KR101293147B1 - Monitoring method and system therefore in non-resident apartment house - Google Patents

Abstract

PURPOSE: A remote checking method of a house installation device of a non-resident house in a non-resident apartment complex and a remote checking apparatus thereof are provided to perform installation completion state or basic operation test of the house installation device remotely. CONSTITUTION: A remote checking apparatus includes a monitoring control part (40). The monitoring control part transmits communication request data to check wall pad installation result in each non-resident house of a non-resident apartment complex to a home network server (30). When each house receives acknowledgement data responding to communication request data from the home network server, the monitoring control part recognizes installation completion in a corresponding house remotely. The monitoring control part transmits communication request data to check installation of a house linking device to each house of the non-resident apartment complex to a wall pad, and recognizes installation completion of the house linking device in each corresponding house remotely by receiving the acknowledge data responding to the communication request data from the wall pad. [Reference numerals] (10-1) First family; (10-2) Second family; (10-n) Third family; (20) Remote metering server; (30) Home network server; (40) Monitoring control part

Description

Remote monitoring method and non-resident apartment house for households of non-resident households in non-resident apartment complexes {monitoring method and system therefore in non-resident apartment house}

The present invention relates to the management of multi-family housing such as villas, coalitions, and apartments, and more particularly, to the non-resident household in the non-resident housing complex that can remotely perform the installation operation status and basic operation test of the household installation device in the non-resident household. The present invention relates to a remote installation method and a remote inspection device according to the generation installation.

In general, as one of the apartment complexes, large-scale apartments (hereinafter referred to as apartments) may be constructed and completed by various construction companies or Korea Housing Land Corporation.

There may be many stages of construction from the beginning of the construction of the apartment until its completion.

For example, a general RC apartment in any construction site, construction of steps 1 to 24 may be performed in sequence as follows.

First, if construction permit is granted, first start common construction work. 1. Common construction works include preparation of fences, temporary water, temporary electricity, temporary offices, restrooms, etc. at site boundaries. Next, earthwork will proceed. 2. Earthworks are works involving excavation, ground survey and measurement control, and bearing strength test. Next, the foundation work is carried out. 3. The foundation works include piling, mat concrete and others. Next, the construction of steps 4. to 24. below may be performed in sequence.

4. Reinforced concrete construction means formwork, reinforcement, and concrete pouring. 5. The extraction work may be parallel with the construction of the frame. 6. Temporary construction means installation of external scaffolding and safety net installation. External scaffolding may be omitted when system formwork is installed. 7. Waterproofing works to prevent water leakage, and works begin in the basement when the ground floor frame begins. 8. Interior woodworking starts from filling the ground when framing the ground floor. 9. Masonry construction refers to the work of laying bricks. When framing is completed over one-third of the ground floor, the brick transportation starts, and the construction starts from the first floor. 10. Window construction means the construction of the windows and the installation of the windows is done at the completed part of the masonry. 11. Plastering refers to the work of cementing, starting with the staircase starting from the staircase and proceeding with the masonry finishing and window installation. 12. Miscellaneous hardware construction will be carried out on fire doors, balconies and railings. 13. The tile construction is carried out on the balcony or the toilet, and 14. The floor plastering means the construction of the floor. Subsequently, 15. painting work, 16. glass work, 17. paper work, and 18. furniture work proceed in order. Here, the furniture construction includes the installation of kitchen furniture and shoe racks. 19. Rum carpet work, 20. Completion cleaning, 21. Septic tank work, 22. Landscaping work, 23. Additional engineering works, and 24. Other miscellaneous work may proceed in turn. Here, the facility or the electric work can be continued to work from the beginning of construction until the deadline.

While the above construction is completed or in progress, the contractor of the household can pay the balance at step S40 of FIG. 1 and receive a key to move into the household for which the household was sold at the time t10.

Figure 1 shows the sale price payment procedure of a typical multi-family housing complex. From the perspective of the apartment contractor, the pre-sale contract is made in step S10 of FIG. In addition, if the construction stage is advanced to allow the contract households to move in after pre-checking all the intermediate payments (S30, S31, and S32), it is possible to move in at any time after the balance payment.

Here, before the time point t10, the apartment becomes an unoccupied apartment complex, and the household is called as an unoccupied household. In other words, those who are not occupied in the apartments are not occupants.

Responsibilities for non-resident households generally rest with the contractor or client. In other words, the contractor or client must fulfill the duty of management from the construction stage until the apartment is handed over to the contractor who paid the balance.

In such a non-resident household, when a household installation device including a wall pad and a household interlock device is being installed, the work management supervisor of the apartment checks each household to check whether the installation is completed or the progress of the work. I've done my own work or instructed others. Here, the generation interlock device may include a fuselage sensor, a magnetic sensor, an anti-theft sensor, a heating controller batch light switch, and a digital door lock. Normally, a separate dedicated manpower has been running around each household to check the installation status or status of the household installation equipment.

