KR102540852B1 - Information and communication facility integrated management system and its management method - Google Patents

Abstract

It provides an information and communication facility integrated management system and management method for apartment buildings. The information and communication facility integrated management system analyzes safety disasters, calculates the range of influence of safety disasters, and then detects smart grid facilities including telephone poles, collection devices, power meter AMI modems, power communication networks, street lights, security lights, and CCTVs. Based on the address information of smart city facilities including states, it includes a control server that sets safety and disaster information propagation areas and transmits safety and disaster information, but the information and communication facility integrated management system is installed on site by monitoring facilities Handling processes including installation and transport at the site and monitoring of specific areas of the site are performed.

Description

Information and communication facility integrated management system and its management method for apartment buildings

The present invention relates to an integrated information and communication facility management system of an apartment building and a management method thereof, and more specifically, in connection with a social safety system, when an emergency situation occurs for the socially underprivileged or a crime occurs, this fact is reported to the surroundings. Seismic function that makes it easy to manage the surrounding situation by efficiently responding to emergency situations by notifying and enabling necessary measures to be taken, and easily controlling and managing specific areas in the operation of overall facilities for system installation and maintenance management It is to provide an information and communication facility integrated management system and management method of an apartment building equipped with this.

An integrated management system for information and communication facilities of apartment buildings built for various purposes is required.

In connection with the social safety system, when an emergency or crime occurs to the socially underprivileged, it is not only possible to efficiently respond to emergency situations, but also to establish such a system by notifying the surroundings and enabling necessary measures to be taken. It is required to perform safety management from unintended situations in operation and security management together.

However, there is no technology that can satisfy all of them.

Republic of Korea Patent Publication No. 10-2015-0087890 (2015. 074. 31.) 'Facility rental management system using communication network'

The problem to be solved by the present invention is to efficiently respond to emergency situations by notifying the surroundings of an emergency situation or a crime in connection with the social safety system and enabling necessary measures to be taken. It is to provide a system that has

In addition, it is to provide a system equipped with a seismic function that can easily manage the surrounding situation by easily controlling and managing a specific area in the operation of facilities for installation and maintenance of the system.

In addition, in providing management means to achieve this, it is to monitor, analyze, and manage control objects in a number of specified areas effectively and efficiently by providing a minimum number rather than a plurality.

In addition, it is to suppress the load and delay that may occur according to the operation change of the management means and to optimize the installation operation state through active response to the external environment.

In addition, it is to provide a system capable of providing its own interlocking fixing force and improving seismic performance responsiveness according to the operation change of the management means.

The tasks of the present invention are not limited to the tasks mentioned above, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

The information and communication facility integrated management system according to one aspect of the present invention for achieving the above object analyzes when a safety disaster occurs, calculates the range of influence of the safety disaster, Based on the address information of smart grid facilities including power communication networks or smart city facilities including streetlights, security lights, and CCTVs, a control server that sets safety disaster information propagation areas and transmits safety disaster information, The information and communication facility integrated management system monitors a handling process including installation and transfer at the site and monitoring of a specific area for the site by a monitoring facility installed at the site.

According to the present invention as described above, there are one or more of the following effects.

According to the present invention, the problem to be solved by the present invention is to inform the surroundings when an emergency situation or a crime occurs to the socially underprivileged in connection with the social safety system, and to take necessary measures in case of emergency. can respond effectively.

In addition, it is possible to provide a system equipped with a seismic function capable of easily managing the surrounding situation by easily controlling and managing a specific area in the operation of facilities for installation and maintenance of the system.

In addition, in providing management means to achieve this, it is possible to effectively and efficiently monitor, analyze, and manage control objects in a number of specified areas by preparing a minimum number rather than a plurality.

In addition, it is possible to suppress the load and delay that may occur according to the operation change of the management means and to optimize the installation operation state through active response to the external environment.

In addition, it is possible to provide a system capable of providing its own interlocking fixing force and improving seismic performance responsiveness according to the operation change of the management means.

The tasks of the present invention are not limited to the tasks mentioned above, and other tasks not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a diagram schematically showing the configuration of a safety disaster information dissemination system based on the location of public facilities according to a preferred embodiment of the present invention.
Figure 2 is a diagram showing the internal configuration of the control server according to a preferred embodiment of the present invention by way of example.
3 is a flowchart for explaining a safety disaster information propagation method based on the location of public facilities according to a preferred embodiment of the present invention.
4 is a flowchart for explaining a safety disaster information propagation method based on the location of public facilities according to another preferred embodiment of the present invention.
5 to 11 are schematic diagrams showing the main components of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Advantages and characteristics of the present invention, hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. Advantages and features of the present invention, and methods for achieving them, will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

Referring to the following drawings, preferred embodiments of the present invention will be described in more detail. As a configuration of the entire system, FIG. 1 is a diagram schematically showing the configuration of a safety disaster information dissemination system based on the location of public facilities according to a preferred embodiment of the present invention.

