KR100894770B1 - Household installation apparatus for providing multi convenience function of living and thereof integration management system - Google Patents

Abstract

A generation offset unified management system for improving a multi offset function intensifying the entrance security is provided to supply a residence multi offset function by a security code and a door lock itself locking function in order to intensify the generation entrance security. A wall pad(400) has a security password setting function. A door lock(300) has normal open and close mode opening the generation door in response to the door open demand of the set up mode. A lumping operation switch is connected between wall pad and door lock. The security approach signal is produced in response to the demand of the security mode.

Description

Household installation apparatus for providing multi convenience function of living and including integration management system

The present invention relates to an electrical device installed in a generation of an aggregate, and more particularly, to a generation installation devices that provide a residential multi-convenience function, and an integrated management system of a generation edition including the same.

In general, home network devices, commonly referred to as wall pads, may be installed in an apartment, a town house, a villa, a detached house, a public building, an apartment building such as an officetel.

In addition to the monitoring of external visitors and the control of home networks, such wall pads can also be set up with security features for alerting unauthorized intruders. Specifically, if the user of the building registers the security password in advance through the wall pad and then returns from the outside and inputs the security password through the key input unit of the wall pad within the set time, the alarm transmission is terminated. The security function is when the intrusion alarm is sent out to the guard room if the same password is not registered in the wall pad when entering the door through the front door. Such a security function keeps the user out of the house because the user must exit the front door within the set time after performing the security setting operation on the wall pad, and when the return home returns, the wall pad is opened within a certain time after the generation door is opened. Since the user is required to input a password in Equation, it is inconvenient and hassle. If the entry / exit is not performed within the set time in the security function setting state, an emergency signal can be made unnecessarily because a user is mistaken as an intruder and an emergency signal is sent to the guard room or the like by a detector installed inside the household.

On the other hand, the generation door of the assembly building is provided with a door lock for opening or locking the generation door. Such door locks have recently been developed in the form of so-called digital door locks with the addition of a fingerprint, iris, voice recognition function and communication function in addition to number input. The panic function is known as one of various functions of the digital door lock. Such a panic function means a function that allows the door to be unlocked immediately after the door lock is released by simply pulling or lowering the door lock in the household when an emergency escape to the outside is required in the event of a fire in the assembly building. do. In other words, even if the door lock is locked, the door of the generation door can be opened immediately if the door lock knob inside the generation of the door lock is operated. Locking the door lock is as simple as a person who has penetrated the front door of the household to exploit the panic function (or called the panic release function) to push in or lower the handle of the door lock inside the household by inserting a pre-prepared instrument from outside to enter the household. Is easily released, so security is very vulnerable. Therefore, when all household members go out, it is necessary to limit the panic function.

In the assembly building, the lamp is turned on or the heater is operated using a power source drawn through the generation panel. For convenience of operation of lights and heaters, there is an operation switch near the front door of the household, often referred to as a master switch. Therefore, when household members leave the house and go out, when the master switch is operated, unnecessary power waste is prevented because all of the lights in the operation range and the standby power of the heater connected to the outlet are collectively turned off. However, there is an advantage that the batch extinguishing and standby power interruption using the master switch are operated collectively, but it also cuts off power of electric heaters, such as a low temperature shaker, which requires continuous power supply even when going out, and thus uses a master switch. Acts as a limiting factor. As a result, a countermeasure for supplying power to a specific outlet even in the off state of the master switch is required.

In addition, a control technology that can be individually controlled or collectively controlled by placing a batch operation switch similar to the master switch even in a home or a living room within a generation of a collective building and individually turning on even in a batch-off state for the convenience of housing. It may be necessary.

It is an object of the present invention to provide an integrated management system for generations that allows a security function set in a home network device to be implemented through a door lock.

Another object of the present invention is to provide an integrated management system of the generation unit including all of the household installation devices that can implement the locking of the door lock panic function by the operation of the integrated operation switch when all the members of the household go out for a long time.

Still another object of the present invention is a generation installation device capable of collectively performing standby power interruption by an integrated operation switch in a state in which a mode related to standby power interruption is independently and variably set for each outlet supplying power to a generation load. And an integrated management system for generations including them.