As a result, since the installation status and status of the household installation equipment are checked by each household, or when the operating status of the household interlocking equipment of the household where the installation is completed, is performed by human or manual labor, it is expensive and is installed in real time. It is difficult to understand the current situation. In addition, it was difficult to remotely monitor the inside of each apartment in the apartment, which prevented the loss or theft of household installation equipment.

The technical problem to be solved by the present invention is to provide a method for remotely checking the generation installation device of the non-resident household in the unoccupied apartment complex that can remotely perform the installation completion status and basic operation test of the household installation device, and a remote inspection device accordingly. have.

Another technical problem to be solved by the present invention is to check the installation process of household installation devices, such as equipment, electronic devices, communication facilities, and the like, the generation of non-resident households in the non-resident apartment complex that can monitor the loss and theft of household installation devices. The present invention provides a remote inspection method and a remote inspection apparatus accordingly.

Another technical problem to be solved by the present invention is to check the input of real-time work for construction in the household, the generation of the non-resident household in the non-resident housing complex based on the implementation of electronic process management that can centrally manage the household finishing work process The present invention provides a remote inspection method and a remote inspection apparatus accordingly.

According to an exemplary embodiment of the present invention for solving the above technical problem, the method of remotely checking the installation device of the household of the non-resident household in the non-resident apartment complex:

Transmitting, by the monitoring control unit, communication request data for checking whether or not a wall pad is installed in each non-resident household of the apartment house to the wall pad or the home network server;

Checking, by the monitoring controller, whether acknowledgment data in response to the communication request data is received for each generation; And

And when the acknowledgment data is received by the monitoring controller, remotely recognizing that the wall pad is installed in the corresponding household.

According to an embodiment of the present disclosure, when the occupancy event for any household among the households of the non-resident apartment complex occurs, the remote recognition operation before the occupancy may be stopped.

According to another aspect of the embodiment of the present invention for solving the above technical problem, the method of remotely checking the generation device of the household of the non-resident household in the un-resident apartment complex:

When the wall pad is installed in each non-resident household of the non-resident apartment complex, transmitting, by the monitoring controller, installation check request data to check whether the household interlock device of the household is installed to the wall pad;

Checking, by the monitoring controller, whether installation confirmation response data corresponding to the installation confirmation request data is received for each household; And

And when the installation confirmation response data is received by the monitoring controller, remotely recognizing, by the monitoring controller, that the household companion device is installed in the household.

In an embodiment of the present invention, the generation interlock device may include at least one or more of a batch light switch, a heating controller, a fuselage sensor for detecting the movement of a person in the household, a magnet sensor for detecting the opening and closing of the door of the household, and a door lock. Can be.

In an embodiment of the present disclosure, the monitoring controller performs a control operation test for each temperature for the heating controller, and the monitoring control unit performs a basic operation test for performing a light on / off control operation test for the batch light switch. It may include.

In an embodiment of the present invention, when the energy use meter reading unit for reading the use of electricity, gas, hot water, calorie, water, etc. as the generation interlocking device is further installed, the monitoring control unit performs a metering operation test on the generation interlocking device. It may further include a basic operation test.

In an embodiment of the present invention, when an occupancy event occurs for any of the households of the non-residential multi-family housing complex, the remote check of the pre-resident household installation device may be automatically stopped.

According to another aspect of an embodiment of the present invention for solving the above technical problem, the method of remotely checking the installation device of the household of the non-resident household in the un-resident apartment complex:

When the wall pad is installed in each non-resident housing unit of the non-resident apartment complex, transmitting, by the monitoring controller, the installation control request data to check whether the work status of the household interlocking device of the household is installed;

Checking, by the monitoring controller, whether installation confirmation response data in response to the installation confirmation request data is received from the generation companion device of the corresponding household; And

And remotely performing a basic operation test on at least one generation companion device connected to the wall pad by the monitoring controller when the installation confirmation response data is received.

In an embodiment of the present invention, the generation interlock device may include at least one or more of a batch light switch, a heating controller, a fuselage sensor for detecting the movement of a person in the household, a magnet sensor for detecting the opening and closing of the door of the household, and a door lock. Can be.

In an embodiment of the present disclosure, the basic operation test of the heating controller may include a control operation test for each temperature after completion of the communication connection check, and the basic operation test of the batch light switch may include a light on / off control operation test. have.

In an embodiment of the present invention, when the energy use meter reading unit for reading the use of electricity, gas, hot water, calorie, water, etc. as the generation interlock device is further installed, the basic operation test for the generation interlock device includes a meter operation test. can do.

In an embodiment of the present disclosure, when an occupancy event occurs for any of the households in the unoccupied multi-family housing complex, the remote inspection of the pre-occupation household installation device may be stopped.

