG. 3, on the main screen of the display unit 126, an alarm icon 126a corresponding to each facility (#1 to #n) is provided on the upper right, and when an abnormal signal occurs, a'date (date/time)', An event screen 126b including'classification (status)','event', and'SMS REPORT' is provided, and a message transmission icon (SMS sending) 126c is provided in the upper left corner.

The alarm icon 126a is an icon corresponding to each facility (#1 to #n), and is displayed by activating an icon corresponding to a facility where an abnormal signal is currently generated among the facilities (#1 to #n). In this case, activation of the icon may be implemented by lighting or flashing.

In the event screen 126b,'Date' indicates the date and time at which the current abnormal signal occurs, and'Division (Status)' indicates whether or not an abnormal signal has occurred in the facility, and indicates'Occurrence' when an abnormal signal occurs. And, when the occurrence of an abnormality in the facility is completed, it is marked as'off'.

'Event' indicates the target facility where an abnormal signal has occurred. For example, if an abnormal signal occurs in the communication facility (#3), it is indicated as'communication module failure', and the firefighting facility (#n) malfunctions. However, if an abnormal signal such as a fire alarm sound is generated due to the occurrence of a fire, it is indicated as'fire alarm'. The'message sending report' displays information about sending an alarm message when an abnormal signal occurs in a facility, and displays the time and the person who sent the message.

As shown in FIG. 1, the dedicated terminal 12 transmits an alarm message to the worker terminals (#P1 to #Pn) when an abnormal signal of a facility occurs, and at this time, the alarm message is not transmitted to all facility management personnel, but works on the corresponding day. Selected and transmitted to the terminal of the working worker.

4 is a diagram illustrating a schedule setting screen of a dedicated terminal according to the present invention.

Referring to FIG. 4, the schedule management unit 128 can manage the schedule of the facility management staff in order to transmit an alarm message only to the terminal of the worker working at the corresponding day or time when an abnormal signal of the facility occurs through the display unit 126. A schedule management screen 126d is provided.

The schedule management screen 126d may be provided as a new screen window separate from the main screen. In this case, a schedule management icon (not shown) is further provided on the main screen shown in FIG. 3, and the program can be programmed to be automatically executed when the user clicks the schedule management icon.

The schedule management unit 128 divides the entire facility management staff into'daytime','nighttime', and by group ('A group','B group','C group') to set the work schedule for each employee. , At this time, the working hours are set and registered for each month/day/hour in a calendar method.

That is, the schedule management unit 128 sets the working hours and shift hours by classifying the entire facility management staff into'daytime','nighttime', and by group ('A group','B group','C group'). , It is provided in a monthly calendar method through the display unit 126 so that the administrator inputs and sets it.

In addition, in consideration of the gap between the current worker and the next worker, an overlapping time in which these times overlap for a predetermined time can be added between the end time at which the working hours ends and the start time at which the shift time begins. Accordingly, the control unit 125 transmits an alarm message to both the terminals of the current worker and the next worker when an abnormal signal of the facility occurs during the overlapping time.

Meanwhile, the overlapping time may be set to approximately 5 to 10 minutes before and after the end time at which the current worker's working time ends and the start time at which the next worker's shift time starts. For example, if the end time of the current working time is 9:00 and the start time of the next working time is 9:00, the overlapping time may be set from 8:50 to 9:10.

5 is a diagram illustrating an SMS environment setting screen of a dedicated terminal according to the present invention.

As shown in FIG. 5, the SMS setting unit 130 provides an SMS environment setting screen 126e through the display unit 126 so that the administrator can set the environment of the alert message to be transmitted.

On the SMS configuration screen 126e, an input window for inputting'SMS account','account password','calling number', and'waiting time' related to SMS sending, and'number of transmissions' are provided. In addition, an input window for entering the name, title, and mobile phone number of the entire facility management staff is provided.

In addition, the SMS setting unit 130 provides to set a delay time during SMS transmission in order to prevent confusion by indiscriminately sending an alarm message to a worker when frequent malfunctions occur. At this time, the SMS sending delay time is set in seconds, and an alarm message is sent to the worker terminals (#P1~3Pn) after the set delay time elapses in the state of an abnormal signal.

When the detection signal is not received from the same IoT detector after a set time (i.e., within the delay time of SMS sending) after the detection signal is received through the signal receiving unit 121, the control unit 125 malfunctions of the facility or the IoT detector. It is judged as and does not transmit an alarm message.

In addition, the SMS setting unit 130 may set the number of times the alert message is sent. Accordingly, the text transmission unit 127 transmits an alert message to the worker terminals #P1 to #Pn according to the setting conditions set by the SMS setting unit 130. At this time, the transmission of the alarm message is repeated until the worker checks the alarm message transmitted to the worker terminal (#P1~#Pn).

6 is a conceptual diagram showing a facility monitoring and alarm integrated system according to another embodiment of the present invention.

As shown in FIG. 6, the facility monitoring and alarm integration system according to another embodiment of the present invention is a virtual private server (cloud server) 22 instead of a dedicated terminal 12 unlike the facility monitoring and alarm integration system shown in FIG. Is constructed to receive and collect detection signals transmitted from the respective IoT detectors 11a to 11n, and then transmits an alarm message to the worker terminals (#P1 to #Pn) through the wireless communication network 15. At this time, the virtual private server 22 is programmed to operate in the same manner as the above-described dedicated terminal 12, and other IT infrastructures can be conveniently used through the Internet network. Other than that, it has the same structure as FIG.