Referring to FIG. 1, the safety disaster information propagation system based on the location of public facilities according to an embodiment of the present invention includes a control server 100, a safety disaster information transmission network 200, a safety disaster information propagation device 300, a safety disaster information An information notification device 400 and a safety and disaster information display device 500 may be included.

First, according to an embodiment of the present invention, the control server 100 is a facility (hereinafter referred to as a 'smart grid facility') supporting a smart grid such as a telephone pole, a collection device, a power meter, an AMI modem, a power communication network, or the like. Location information of the safety and disaster information propagation device 300 attached based on the address information of facilities (hereinafter referred to as 'smart city facilities') that support smart cities such as streetlights, security lights, CCTV poles (CCTV communication poles), etc. In the event of a safety disaster, disaster or disaster occurrence information is collected, analyzed, and the scope of influence of the safety disaster is calculated, the safety disaster information dissemination area is set, and the safety disaster occurrence fact is transmitted.

Here, the smart grid is an 'intelligent power grid' that optimizes energy efficiency by exchanging real-time information in both directions between power suppliers and consumers by grafting information technology on the existing one-way power grid, which was performed in the stages of 'generation-transmission-distribution-sale'. point In other words, it is a next-generation power grid project that can optimize energy use by exchanging information related to electricity use in real time between power suppliers and consumers through an intelligent power grid that combines energy networks and communication networks by grafting information and communication technology onto the existing power grid. By digitizing the power grid, consumers can check related information such as prices that fluctuate according to the supply and demand of electricity through individual power management devices called smart meters and select energy sources in real time. Therefore, telephone poles, watt-hour meters, etc. according to an embodiment of the present invention provide an information transmission function in addition to basic functions such as power transmission and distribution, and can support the transmission of safety disaster situation occurrence information through the safety disaster information transmission network 200.

On the other hand, smart city is a new type of city in the 21st century predicted by futurists, and it means that the network between city members is perfectly equipped and the transportation network is efficiently woven like a spider's web thanks to the development of computer technology. In a smart city, the infrastructure for tele-communication is connected to every corner of the city like a human neural network.

Therefore, it means a city in which teleworking is common, where all work can be done at home without going to the office. Street lights and security lights according to an embodiment of the present invention also provide an information transmission function in addition to their original purpose, and can support the transmission of safety disaster situation occurrence information through the safety disaster information transmission network 200.

The detailed configuration of the control server 100 according to an embodiment of the present invention will be described in more detail with reference to FIG. 2 below. Next, according to an embodiment of the present invention, the safety and disaster information delivery network 200 is a communication network between the control server 100 and the safety and disaster information dissemination device 300, and may be composed of a wide area network and a regional network, and may be configured as a wide area network. The network consists of an optical communication network, a mobile communication network, a TRS network, a disaster network, etc., and a local network can be composed of wired and wireless communication technologies such as wireless LAN for short-distance communication, binary CDMA, TVWS, RF communication, power line communication, and wired LAN. At this time, the safety and disaster information communication network 200 may use a public purpose network and facility such as a smart grid network, a smart city network, a local government service network, or a dedicated disaster safety network, and depending on the embodiment, a wide area network without a local network may consist of

Next, according to an embodiment of the present invention, the safety and disaster information propagation device 300 is a public utility such as smart grid facilities such as telephone poles, collection devices, watt-hour meters, AMI modems, smart city facilities such as street lights, security lights, CCTV poles, etc. It is attached to a facility, and the control server 100 manages the installation location of the safety and disaster information propagation device 300 based on the location information of the smart grid facility or smart city facility. In the case of the smart grid facility or smart city facility, unlike conventional cell phone antenna base stations, a large number of them are formed even in a small area, so safety and disaster information can be controlled and transmitted in a more precise range. The safety and disaster information propagation device 300 may be a relay gateway device that processes communication with the control server 100, the safety and disaster information notification device 400, and the safety and disaster information display device 500.

In addition, the safety and disaster information propagation device 300 may be equipped with a battery to maintain operation for a certain period of time when a failure occurs in electricity supply. The control server 100 determines and transmits the type and display of the safety disaster generated by the safety disaster information dissemination device 300. Information is transmitted to the safety disaster information display device 500 existing around the safety disaster information propagation device 300 . At this time, communication between the safety and disaster information propagation device 300 and the safety and disaster information display device 500 may use wireless communication technologies including Bluetooth, beacon, wireless LAN, ZigBee, binary CDMA, and RF communication, and power line communication , wired communication technologies including wired LAN, etc. may be used.