According to another aspect of the embodiment of the present invention for solving the above technical problem, the remote installation device of the household of the non-resident household in the non-resident apartment complex:

Home network server; And

Sending communication request data to the home network server for checking whether a wall pad is installed in each non-resident housing unit of the non-resident apartment complex, and acknowledgment data in response to the communication request data is sent from each home network server. If it is received by each, includes a monitoring control unit for remotely recognizing that the wall pad is installed in the generation.

According to another aspect of the embodiment of the present invention for solving the above technical problem, the remote installation device of the household of the non-resident household in the non-resident apartment complex:

Wall pads; And

Sending communication request data to the wall pad to check whether a household interlock device is installed in each non-resident household of the non-resident apartment complex, and acknowledgment data responsive to the communication request data is generated for each household from the wall pad. If received, it includes a monitoring control unit for remotely recognizing that the generation interlocking device is installed in the household.

According to yet another aspect of the present invention for solving the above technical problem, the remote installation device for household installation device of the non-resident household in the non-resident apartment complex:

Wall pads; And

The installation confirmation response data for checking whether the generation interworking device of the household is installed is sent to the wall pad, and the installation confirmation response data in response to the installation confirmation request data is received from the household interworking device of the household. When received, the monitoring control unit for remotely performing a basic operation test for the at least one generation interlocking device connected to the wall pad.

According to the present invention, it is possible to remotely perform the installation completion state and basic operation test of the household installation device in the non-resident household in the non-resident apartment complex.

1 is a view showing a sale price payment procedure of a typical multi-family housing complex,
2 is a device block diagram according to an embodiment of the present invention;
3 is a block diagram showing a generation device in each non-residential household of FIG.
4 is a view specifically illustrating a device connection configuration related to bus line B10 in FIG. 2;
FIG. 5 is a detailed illustration of a device connection configuration related to interconnection of a wall pad, a remote meter server, and a home network server in FIG. 2;
FIG. 6 is a detailed block diagram of the monitoring control unit of FIG. 2;
7 is an operation control flowchart according to FIG. 6;
8 is a detailed control flow diagram related to a part of the operation control flow of FIG. 7;
9 is a detailed control flow diagram related to the basic operation test of step S85 of FIG.
10 is a request communication data format diagram used in FIG.
11 is a response communication data format diagram used in FIG.
12 is an exemplary view of a display screen according to FIG. 7;
13 is a detailed block diagram of the wall pad in FIG. 3;
FIG. 14 is a block diagram schematically illustrating an installation program module of a monitoring controller and a wall pad of FIG. 2;
15 is a remote monitoring control flow chart executed by the monitoring control unit in FIG. 2, and
FIG. 16 is a control flow diagram of program automatic disable for tenant generation executed by the monitoring control unit in FIG. 2; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, and advantages of the present invention will become more apparent from the following description of preferred embodiments with reference to the attached drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art, without intention other than to provide an understanding of the present invention.

In this specification, when it is mentioned that some element or lines are connected to a target element block, it also includes a direct connection as well as a meaning indirectly connected to the target element block via some other element.

In addition, the same or similar reference numerals shown in the drawings denote the same or similar components as possible. In some drawings, the connection relationship of elements and lines is shown for an effective explanation of the technical contents, and other elements or circuit blocks may be further provided.

Each embodiment described and illustrated herein may also include complementary embodiments thereof, and details of basic operations and functions of the meter reading server, the home network server, and the generation device are not intended to obscure the subject matter of the present invention. Note that it is not described in detail.

2 is a device block diagram according to an embodiment of the present invention.

Referring to the drawings, a configuration in which the non-residents 10-1, 10-2, 10-n of the tenant housing complex 10 are connected to the meter reading server 20 and the home network server 30 is shown. The monitoring controller 40 may be connected to the meter reading server 20 and the home network server 30 through a bus line B21, and the unoccupied households 10-1 and 10 through a bus line B31. -2,10-n). The monitoring control unit 40 performs remote check of the household installation device of the non-resident household in the non-resident apartment complex.

The wall pad 11 is installed as a generation installation device in any of the tenant generations 10-1 among the tenant generations 10-1, 10-2, and 10-n. The wall pad 10 is connected to the first and second group generation interworking devices 13 and 14 in the generation installation device. The first group generation interlocking device 13 is a sensor for various sensing, a fuselage sensor 13a for detecting the movement of a person in the household, a magnetic sensor 13b for detecting the opening and closing of the generation door, and a security sensor for crime prevention. (13c) may be included. The second group generation interlocking device 14 may be a device for communication and control, and may include a heating controller 14a, a collective lighting switch 14b, and a digital door lock 14c.