As described above, the technical idea of the present invention has been described in detail in the preferred embodiment, but the preferred embodiment is for the purpose of explanation and not limitation. As such, it will be understood by those of ordinary skill in the art that various embodiments are possible through a combination of the embodiments of the present invention within the scope of the technical idea of the present invention.

#1~#n: Facilities
#P1~#Pn: Worker terminal
11a~11n: IoT detector
12: dedicated terminal
14: wired and wireless communication networks
15: wireless communication network
22: Virtual private server (cloud server)
121: signal receiver
122: signal identification unit
123: signal analysis unit
124: timer
125: control unit
126: display
127: text transmission unit
128: schedule management unit
129: text receipt confirmation unit
130: SMS setting unit
131: priority decision unit
126a: alarm icon
126b: Event screen
126c: message transfer icon
126d: Schedule management screen
126e: SMS configuration screen

Claims (10)

IoT (IoT) that detects abnormal signals generated in the event of abnormal operation or failure of a facility including at least one of air conditioning equipment, water supply and drainage equipment, power equipment, firefighting equipment, communication equipment, and heating equipment installed inside and outside of various buildings. Internet of thing) detectors; And
The IoT detectors are connected through a wired communication network or a wireless communication network to receive detection signals of the IoT detectors corresponding to an abnormal signal generated when an abnormal operation or failure of the facility occurs through wired or wireless communication, and display an abnormal signal of the corresponding facility. , Dedicated terminal or virtual private server for transmitting an alarm message to a previously registered worker terminal through a wireless communication network;
Facility monitoring and alarm integrated system comprising a.
The method of claim 1,
The IoT detectors are respectively installed in the facility or installed close to the facility to detect an abnormal signal of the facility that occurs when an abnormal operation or failure of the facility occurs, and the abnormal signal of the facility is an alarm sound, a vibration sound, or an abnormal current/ Facility monitoring and alarm integrated system, characterized in that any one of voltage / temperature / pressure / gas.
The method of claim 1,
Each of the IoT detectors is assigned an identification number, and the dedicated terminal or the virtual private server receives a current detection signal based on a unique identification number included in the received detection signal when any one of the IoT detectors is received. A facility monitoring and alarm integrated system, characterized in that by identifying a transmitted IoT detector to identify a facility where an abnormal signal has occurred.
The method of claim 1,
The dedicated terminal,
A signal receiver for receiving a detection signal transmitted from the IoT detectors;
A signal identification unit for identifying a facility in which the abnormal signal is generated by identifying a detection signal corresponding to an abnormal signal of a facility based on the detection signal received through the signal receiving unit;
An abnormality corresponding to any one of an alarm sound, a vibration sound, or an abnormal current/voltage/temperature/pressure/gas/smoke by analyzing the detection signal transmitted from the signal identification unit. A signal analysis unit that analyzes whether a signal is a signal;
A display unit for displaying a result identified and analyzed by the signal identification unit and the signal analysis unit;
A text transmission unit for transmitting a warning message corresponding to the facility identified by the signal identification unit to a worker terminal;
A schedule management unit for setting and managing the entire schedule of the management staff managing the facility; And
Through the display unit, the facility for which an abnormal signal is currently generated and the type of the abnormal signal of the facility are displayed, and a warning message including the type of the facility where the abnormal signal is currently generated and the type of the abnormal signal is transmitted through the text transmission unit to the worker terminal. A control unit that transmits to;
Facility monitoring and alarm integrated system comprising a.
The method of claim 4,
When an abnormal signal occurs in any one of the facilities, the control unit transmits an alarm message only to a worker terminal of a worker who works on a corresponding day set by the schedule management unit. system.
The method of claim 4,
The dedicated terminal further includes a text reception confirmation unit that checks whether the text transmission unit has confirmed the alarm message transmitted to the worker terminal and transmits it to the control unit, and the worker terminal includes a'monitoring and alarm integrated app' When an alarm message is transmitted from the text transmission unit, the'monitoring and alarm integration app' is automatically activated, and a confirmation button is provided on the screen window of the worker terminal to confirm receipt of the alarm message. When the confirmation button is touched, an alarm message confirmation signal is transmitted to the text reception confirmation unit through a'monitoring and alarm integration app' executed on the worker terminal.
The method of claim 4,
The dedicated terminal preferentially determines a facility to transmit an alarm message when two or more detection signals are simultaneously received from the IoT detector through the signal receiving unit because an abnormal signal is simultaneously generated from two or more facilities among the facilities. Facility monitoring and alarm integrated system, characterized in that it further comprises a priority determining unit.
The method of claim 4,
When an abnormal signal occurs in any one of the facilities, the schedule management unit provides a monthly calendar method through the display unit in order to transmit an alarm message to only the terminal of the worker of the worker who works on that day. The facility monitoring and alarm integrated system, characterized in that the entire facility management staff is divided into'weekly','night', and'by group' to set working hours and shift times.
The method of claim 8,
The schedule management unit adds an overlapping time in which these times overlap for a certain time between the end time at which working hours end and the start time at which the shift time of the next worker starts, taking into account the gap between the current worker and the next worker, and the control unit includes the When an abnormal signal occurs in any one of the facilities at the overlapping time, an alarm message is transmitted to both the terminal of the current worker and the next worker.
The method of claim 4,
The dedicated terminal further includes an SMS setting unit for setting a delay time during SMS transmission in order to prevent confusion by indiscriminately sending an alarm message to a worker in case of frequent malfunction, and the control unit receives a detection signal through the signal receiving unit. After the SMS is sent, if a detection signal is not received from the same IoT detector after a time set within the delay time, it is determined that the facility or the IoT detector malfunctions and does not transmit an alarm message. .

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