Next, according to an embodiment of the present invention, the safety disaster information notification device 400 is a signal generator that can directly command the safety disaster information display to the safety disaster information dissemination device 300 in the field, and is a safety disaster information dissemination device. (300) can communicate through wireless communication technologies including Bluetooth, beacon, wireless LAN, ZigBee, binary CDMA, RF communication, etc., and depending on the embodiment, safety is achieved by using wired communication technologies including power line communication and wired LAN. It can communicate with the disaster information propagation device 300.

When this system is interlocked with the social safety system, the elderly living alone, the intellectually disabled, the elderly with dementia, or the socially underprivileged wear the safety disaster information notification device 400 and transmit a radio command in case of emergency, and the safety disaster information notification device 400 ) may transmit information directly to the safety and disaster information display device 500 to disseminate information to nearby residents or institutions. Site personnel related to safety and disaster accidents and on-site facility maintenance can also disseminate safety, disaster, disaster, accident, and crime occurrence information identified at the site through the safety and disaster information notification device 400 to nearby areas. In addition, by mounting the safety disaster information notification device 400 in a field management vehicle or drone, safety disaster information can be disseminated to nearby areas. Here, the safety and disaster information notification device 400 according to an embodiment of the present invention is a digital device having a function to communicate after connecting to a communication network, and is a personal computer (eg, a tablet computer, a notebook computer, etc.) ), PDAs, web pads, mobile phones, wearable devices, etc., any portable digital device equipped with a memory means and equipped with a microprocessor and equipped with an arithmetic capability can be adopted as the safety and disaster information notification device 400 according to the present invention. can

Finally, according to an embodiment of the present invention, the safety disaster information display device 500 receives a safety disaster accident-related information propagation command from the safety disaster information propagation device 300 or the safety disaster information notification device 400 as an exception. A display device capable of displaying information such as the type, form, occurrence location and time of a safety disaster accident in the form of data through a display means, or displaying a safety disaster situation with a sound such as a siren or a visual effect such as a warning light. there is. This enables immediate recognition and response to the surroundings. For example, in the case of a power outage or power accident, the corresponding information can be propagated to the surrounding area from the substation or meter to enable prompt reporting, and to ensure the safety of the area around the accident and to enable residents to respond, such as disconnecting the power of home appliances. there is.

According to the form, the safety and disaster information display device 500 may be a smartphone or wearable device owned by an individual, an In Home Display device installed in a nearby home or institution, an outdoor display device, a digital signage, a building or a facility It can be implemented with a speaker (siren), a warning light, etc. attached to the

Preferably, the control server 100 does not need to know the location of the safety disaster information display device 500, and the safety disaster information that exists at a distance where the display command signal transmitted from the safety disaster information dissemination device 300 is received Safety disaster-related information may be displayed only on the display device 500 . In this case, the control server 100 does not need to consider the location information of the safety and disaster information display device 500, and disseminates the safety and disaster information by searching only the location information of the safety and disaster information propagation device 300 located within the range to deliver the safety and disaster information. Since safety disaster occurrence information needs to be transmitted to the device 300, data processing speed can be further improved.

Afterwards, the safety disaster information dissemination device 300 supervises communication with the safety and disaster information display device 500, and the safety and disaster information dissemination device 300 controls the intensity of radio waves or displays safety and disaster information through a relay method. The range of the peripheral safety and disaster information display device 500 can be adjusted. Meanwhile, the safety disaster information display device 500 is integrally formed with the safety disaster information notification device 400 and may also have a safety disaster notification function.

Configuration of the control server 2 is a diagram showing the internal configuration of the control server according to a preferred embodiment of the present invention by way of example. Referring to FIG. 2, the control server 100 according to an embodiment of the present invention includes a communication unit 110, a location information management unit 120, a safety and disaster information analysis unit 130, a database 140, and a control unit 150. ), and a component management unit 160. According to an embodiment of the present invention, the communication unit 110, the location information management unit 120, the safety and disaster information analysis unit 130, the database 140, the control unit 150, and the component management unit 160 are among them. At least some of them may be program modules that communicate with the control server 100 .

These program modules may be included in the control server 100 in the form of an operating system, application program modules, and other program modules, and may be physically stored on various well-known storage devices. Also, these program modules may be stored in a remote storage device capable of communicating with the control server 100 . Meanwhile, these program modules include, but are not limited to, routines, subroutines, programs, objects, components, data structures, etc. that perform specific tasks or execute specific abstract data types according to the present invention.