The unoccupied household 10-1 may be provided with an energy usage meter 12 for metering energy usage in the household. The energy use meter reading unit 12 is a generation installation device, is installed to measure the use of electricity, gas, hot water, calories, water and the like. When the energy use meter reading unit 12 is connected to the wall pad 11 through a communication terminal block, it functions as the generation interlocking device. The energy use meter 12 is a meter or meters that meter electricity, heating, and water use, respectively. Here, for convenience, reference numeral 12a indicates an electric meter, 12b indicates a heating meter, and 12c indicates a water meter.

The energy usage meter 12 is connected to the common communication line CL10 through an output line L10. The meter reading server 20 is connected to the common communication line CL10 through the bus line B10 at the time of the meter reading. Accordingly, the meter reading server 20 may remotely access the energy use meter reading unit 12 of the first generation 10-1 to remotely read the use of electricity, heating, and water. Meanwhile, when the line jumped from the communication terminal block connected to the output line L10 is directly connected to the wall pad 11, the remote meter reading for the use of electricity, heating, or water is also performed through the wall pad 11. Can be done.

As an example of a method for remotely checking a household installation device of a non-resident household in a non-resident apartment complex, the monitoring control unit 40 checks whether or not a wall pad is installed in each non-resident household in the apartment house. May be transmitted to the wall pad 11 or the home network server 30. It is checked whether acknowledgment data in response to the communication request data is received for each household, and when the acknowledgment data is received, the remote controller recognizes that the wall pad 11 is installed in the household.

As another example of a method for remotely checking a household installation device of a non-resident household in a non-residential apartment complex, the monitoring controller 40 may provide a wall pad (11) when a wall pad 11 is installed in each non-resident household of the non-resident apartment complex. 11), installation confirmation request data for checking whether the generation interlocking devices 12, 13, and 14 of the corresponding household are installed can be transmitted without passing through the home network server 30. The monitoring control unit 40 checks whether the installation confirmation response data corresponding to the installation confirmation request data is received for each household, and when the installation confirmation response data is received, the generation interlocking device 12, 13. 14) remotely recognize that the installation is complete.

The monitoring controller 40 may communicate with the wall pad 11 to perform a basic operation test on the generation companion device.

For example, among generation interlocking devices, the basic operation test of the heating controller 14a may include a temperature-specific control operation test performed after completion of the communication connection check. In addition, a basic operation test of the batch light switch 14b may include a light on / off control operation test. In addition, when the energy use meter reading unit 12 for reading the use of electricity, gas, hot water, calorie, water, etc. is further installed as the generation interlocking device, a basic operation test for the generation interlocking device may include a metering operation test. have.

The monitoring control unit 40 stops the remote check of the previous generation installation device for the household when the occupancy event for any of the households of the non-resident apartment complex occurs. This operation is provided to ensure the privacy of the tenant.

FIG. 3 is a block diagram illustrating a generation device in each non-residential household of FIG. 2.

Referring to the drawings, an example of a generation installation apparatus that can be installed in any first generation 10-1 of FIG. 2 is shown. The wall pad 11 may be connected to the fuselage sensor 13a, the magnetic sensor 13b, or the security sensor 13c for crime prevention belonging to the first group generation interlocking device 13.

In addition, the wall pad 11 may be connected to a heating controller 14a, a collective lighting switch 14b, or a digital door lock 14c belonging to the second group generation interlock device 14. The heating controller 14a may include a main controller 140, room controllers 141, 142, and 143 installed in each room of the household, and a valve controller 144. The valve controller 144 directly controls a distributor valve 145 for supplying heated hot water to each room. The valve controller 144 turns on / off the distributor valve 145 or controls valve opening / closing according to a temperature control signal applied from the room controllers 141-143 or the main controller 140. Accordingly, the temperature of each room or living room is maintained at the manipulated temperature. On the other hand, the valve controller 144 communicates with the wall pad 11 and controls the valve valve 145 on / off or the valve opening and closing degree according to the temperature control signal applied from the wall pad 11. . Typically, the distributor valve 145 is driven by the driving force of the motor to turn on or off the pipeline or to control the degree of opening and closing of the pipeline. On the other hand, in the case of individual heating rather than central heating, the heating controller 14a functions as a boiler controller.

The collective lighting switch 14b communicates with the wall pad 11 and lights or turns off the controllable lights according to the lighting control signal. The wall pad 11 can check whether the lamps in the household are on or off by checking the state of the collective light switch 14b.

The energy use metering unit 12 in the non-residential generation 10-1 may include an electric meter 12a, a heating meter 12b, and a water meter 12c, and the heating meter 12b is a gas meter. It may be one or more of the 120, the calorie meter 121, the hot water meter 122.

If the unoccupied household is a generation receiving district heating, steam and hot water can be provided, so that a calorimeter 121 to measure steam for floor heating and a hot water meter 122 to measure hot water are supplied to the heating meter. It can be installed as 12b. On the other hand, when the unoccupied household is designed for individual heating, the gas meter 120 may be installed as the heating meter 12b.