Another object of the present invention is to install a generation that can be individually controlled or collective control by placing a batch operation switch similar to the master switch in the home or living room within the generation of the assembly building, and can be individually turned on even in the batch off state It is to provide an integrated management system of the generation and the devices including them.

Still another object of the present invention is to provide a generation installation device that provides a multi-functional residential convenience function, and an integrated management system for a generation side including the same, and a method for performing generation operation.

It is still another object of the present invention to separately turn on and off under household lighting security, door lock panic function locking, standby mode shutdown by setting mode, and collective lighting, in addition to the normal lamp turn off, gas valve shut off, electric curtain control, or air conditioner control operation. It is to provide a generational integrated management system that can selectively perform functions.

Still another object of the present invention is to integrate household installation devices capable of releasing and restoring various functions set in a household without operating the operation switch when entering and leaving the home or in the security mode, and the generation side including them. In providing a management system.

Another object of the present invention is to provide an integrated management system and generation convenience of generation to prevent the release of the door lock without the authentication of the security password under the security mode even when the door lock unlocked by another person when the door lock unlock key is lost. The present invention provides a method of performing an operation.

According to one embodiment of the present invention, the integrated management system of generations,

A home network device having a security password setting function;

It has a normal opening and closing mode for opening the household door in response to the door opening request of the self-set method, and after the security entrance signal is received, the door opening request is passed, as well as the security release request signal input from the outside A door lock having a security opening / closing mode for opening the household door if the security password is set in the network device;

And an integrated operation switch unit connected to the home network device and the door lock and configured to generate the security entry signal in response to a request of a security mode.

In an embodiment of the present invention, the door lock may receive the security password set in the home network device after registration or before receiving the security entry signal, and register the door lock in the internal storage unit, and open the door in the security opening / closing mode. After the authentication of the request is successful, the authentication of the security release request signal is additionally performed, or the authentication of the security release request signal is first performed in the security opening / closing mode. Further authentication can be performed.

If necessary, the door lock recognizes that there is no fuselage within the household when the security entrance signal is received in order to enhance security against external intrusion, and the door lock is immediately opened by the handle operation of the household in the locked state of the door lock. Can lock the panic function.

In an embodiment of the present invention, the home network device transmits the set security password directly to the door lock or indirectly through the integrated operation switch unit to open the household door, or the security release request signal and the security. It is possible to directly perform the authentication operation of comparing the ciphers with each other.

In addition, the home network device performs at least one of gas valve shut-off, air conditioner out mode switching, fuselage monitoring, electric curtain control, and door opening monitoring in response to the security entry signal.

In an embodiment of the present invention, the integrated operation switch unit may perform a batch light off after generating the security entry signal, the standby power cut-off function for each setting mode by the network outlet unit by generating the security entry signal Can be performed.

In the embodiment of the present invention, when the security opening and closing the security mode once the security lock mode is executed in the door lock, in response to the need for room lighting is automatically turned on for a predetermined time and further connected to the light unit connected to the integrated operation switch unit Equipped.

According to another exemplary aspect of the present invention, the generation installation device,

A security entrance signal generation unit generating a security entrance signal when a request for the security mode is detected and applying the security entrance signal to at least one of a home network device and a door lock;

A batch extinction execution unit for controlling batch extinction for the extinguishing target extinction lamps connected to the circuit breakers of the generation in response to the generation of the security entry signal;

And an integrated operation switch unit as the generation installation device including a batch extinction canceling execution unit for canceling the batch extinction in response to the termination of the security mode so that the collective extinguishing target lights are returned to the lighting state before the batch extinction state. .

Preferably, the request of the security mode is sensed when the operation pad provided near the household entrance is operated, and when the entry lock signal is applied from the door lock or the home network device without the operation pad being operated, the batch extinguished light is applied. Can be performed.