Here, according to an embodiment of the present invention, the communication unit 110 functions to enable the control server 100 to communicate with an external system such as the safety disaster information propagation device 300 through the safety disaster information transmission network 200. Do it. The communication unit 110 is composed of wired and wireless communication technologies such as wireless LAN, binary CDMA, TVWS, RF communication, power line communication, wired LAN, etc. Data transmission and reception through a local network may be supported.

Next, according to an embodiment of the present invention, the location information management unit 120 is a smart grid facility such as a telephone pole, a collection device, a power meter, an AMI modem, a power communication network, or a smart city facility such as a street light, a security light, a CCTV main, etc. Based on the address information of, it performs a function of managing the location information of the safety and disaster information propagation device 300 attached to the smart grid facility or smart city facility. In more detail, in addition to the location of the previously installed safety and disaster information propagation device 300, the location information management unit 120 is newly installed, the installation location is changed, or the installation is removed. When a safety disaster occurs, it is stored, and when a safety disaster occurs, the location information of each safety disaster information propagation device 300 is provided when determining the scope of the safety disaster occurrence notification.

Next, according to an embodiment of the present invention, the safety disaster information analysis unit 130 receives safety disaster occurrence information from media organizations such as broadcasting companies or newspapers, or safety disaster occurrence information from public institutions such as police stations and fire stations. Once received, it is analyzed to analyze the type of safety disaster, the risk, the regional scope that the safety disaster can affect, the regional scope where notification is required, preparedness for each safety disaster, evacuation status, evacuation method, etc. According to another embodiment, the safety disaster information analysis unit 130 may analyze the safety disaster information as described above when the fact that a safety disaster has occurred is notified from the safety disaster information notification device 400 .

In this case, when an emergency occurs to the elderly living alone or the socially disadvantaged, when the elderly living alone, the socially disadvantaged, or people around them notify the fact of the emergency using the safety disaster information notification device 400, the safety and disaster information analysis The unit 130 can analyze this and take necessary measures. This can be equally applied to propagating it to the outside when a crime occurs.

In this case, the safety and disaster information analysis unit 130 receives the location information of the safety and disaster information propagation device 300 attached to the smart grid facility or smart city facility from the location information management unit 120, and the safety disaster has an effect. It is possible to analyze the geographical scope of possible notification and the geographical scope for which notification is required. In addition, as will be described later, a response manual for each safety disaster is provided from the database 140, and information such as countermeasures for each safety disaster, whether or not to evacuate, and how to evacuate can be analyzed.

Next, according to one embodiment of the present invention, the database 140 stores various data required for each part constituting the control server 100 to operate, and when necessary information is requested from each part, to provide. For example, when map information for analyzing the location information of the safety and disaster information propagation device 300 is requested from the location information management unit 120, previously stored map information is provided, and the safety and disaster information analysis unit 130 If information for analyzing safety disaster preparedness, evacuation status, evacuation method, etc. is requested from the company, the pre-stored response manual for each safety disaster can be provided.

Next, the control unit 150 according to an embodiment of the present invention controls communication between the communication unit 110, the location information management unit 120, the safety and disaster information analysis unit 130, the database 140, and the component management unit 160. It performs the function of controlling the flow of data. That is, the controller 150 controls the flow of data to/from the outside or between each component of the control server 100, thereby controlling the communication unit 110, the location information management unit 120, and the safety and disaster information analysis unit 130. ), the database 140, and the component management unit 160 are controlled to perform their own functions.

Finally, the component management unit 160 according to an embodiment of the present invention includes the control server 100, safety and disaster information delivery network 200, safety and disaster information propagation device 300, and safety and disaster information notification device 400 ), and sets and manages installation information and operation status of devices existing in the system, such as the safety and disaster information display device 500.