4 is a diagram illustrating a device connection configuration related to the bus line B10 of FIG. 2 in detail.

Referring to FIG. 4, the output line L10 of each generation shown in FIGS. 2 and 3 is connected to the communication terminal block 200-n of each generation. The communication terminal blocks 200-1, 200-2,..., 200-n of each generation are commonly connected to the distribution control unit (DCU) 210. The distribution control unit 210 is a device for relaying meter reading data, and is typically connected to about 128 communication terminal blocks. The interface unit 220 receives meter reading data for each generation stored in the distribution control unit 220 and transmits the meter reading data to the meter reading server 20 through an RS 232C communication method. Meanwhile, the jump line WP1 of the communication terminal block 200-n may be connected to the wall pad 11 of the corresponding generation. In this case, the energy reading data of the generation may be transmitted to both the reading server 20 and the wall pad 11.

FIG. 5 is a detailed illustration of a device connection configuration related to interconnection of a wall pad, a remote meter reading server, and a home network server in FIG. 2.

Referring to FIG. 5, the work group switch 310 may be connected to the meter reading server 20 through a line C1, and may be connected to the wall pad 11 through a line C2. The work group switch 310 may be connected to the home network backbone switch 320 through a line C3. The home network backbone switch 320 may be connected to the home network server 30 through a line C5, and may be connected to a firewall 330 through a line C4. The firewall 330 may only be connected to the backbone switch 340 via line C6. The only backbone switch 340 may be connected to a communication network, such as the Internet network 350 via line C7.

FIG. 6 is a detailed block diagram of the monitoring controller of FIG. 2.

Referring to FIG. 6, the monitoring controller 40 may include a communication interface 410, a controller 420, a display 430, a random access memory 460, a flash memory 470, a ROM memory 450, And an input / output interface 440.

The control unit 420 is implemented as a CPU or a microprocessor, and according to the present invention, serves as a subject for remotely performing the installation completion state and basic operation test of the household installation device in the non-resident household in the non-resident apartment complex.

The communication interface 410 is connected to the meter reading server 20 and the home network server 30 of FIG. 2 through a bus line B21, and to the wall pads 11 of each generation through the bus line B31. Can be. The communication interface 410 may be connected to another external device through the bus line B41. For example, the communication interface 410 in the monitoring controller 40 may be connected to the database management system 500 in which data are collectively stored for various operations.

The random access memory 460 connected to the control unit 420 via a bus BU1 may be implemented as a synchronous DRAM, and functions as a main memory for working of the control unit 420. The flash memory 470 may be implemented as a NAND or NOR type nonvolatile memory capable of performing a flash erase operation, and a program necessary for the controller 420 to perform an operation may be stored. The program can be programmed, for example, in a C ++ program language. The ROM memory 450 may store a basic program, for example, a boot program, required to initially drive the monitoring controller 40.

The display unit 430 is a device that provides a monitoring screen and visually displays the display data to be displayed by the controller 420. For example, the display unit 430 may be a CRT or LCD monitor. By viewing the display screen of the display unit 430, the supervisor can remotely check the status of the installation completion state of the household installation device in the non-resident household as shown in FIG.

The input / output interface 440 interfaces various input / output data required for performing an operation according to the present invention. An operation execution command generated by an operator may be received through the input / output interface 440. In addition, various data output as a result of performing the operation may be output to a printer or other output device through the input / output interface 440.

7 is an operation control flowchart according to FIG. 6.

Referring to FIG. 7, the control flow of steps S70 to S80 is performed by the monitoring controller 40.

First, the monitoring controller 40 transmits communication request data to the wall pad 11 or the home network server 30 in step S71 after the initialization is performed in step S70. In this case, the communication request data may be configured in the request communication data format as shown in FIG.

In operation S72, the monitoring controller 40 checks whether the acknowledgment data is received from the wall pad 11 or the home network server 30 for each generation.

When acknowledgment data is received for each generation in operation S72, the monitoring controller 40 stores generations in which the wall pad 11 is installed in the flash memory 470 of FIG. 6 in operation S73.

In order to check the installation status of the household interlocking device, in step S74, the monitoring control unit 40 transmits the installation confirmation request data of the household interlocking device to the wall pad 11. In this case, the installation confirmation request data may be configured in a communication data format as shown in FIG. 10.

In step S75, it is checked whether installation confirmation response data is received for each generation. When the installation confirmation response data is received, the monitoring control unit 40 stores the generation interlocking device installed for each generation in the memory 470 in step S77. Here, the installation confirmation response data may be configured in a communication data format as shown in FIG. 11.

In order to perform a basic operation test for confirming whether the installation is normally performed, in step S78, the monitoring controller 40 performs a basic operation test of the generation interlocking device.