According to another exemplary aspect of the present invention, the generation installation device,

An outlet connected to the circuit breaker through which generation power is input through a latch relay;

A standby power cutoff selection setting unit capable of setting, by external operation, a control mode for blocking standby power consumed by the load of the outlet when the cutoff control signal is applied and a non-control mode for stopping standby power; ;

When the cutoff control signal is applied through a communication line, the standby power cutoff execution unit drives the latch relay to prevent the power supply of the circuit breaker from being applied to the outlet only when the setting of the standby power cutoff selection setting unit is a control mode. Wow;

When the interrupt recovery control signal corresponding to the interruption control signal is applied through the communication line, the latch relay is driven to supply power to the circuit breaker only when the standby power interruption selection setting unit is in a control mode. And a network outlet including the standby power cut-off recovery unit to be applied as the generation installation device.

In an embodiment of the present invention, the cutoff control signal may be applied in an RS 485 communication method when executing a batch extinction operation.

Preferably, the network outlet unit, if there is an operation change from the control mode state to the non-control mode state through the interruption selection setting unit even during the execution of standby power interruption in which power of the circuit breaker is not applied to the outlet. Blocking can be restored.

In an embodiment of the present invention, a plurality of network outlets are installed in different places within a household, and are connected to the communication line separately while being connected in common to the communication lines.

In an embodiment of the present invention, the network outlet is implemented as a one-piece assembly or a separate assembly to be wall mounted within a household.

According to another exemplary aspect of the present invention, the generation installation device,

An integrated operation switch unit configured to collectively extinguish the collective extinguishing target lights connected to the circuit breakers of the generation in response to the collective extinguishing request;

In response to the collective extinguishing request or external operation of the integrated operation switch unit, the extinguished lights are collectively turned off for the lights to be extinguished. In this case, the sub-control switch is provided as the generation installation device, so that only the operated lamp is individually lit.

In an embodiment of the present disclosure, the sub control switch unit may further include a remote control input unit configured to perform the batch extinction in response to a radio signal applied from the outside.

Preferably, the sub control switch unit,

A DC power generating unit generating DC power from commercial power applied through the circuit breaker;

An operation unit which generates a switching signal by an external press or touch;

A relay for switching power to the other phase of the circuit breaker with respect to a light directly connected to the circuit breaker through a power line of one phase;

A communication module for receiving the batch extinction request;

The relay is driven upon the request for the extinguishing of the batch or the reception of the switching signal so that the extinguishing of the lamps is performed and the lamps are turned off individually in response to an operation of the individual operation switch connected to the lamp. A relay control unit may be provided.

According to another exemplary aspect of the present invention, the generation installation device,

A digital door lock having a normal mode for opening and closing the entrance door of a household using a card key or a password, and a security mode for opening and closing the entrance door for a household after the security password is additionally authenticated;

The generation of a home network device that outputs an authentication result signal obtained by comparing the security release request signal and the security password received when the authentication request is received from the digital door lock in the security mode after setting the security password to the digital door lock. It is provided as an apparatus.

In an embodiment of the present invention, the digital door lock opens the generation entrance door when the authentication result signal is successful after the card key or password match.

Preferably, the security mode can be further provided by the push / touch, remote control and may be further provided with an integrated operation switch that is connected to the home network device in the security mode or outgoing mode to control the batch off, When the security mode is entered by the integrated operation switch may be further provided with a network outlet for shutting off the standby power only for the outlets set by the user, and performs a block recovery operation during the opening operation of the digital door lock.

According to still another exemplary aspect of the present invention, a method of performing generation operation in a generation management system, in which a home network device, a door lock, and an integrated operation switch communicate with each other,

Setting a secure password through the home network device;

If the operation of the integrated operation switch is a security operation, placing the household controller in a secure mode and turning off the lights collectively;

Requesting to unlock the door lock in the secure operation state so that the household door is opened only when self-authentication of the door lock succeeds and the security password is authenticated;

And releasing the security mode and restoring the collective lights out when the household door is opened.

According to the above-described exemplary embodiment of the present invention, the household access security is additionally performed by the security password set in the home network device as well as the door lock self-locking function, thereby further strengthening the household access security in the absence of a long period of time. In addition to the normal lamp batch off, gas valve shut off, or air conditioner control operation, door lock panic function locking, standby power interruption for each setting mode, and individual lighting functions under collective off are selectively realized.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing an embodiment of the present invention, if it is determined that a detailed description of a known function or configuration of a related household installer may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

First, FIG. 1 is a block diagram of an integrated management system for generations according to an embodiment of the present invention.