3 is a flowchart for explaining a safety disaster information propagation method based on the location of public facilities according to a preferred embodiment of the present invention. Referring to FIG. 3 , when a safety disaster occurs (S100), safety disaster information is analyzed in the control server 100 to determine a response method and response direction for each type of safety disaster (S110). As described above, when safety disaster occurrence information is obtained, it is analyzed and the type of safety disaster, risk, regional scope that can be affected by safety disaster, regional scope for which notification is required, preparedness for each safety disaster, whether or not to evacuate, evacuation method, etc. Analyze Using the location information of the safety disaster information dissemination device 300 attached to smart grid facilities or smart city facilities, it is possible to analyze the regional range where safety disasters can affect and the regional range where notification is required. Thereafter, the control server 100 transmits safety disaster information to the safety disaster information propagation device 300 located in an area where response to each safety disaster is required (S120). The safety disaster information propagation device 300 transmits safety disaster information to an adjacent safety disaster information display device 500 (S130). Upon receiving the safety disaster information, the safety disaster information display device 500 displays the safety disaster information so that nearby people can check it (S140). For example, the safety disaster information display device 500 is attached to a smartphone or wearable device, an In Home Display device installed in a nearby home or institution, an outdoor display device, a digital signage, a building or a facility, depending on the shape It can be implemented as a speaker (siren), a warning light, etc., and through this, it is possible to inform safety disaster information using sight or hearing.

4 is a flow chart for explaining a safety disaster information propagation method based on the location of public facilities according to another preferred embodiment of the present invention. Referring to FIG. 4 , when safety disaster information is input through the safety disaster information notification device 400 (S200), the safety disaster information notification device 400 transmits the safety disaster information to the safety disaster information dissemination device 300. It is done (S210). Upon receiving the safety disaster information, the safety disaster information propagation apparatus 300 analyzes the received signal and determines whether to transmit the safety information to the control server 100 (S220). For example, when a safety disaster occurs in which the response direction and response range can be determined according to the command of the control server 100 because the issue is important and complex, the safety disaster information propagation device 300 transmits the information to the control server 100. Safety disaster occurrence information is transmitted. In this case, safety disaster information is analyzed by the control server 100 to determine a response method and response direction for each type of safety disaster (S230). As described above, when safety disaster occurrence information is obtained, it is analyzed and the type of safety disaster, risk, regional scope that can be affected by safety disaster, regional scope where notification is required, preparedness for each safety disaster, whether or not to evacuate, evacuation method, etc. Analyze Using the location information of the safety disaster information dissemination device 300 attached to smart grid facilities or smart city facilities, it is possible to analyze the regional range where safety disasters can affect and the regional range where notification is required. Thereafter, the control server 100 transmits safety disaster information to the safety disaster information propagation device 300 located in an area where response to each safety disaster is required (S240). The safety disaster information propagation device 300 transmits safety disaster information to an adjacent safety disaster information display device 500 (S250). Upon receiving the safety disaster information, the safety disaster information display device 500 displays the safety disaster information so that nearby people can check it (S260).

Meanwhile, in step S220, when a relatively simple safety disaster or an urgent safety disaster that cannot wait for a command from the control server 100 occurs, or from the safety disaster information notification device 400 to the safety disaster information display device 500 When receiving a command to directly transmit safety information, the safety and disaster information dissemination device 300 transmits the safety and disaster information to the safety and disaster information display device 500 according to its own process without transmitting the safety and disaster information to the control server 100. It becomes (S250). Upon receiving the safety disaster information, the safety disaster information display device 500 displays the safety disaster information so that nearby people can check it (S260).

Embodiments according to the present invention described above may be implemented in the form of program instructions that can be executed through various computer components and recorded on a computer-readable recording medium. The computer readable recording medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the computer-readable recording medium may be specially designed and configured for the present invention, or may be known and usable to those skilled in the art of computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical recording media such as CD-ROMs and DVDs, and magneto-optical media such as floptical disks. media), and hardware devices specially configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include high-level language codes that can be executed by a computer using an interpreter or the like as well as machine language codes such as those produced by a compiler. The hardware device may be configured to act as one or more software modules to perform processing according to the present invention and vice versa.

Referring to FIGS. 5 to 11 based on the foregoing information, as an integrated management system for information and communication facilities, when a safety disaster occurs, it is analyzed to calculate the range of influence of the safety disaster, and then a telephone pole, a collection device, a power meter, an AMI modem, and a power communication Based on the address information of smart grid facilities including networks or smart city facilities including streetlights, security lights, and CCTVs, a safety disaster information propagation area is set and a control server that transmits safety disaster information is included.

In addition, the information and communication facility integrated management system management method through this step is that the information and communication facility integrated management system is installed; and operating the information and communication facility integrated management system.

Here, the information and communication facility integrated management system monitors a handling process including installation and transfer and monitoring of a specific area for the site by a monitoring facility installed at the site. The information and communication facility integrated management system analyzes safety disasters when they occur, calculates the range of influence of safety disasters, and then implements smart grid facilities including telephone poles, collection devices, watt-hour meter AMI modems, power communication networks, street lights, security lights, etc. , It includes a control server that sets the safety disaster information propagation area based on the address information of smart city facilities including CCTVs and transmits safety disaster information.