If the test is found to be normal in step S79, the process is terminated. Otherwise, it is recognized as a defect in step S80. When the defect is recognized, data about the defect may be stored in the memory 470 or separately displayed on the display unit 430.

On the other hand, in step 7 S76 is a step of recognizing that the installation is not installed, when the acknowledgment data is not received in step S72, or the installation confirmation response data is not received in step S75 the monitoring controller 40 is a wall pad or A generation interlocking device is recognized as not installed.

FIG. 8 is a detailed control flow diagram related to a portion of the control flow of FIG. 7.

Referring to FIG. 8, the control flow of step S86 is performed by the monitoring controller 40.

The monitoring control unit 40 checks whether or not the wall pads are installed for all households in step S81, and stores check data and tests communication in step S82. In step S83, the wall pad 11 starts to check whether a generation interworking device of the corresponding generation is installed. In this case, the wall pad 11 transmits data indicating whether a generation interlock device is installed to the monitoring controller 40.

In step S84, the presence or absence of a heating controller, a batch light switch, various sensors, a digital door lock, electricity, heating (gas), or water is checked.

The monitoring controller 40 stores the check result data in step S85 and performs a basic operation test. In addition, the monitoring control unit 40 displays the installation status and the test result in step S86.

9 is a detailed control flowchart of the basic operation test of FIG. 7.

Referring to FIG. 9, the control flow of steps S91 to S95 is performed by the monitoring controller 40.

The monitoring controller 40 performs lighting on / off in step S92 after performing initialization in step S91. The step S92 is performed by turning on or off the batch light switch. The heating control is performed in step S93. In this case, the heating temperature is controlled by turning on or off the valve controller 144 of the heating controller. The monitoring controller 40 checks the sensor operation in step S94. Accordingly, it is checked whether a sensor such as a fire sensor, crime prevention, a fuselage sensor, a magnetic sensor is normally installed and operating properly. In step S95 the monitoring control unit 40 stores the test results for the basic operation test.

Although the control flow of FIG. 7 to FIG. 9 has been described as being performed on the monitoring control unit 40, in the case of different matters, the above control flow can be performed by installing a program in the home network server 30. .

FIG. 10 is a request communication data format diagram used in FIG. 7.

Referring to the drawing, the request communication data may be divided into a header A10 and a body A20. The header A10 includes a key data area A1, a message type area A2, a message length area A3, an unoccupied household's same data area A4, a call data area A5, and a reserved area A6. May be included. Meanwhile, the body A20 may include a message area A21 of N (N is an integer of 2 or more) bytes.

11 is a response communication data format diagram used in FIG. 7.

Referring to FIG. 11, the response communication data may be divided into a header B10 and a body B20. The header B10 may include a response header area B11.

The body B20 may include a device ID area B21, a device number area B22, and a plurality of device areas B23-B26 for a generation device. For example, it can be confirmed as the response communication data that 101-101 is equipped with the batch lighting switch and a boiler.

12 is an exemplary view of a display screen according to FIG. 7.

Referring to FIG. 12, 101-101 is provided with a wall pad, and a heating controller, a batch light switch, a fuselage sensor or a security sensor, a magnetic sensor, a digital door lock, an electric meter, a heating meter, and the like through a wall pad. It is shown that all water meters are installed.

Also, No. 102 is equipped with only a wall pad, and a heating controller, a flashing light switch, a fuselage sensor or a security sensor, a magnetic sensor, a digital door lock, an electric meter, a heating meter, and a water meter are not yet installed. have.

On the other hand, 103 is a resident generation, showing the state that access is originally prohibited.

Therefore, the work management supervisor can check the installation work status in real time from a remote location through the screen as shown in FIG. 12 without having to find each household in each building and check the installation status.

FIG. 13 is a detailed block diagram of the wall pad of FIG. 3.

Referring to the drawings, the wall pad 11 includes a wall pad control unit 111, a display unit 112, a drive interface 114, a communication interface 116, a voice communication unit 118, a status display unit 121, and meter reading data receiving unit. 124, a sensor unit 126, a memory unit 128, a camera unit 131, a keypad unit 132, a gateway 134, and an external input / output 136 may be included.

The communication interface 116 is connected to the monitoring control unit 40 or the home network server 30 of FIG. 2 through a line L20.

The wall pad controller 111 performs a wall pad function according to a program stored in the memory 128.

The driving interface 114 interfaces the driving control signal of the wall pad controller 111 to drive heating, a lamp, or a door lock.

The display unit 112 displays the display data applied from the wall pad controller 111 on the screen. The surface of the display unit 112 may be implemented in the form of a touch screen to sense a user's touch input.

The meter reading data receiver 124 is connected to a communication terminal block to receive meter data and transfer the meter data to the wall pad controller 111.