On the other hand, the monitor equipment includes a lower body unit (10') located in the field; a central monitoring unit 20' provided at the upper center of the lower body unit 10' and photographing the surroundings in a rotational manner; a first side monitoring unit (30') that moves left and right in a sliding manner in the lower body unit (10') and is provided on one side of the central monitoring unit (20') to photograph the surroundings; and a second side monitoring unit 40' that moves left and right in a sliding manner in the lower body unit 10' and is provided on the other side of the central monitoring unit 20' to photograph the surroundings.

The central monitoring unit 20' includes a driving module 21' installed on the lower body unit 10', a connecting rod module 22' installed above the driving module 21', A plate panel module 23' provided above the connecting rod module 22', a plurality of photographing modules 24' installed spaced apart from each other along the circumference of the plate panel module 23', and the plate panel module (23') includes a lighting module 25' disposed between the photographing modules 24' along the circumference to provide illumination.

The photographing module 25' performs photographing in a state in which the plate panel module 23' is rotated by receiving the driving force provided by the driving module 21' through the connecting rod module 22'. .

The first side monitoring unit 30' interlocks with one side of the plate panel module 23' to fix the plate panel module 23' or monitors a state in which the plate panel module 23' is rotated. Stop.

Here, the second side monitoring unit 40' interlocks with the other side of the plate panel module 23' to fix the plate panel module 23' or monitors the state in which the plate panel module 23' is rotated. Stop.

The first side monitoring unit 30' includes a first side driving module 31' provided in the lower body unit 10' and a first side driving module 31' provided above the first side driving module 31'. A flange module 32', the first flange module 32', a second flange module 33' provided to face upward, the first flange module 32' and the second flange module (33') and a first side photographing module (34') provided between them.

In addition, the second side monitoring unit 40' includes the second side driving module 41' provided on the lower body unit 10' and the second side driving module 41' provided on the upper part. The third flange module 42', the second flange module 33', the fourth flange module 43' provided to face upward, the third flange module 42' and the fourth flange It includes a second side photographing module 44' provided between the modules 43'.

The first flange module 32' of the first side monitoring unit 30' includes a first connection module 71' contacting an upper portion of the plate panel module 23', and the plate panel module 23 ') The second connection module 72' contacting the lower part is provided, and the second flange module 33' of the second side monitoring unit 40' contacts the upper part of the plate panel module 23'. A third connection module and a fourth connection module contacting the lower portion of the plate panel module 23' are provided.

The first connection module 71' includes a first upper connecting rod and a first magnetic fixture provided under the first upper connecting rod, and the second connecting module includes a second lower connecting rod and the second connecting module 71'. A second magnetic fixture is provided above the lower connecting rod, and the third connection module includes a third upper connecting rod and a third magnetic fixing body provided below the third upper connecting rod.

The fourth connection module is provided with a fourth lower connector and a fourth magnetic fixture provided below the fourth lower connector, and the first magnetic fixture to the fourth magnetic fixture are the plate panel module. The plate panel module 23' is primarily fixed in a rotating state or non-rotating state of (23') by a magnetic adsorption method.

The first magnetic fixing body has a first interlocking body protruding and retracting from the inside to the outside, the second magnetic fixing body has a second interlocking body protruding and dislocating from the inside to the outside, and the third magnetic fixing body has a third interlocking body from the inside to the outside. The body protrudes and protrudes, and the fourth magnetic force fixture protrudes and protrudes from the inside to the outside, and the first to fourth interlocking bodies are inserted into and mounted into the plate panel module 23', respectively, Secondarily fix the panel module (23').

Here, the lower body unit 10' is positioned between the first side driving module 31' and the driving module 21', and the first side driving module 31' and the driving module 21' ) and a first distance maintaining module that secures a gap between the lower body unit 10' and located between the second side driving module 41' and the driving module 21' to drive the second side A second distance maintaining module is provided to secure a distance between the module 41' and the driving module 21'.

The first distance maintaining module includes a first upper body 81' installed above the lower body unit 10' and a first upper driving body 82 installed above the first upper body 81'. '), the first contact body 83' protruding and protruding to one side of the first upper driving body 82' and contacting the first side driving module 31', and the first upper driving body 82' It includes a second contact body 84' that protrudes and retracts to the other side and contacts the driving module 21'.

The second distance maintaining module includes a second upper body 91' installed above the lower body unit 10' and a second upper drive 92' installed above the second upper body 91'. ) body, the third contact body 94' protruding and protruding to one side of the second upward driving body 92' and contacting the second side driving module 41', and the second upward driving body 92' and a fourth contact body 95' protruding to the other side and contacting the driving module 21'.

Meanwhile, when the first side driving module 31' is moved to the side of the driving module 21', the first contact body 83' to the second contact body 84' operate the first side driving module 31'. The module 31' is in contact with the driving module 21' to buffer the shock caused by the positional movement, and the first contact body 83' to the second contact body 84' are For buffering, the first side driving module 31' moves into the first upper driving body 82' within a certain range in response to the impact caused by the movement of the driving module 21' side.

Here, the third contact body 94' to the fourth contact body 95', when the second side driving module 41' is moved to the side of the driving module 21', the second side driving module The module 41' is in contact with the driving module 21' to buffer the shock caused by the positional movement, and the third contact body 94' to the fourth contact body 95' are For buffering, the second side driving module 41' is moved to the side of the driving module 21' and responds to the impact caused by the movement, and moves within a certain range into the second upper driving body 92'.

In addition, when the first side driving module 31' and the second side driving module 41' are moved to the outside from the driving module 21', the first upper driving body ( 82') and the rotation of the second upward driving body 92' assist in accelerating the positional movement for the outward separation.

The lower body unit 10' is a first handling unit for performing handling operations including fixing and temperature control of the first side monitoring unit 30' to the outside of the first side driving module 31'. 50', and a second handling unit 60' for performing a handling operation including fixing and temperature control of the second side monitoring unit 40' to the outside of the second side driving module 41' is provided

The first handling unit 50' is located inside the first panel part 51' installed upward on the lower body unit 10' and the first panel part 51' so as to move up and down. A first movable body 52' provided to be movable and having a first battery module 53' inside, and the first side shooting module 34 installed on the front side of the first movable body 52' ') and supplying power from the first battery module 53' to the first side shooting module 34' for emergency use, and a first upper connector 54', and the first movable body 52 ') is installed as the front part of the first side photographing module 34' and contacts the first side photographing module 34' and supplies power from the first battery module 53' to the first side photographing module 34' for emergency use. A connecting body 55' is provided.

The second handling unit 60' moves up and down with the second panel part 61' installed upward on the lower body unit 10' and positioned inside the second panel part 61'. A second movable body 62 'which is provided and has a second battery module therein, and is installed on the front side of the second movable body 62' and contacts the second side shooting module 44', The second upper connector 64' for supplying power from the second battery module to the second side photographing module 44' for emergency use, and installed on the front part of the second movable body 62', A second lower connector 65' is provided that contacts the second side photographing module 44' and supplies power from the second battery module to the second side photographing module 44' for emergency use.

The first handling unit 50' is provided at the center of the first movable body 52' and supplies a fluid for heating or cooling toward the first side shooting module 34'. A part 56' is provided at the center of the second movable body 62' of the second handling unit 60' to heat or cool toward the second side shooting module 44'. It further includes a second fluid handling unit 66 'for injecting a fluid for.

The first fluid handling part 56' and the second fluid handling part 66' contact the side of the first side shooting module 34' and the second side shooting module 44', respectively, and operate in an intake mode. to fix the first side photographing module 34' and the second side photographing module 44', and the first upper connector 54' and the first lower connector 55' The first flange module 32' and the second flange module 33' are pressed and fixed through an operation of being spaced apart from each other.

The second upper connecting body 64' and the second lower connecting body 65' press and fix the third flange module 42' and the fourth flange module 43' through an operation of being spaced apart from each other. let it As shown in FIG. 11, when the location of the site where installation, maintenance, etc. of the connection structure of the system is performed is referred to as S1, at least one of the above-described monitoring facilities may be disposed and operated in S1 to S4 around the periphery. Of course, this applies to exemplary jobs.

The driving method of the physical components described above is forward-backward movement and rotational movement based on motors, actuators, etc., and the shape and size of each component can be selected and provided in various ways depending on the installation site and the materials to be implemented. . Although the present invention has been described with reference to the embodiments shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical scope of protection of the present invention should be determined by the technical spirit of the appended claims.