The sensor unit 126 may include various sensors such as a fuselage sensor, a fire detection sensor, a magnetic sensor, and a security sensor.

The camera unit 131 captures an indoor image of a surrounding wall pad installed under the control of the wall pad controller 111.

The keypad unit 132 is a pad including ten keys, function keys, and various keys, and applies key input data generated by user key input to the wall pad controller 111.

The voice communication unit 118 is responsible for performing voice communication and performs voice communication with an external or door phone.

The status display unit 121 is made of a light emitting diode lamp or the like to visually recognize various states within a household such as a fire sensor state, a fuselage sensor state, a magnetic sensor state, a crime prevention sensor state, or a heating state.

The gateway 134 and the external I / O 136 each perform a gateway role and an external input / output function.

The memory unit 128 functions as a work memory and a program memory of the wall pad controller 111.

In response to the access of the monitoring controller 40, the wall pad controller 111 provides data on whether a generation interlock device is installed.

FIG. 14 is a block diagram schematically illustrating an installation program module of a monitoring controller and a wall pad of FIG. 2.

Referring to the drawings, the monitoring control unit 40 includes a monitoring control program module 42. The wall pad 11 basically includes the wall pad main program module 130. The interface module 120 interfaces commands and data input / output of the temporary running program module 110 to the wall pad main program module 130. The program or firmware of the temporary running program module 110 is automatically disabled when an occupant event of an unoccupied household occurs according to the control flow of FIG. 16.

The monitoring control program module 42 and the wall pad main program module 130 may be directly connected through a bus line B31 or indirectly through an interface module 32 of the home network server 30. . The interface module 32 is responsible for program interfacing between the bus line B21 and the bus line B30-1. The wall pad main program module 130 is connected to the home network server 30 through a bus line B30.

When performing the operation of the present invention, the monitoring control program module 42 accesses and interoperates with the temporary running program module 110 of the wall pad 11. The wall pad main program module 130 processes tasks requested by the temporary running program module 110 by interfacing the interface module 120.

FIG. 15 is a remote monitoring control flowchart executed by the monitoring controller of FIG. 2.

Referring to the drawings, the control flow of steps S100 to S107 may be performed.

After performing the initialization in step S100, it is checked whether or not in the remote monitoring mode in step S101. If the remote monitoring mode in step S101 and step S102 in step S102 after the generation status request the image transmission to the wall pad of the household.

Accordingly, the camera unit in the wall pad 11 is operated to provide an internal image of the generation through the wall pad. If it is confirmed in step S103 that the generation of the image is received, the image is checked and monitored in step S104. Accordingly, theft or loss of the generation device can be prevented. In addition, work status monitoring within a generation can be performed in real time.

When the end event occurs in step S105, the transmission stop request signal is transmitted to the wall pad 11 in step S106, and the wall pad 11 accordingly turns off the operation of the camera unit. If it is checked in step S107 that the response confirmation signal for the operation of the camera unit is received, the operation of the remote monitoring mode is terminated.

FIG. 16 is a control flowchart of program automatic disable for tenant generation executed by the monitoring controller of FIG. 2.

Referring to the drawings, the control flow of steps S200 to S206 may be performed.

First, if the program delete mode operation is performed in step S201 after the initialization is performed in step S200, the payment generation information of the generation key is received in S202. For example, if the applicant for sale of house 101 paid the balance and received the household key, control of the occupant household should be fundamentally prohibited in order to protect the privacy of house 101. If it is confirmed that the generation key payment has been made for the household, the program delete command is transmitted to the wall pad 11 of the household in step S203. Accordingly, the wall pad 11 of the tenant generation permanently deletes the temporary running program module 110 under the control of the wall pad main program module 130.

In step S204 it is checked whether or not permanently deleted, and if the permanent deletion is confirmed, and in step S205 gives the last command to reset the wall pad of the household. When the wall pad 11 of the corresponding generation is reset, only the operation of the wall pad main program module 130 is performed. Accordingly, access to the wall pad of the corresponding generation is prohibited, and the program of the monitoring control program module 42 is updated to block access to the wall pad of the corresponding generation at step S206.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. For example, if the matter is different, the detailed connection configuration of the apparatus or the form of the remote inspection method of the generation device may be variously changed and modified without departing from the technical spirit of the present invention.