100: control server 110: communication department
120: location information management unit 130: safety disaster information analysis unit
140: database

Claims (2)

As a method for managing the information and communication facility integrated management system of an apartment building,
Installing an information and communication facility integrated management system; and
Including the step of operating the information and communication facility integrated management system,
In the information and communication facility integrated management system, the handling process including installation and transfer and monitoring of a specific area for the site are performed by the monitoring facility installed on the site,
The information and communication facility integrated management system,
When a safety disaster occurs, it is analyzed and the range of influence of the safety disaster is calculated, and then smart grid facilities including telephone poles, collectors, watt-hour meter AMI modems, and power communication networks or smart city facilities including streetlights, security lights, and CCTV poles Includes a control server that sets a safety disaster information propagation area based on the address information of and transmits safety disaster information,
The monitoring facility.
a lower body unit (10') located at the site;
a central monitoring unit 20' provided at the upper center of the lower body unit 10' and photographing the surroundings in a rotational manner;
a first side monitoring unit (30') that moves left and right in a sliding manner in the lower body unit (10') and is provided on one side of the central monitoring unit (20') to photograph the surroundings; and
a second side monitoring unit (40') that moves left and right in a sliding manner in the lower body unit (10') and is provided on the other side of the central monitoring unit (20') to photograph the surroundings; Including,
The central monitoring unit 20 'is
A driving module 21' installed on the lower body unit 10', a connecting rod module 22' installed above the driving module 21', and provided on the upper portion of the connecting rod module 22' a plate panel module 23', a plurality of photographing modules 24' spaced apart from each other along the circumference of the plate panel module 23', and the photographing modules along the circumference of the plate panel module 23' Including a lighting module 25 'that is disposed between (24') and provides lighting,
The photographing module 24' performs photographing in a state in which the plate panel module 23' is rotated by receiving the driving force provided by the driving module 21' through the connecting rod module 22',
The first side monitoring unit 30' interlocks with one side of the plate panel module 23' to fix the plate panel module 23' or to stop the rotation of the plate panel module 23'. make it,
The second side monitoring unit 40' interlocks with the other side of the plate panel module 23' to fix the plate panel module 23' or to stop the rotation of the plate panel module 23'. let it,
The first side monitoring unit 30 ',
The first side driving module 31' provided on the lower body unit 10', the first flange module 32' provided on the upper part of the first side driving module 31', and the first flange The module 32', the second flange module 33' provided to face upward, and the first side shot provided between the first flange module 32' and the second flange module 33' module 34';
The second side monitoring unit 40',
The second side driving module 41' provided on the lower body unit 10', the third flange module 42' provided on the upper part of the second side driving module 41', and the second flange The module 33', the fourth flange module 43' provided to face upward, and the second side shot provided between the third flange module 42' and the fourth flange module 43' module 44';
The first flange module 32' of the first side monitoring unit 30',
A first connection module 71' contacting the upper side of the plate panel module 23' and a second connection module 72' contacting the lower side of the plate panel module 23' are provided, and the second side monitor The second flange module 33' of the unit 40' is in contact with the third connection module 73' contacting the top of the plate panel module 23' and the bottom of the plate panel module 23'. A fourth connection module 74 'is provided,
The first connection module 71' is provided with a first upper connector 711' and a first magnetic fixture 712' provided under the first upper connector 711',
The second connection module 72' is provided with a second lower connector 721' and a second magnetic fixture 722' provided above the second lower connector 721',
The third connection module 73' is provided with a third upper connector 731' and a third magnetic fixture 732' provided under the third upper connector 731',
The fourth connection module 74' includes a fourth lower connector 741' and a fourth magnetic fixture 742' provided below the fourth lower connector 741'. The magnetic force fixing body 712' to the fourth magnetic force fixing body 742' firstly attach the plate panel module 23' by a magnetic force adsorption method in the rotating or non-rotating state of the plate panel module 23'. fixed,
The first magnetic fixing body 712' has a first interlocking body 713' protruding from the inside to the outside, and the second magnetic fixing body 722' has a second interlocking body 723' from the inside to the outside. will emerge,
The third magnetic fixing body 732' has a third interlocking body 733' protruding from the inside to the outside, and the fourth magnetic fixing body 742' has a fourth interlocking body 743' from the inside to the outside. will emerge,
The first linking member 713' to the fourth linking member 743' are respectively inserted and mounted into the plate panel module 23' to secondaryly fix the plate panel module 23',
The lower body unit 10' is positioned between the first side driving module 31' and the driving module 21', and the first side driving module 31' and the driving module 21' A first distance maintenance module securing a gap between the second side driving module positioned between the second side driving module 41' and the driving module 21' in the lower body unit 10' (41 ') and a second distance maintenance module for securing a distance between the drive module 21 'is provided,
The first distance maintaining module includes a first upper body 81' installed above the lower body unit 10' and a first upper driving body 82' installed above the first upper body 81'. ), the first contact body 83' that protrudes and protrudes to one side of the first upper driving body 82' and contacts the first side driving module 31', and the other side of the first upper driving body 82'. A method for managing an information and communication facility integrated management system of an apartment building, including a second contact body (84') that protrudes to the side and contacts the driving module (21').
delete

Images