20: meter reading server 30: home network server
40: monitoring control unit

Claims (16)

Transmitting, by the monitoring control unit, communication request data for checking whether or not a wall pad is installed in each non-resident household of the apartment house to the wall pad or the home network server;
Checking, by the monitoring controller, whether acknowledgment data in response to the communication request data is received for each generation; And
And remotely recognizing, by the monitoring controller, that the wall pad is installed in the household when the acknowledgment data is received by the monitoring controller.
The method of claim 1, wherein the remote recognition operation before the tenant is stopped when a tenant event occurs for any of the households in the tenant housing complex.
If the wall pad is installed in each non-resident housing of the un-resident apartment complex, the monitoring control unit transmits the installation confirmation request data for checking whether the generation interlock device of the household is installed with the wall pad;
Checking, by the monitoring controller, whether installation confirmation response data corresponding to the installation confirmation request data is received for each household; And
When the installation confirmation response data is received by the monitoring control unit, the monitoring control unit remotely checking the generation installation device of the non-resident household in the non-resident household complex comprising the step of remotely recognizing that the generation interlocking device is installed in the corresponding household .
The method of claim 3,
The household interlock device includes an unoccupied household in an unoccupied apartment complex including at least one of a batch light switch, a heating controller, a fuselage sensor for detecting a movement of a person in the household, a magnet sensor for detecting the opening and closing of a door of a household, and a door lock. Remote installation method of household installations.
The method of claim 4, wherein the heating controller further includes a basic operation test for performing a control operation test for each temperature, and the monitoring control unit performs a light on / off control operation test for the batch light switch. Household installation apparatus remote inspection method of non-resident household in non-resident apartment complex to do.
5. The method of claim 4,
When the energy use meter reading unit for reading the use of electricity, gas, hot water, calorie, water, etc. as the generation interlocking device is further installed, the monitoring control unit for the generation interlocking device further includes a basic operation test for performing a test operation test Household installation apparatus remote inspection method of non-resident household in non-resident apartment complex to do.
According to claim 4, When the occupancy event for any of the households in the non-residential multi-family housing complex occurs, the household installation of the non-resident household in the non-residential multi-family housing complex is automatically stopped when the pre-resident household installation device remote check is generated How to remotely check the instrument.
When the wall pad is installed in each household of the non-resident apartment complex, transmitting, by the monitoring controller, installation check request data to check whether the household interlock device of the household is installed or not;
Checking, by the monitoring controller, whether installation confirmation response data in response to the installation confirmation request data is received from the generation companion device of the corresponding household; And
When the installation confirmation response data is received by the monitoring control unit, the monitoring control unit remotely performing a basic operation test for at least one generation interlocking device connected to the wall pad How to remotely check household installations.
9. The method of claim 8,
The household interlock device includes an unoccupied household in an unoccupied apartment complex including at least one of a batch light switch, a heating controller, a fuselage sensor for detecting a movement of a person in the household, a magnet sensor for detecting the opening and closing of a door of a household, and a door lock. Remote installation method of household installations.
10. The method of claim 9,
The basic operation test of the heating controller includes a control operation test for each temperature after completion of the communication connection check, and the basic operation test of the batch light switch includes the operation of the unoccupied household in the unoccupied apartment complex including the light on / off control operation test. How to remotely check household installations.
9. The method of claim 8,
When the energy use meter is further installed to read the use of electricity, gas, hot water, calorie, water, etc. as the generation interlocking device, the basic operation test for the household interlocking device is not occupied in the non-resident apartment complex including the metering operation test. How to remotely check the household installation of households.
The household installation of a non-resident household in a non-resident apartment complex in which the pre-entry generation installation device remote check is fundamentally stopped when an occupancy event occurs for any of the households in the non-resident apartment complex. How to remotely check the instrument.
When a wall pad is installed in each non-resident household of the non-resident apartment complex, the monitoring controller transmitting image request data for monitoring the inside of the household to the wall pad;
Performing image analysis by the monitoring controller when image data corresponding to the image request data is received from the wall pad; And
Checking the monitoring status of the operation status in the household through the image analysis, the remote control method of the generation installation device of the non-resident household in the non-resident housing complex comprising the step of checking.
Home network server; And
Sending communication request data to the home network server for checking whether a wall pad is installed in each non-resident housing unit of the non-resident apartment complex, and acknowledgment data in response to the communication request data is sent from each home network server. When received by the household, the remote installation device of the household installation device of the unoccupied household in the non-resident housing complex including a monitoring control unit for remotely recognizing that the wall pad is installed in the household.
Wall pads; And
Sending communication request data to the wall pad to check whether a household interlock device is installed in each non-resident household of the non-resident apartment complex, and acknowledgment data responsive to the communication request data is generated for each household from the wall pad. When received, the remote installation device of the household installation device of the non-resident household in the non-resident housing complex comprising a monitoring control unit for remotely recognizing that the household interlocking device is installed in the household.
Wall pads; And
The installation confirmation response data for checking whether the generation interworking device of the household is installed is sent to the wall pad, and the installation confirmation response data in response to the installation confirmation request data is received from the household interworking device of the household. When received, the remote installation device for households of non-resident households in the unoccupied apartment complex including a monitoring control unit for remotely performing a basic operation test for the at least one household interlocking device connected to the wall pad.

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