Referring to FIG. 1, the integrated operation switch unit 100, the sub control switch unit 150, the network outlet unit 200, the door lock 300, the home network device 400, the elevator server 700, and the home network The connection configuration between the servers 800 is shown.

A light group A 500 and a corridor lamp 600 are connected to the integrated operation switch unit 100, and another light group B 170 is connected to the sub control switch unit 150. A gas valve driving unit 410 for controlling the gas valve, a boiler driving unit 420 for controlling the boiler, a cooling driving unit 430 for driving a cooler such as an air conditioner, and the like to control the walking and walking the indoor curtain installed in the window The electric curtain drive unit 440 is connected to the home network device 400, also commonly referred to as a wall pad.

The repeater 900 plays a role of relaying a transmission / reception signal between the home network device 400 and the door lock 300. However, it is a matter of course that the signal can be transmitted and received through the integrated operation switch unit 100 without the intervening of the repeater 900.

In the case of the embodiment of the present invention, the wall pad 400 has a security password setting function, the door lock 300 is a digital door lock, in response to the door opening request of the self-configured method to open the household door It basically has a normal open / close mode. In addition, the door lock 300 is not only when the door opening request is passed after the security entrance signal is received, but also when the security release request signal input from the outside matches the security password set in the wall pad 400. It further has a secure open / close mode for opening household doors. According to the security opening and closing mode of the door lock 300, the security function set in the home network device 400 can be implemented through the door lock 300, under the security mode of the door lock without authentication of the security password set on the wall pad Freedom will not occur. Therefore, generation access security is further strengthened, and even when the door lock release key is lost, it is possible to cope without worry.

In addition, the door lock 300 performs the locking of the door lock panic function in the security mode operation in response to the security entry signal of the integrated operation switch 100 when all the generation members go out for a long time. Accordingly, even if an outside intruder penetrates through the front door of the household and touches the inner handle, the locked state of the door lock is not released, thereby enhancing the security of household access.

The integrated operation switch unit 100 is connected between the wall pad 400 and the door lock 300 and generates the security entry signal in response to the request of the security mode.

The network outlet 200 cuts off the standby power by stopping the power supply only for the outlets set in the control mode when the blocking control signal is applied through the communication line L30. As described above, when the standby power blocking is collectively performed in a state in which the standby power blocking mode is independently and variably set for each outlet supplying power to the generation load, the standby power collective blocking function is basically performed. A power outlet is still supplied to the outlet that still needs to be supplied with power, and the power supply can be supplied to an outlet requiring power by changing the setting state.

The sub control switch unit 150 is connected to the integrated operation switch unit 100 through the communication line (L30), and controls the lighting of the light group B (170). In this case, the sub-control switch unit 150 may be located in the living room or living room in the generation of the assembly building, as well as the collective control function, such as the collective extinguishing function of the integrated operation switch unit 100, the collective off It acts as a switch that can be turned on individually even in a state.

In FIG. 1, the communication lines L20 and L30 may be lines for implementing RS 485 communication.

FIG. 2 is a diagram illustrating a specific connection implementation example of some of the configuration blocks of FIG. 1.

2, the integrated operation switch 100 is connected to the circuit breaker ELB (6) to switch the power (phase R) of one phase (phase), the wall through the communication lines (L20, L30) It is shown that the pad 400, the door lock 300, and the sub control switch unit 150 are connected to the pad 400.

The ELB 6 functions to supply commercial power applied from the main ELB 2. In general, a power supply line introduced into a generation distribution board has two input / output stages in the case of a single phase, and three input stages and three output stages of the R, S, and T phases in the case of a three-phase 380V. In the three-phase case, the power line output to the transformer has four inputs and four outputs because the three inputs and outputs have a neutral line (N: NEUTRAL), and thus R, S, T, and N phases. Here, when two lines of the three-phase power supply lines R, S, and T phases, for example, R phase and S phase or S phase and T phase or T phase R phase are drawn in, 380V, and any one of R, S, and T phases When N-phases are paired in, 220V is obtained. In the embodiment of the present invention, it is assumed that single-phase 220V is applied to the input terminals IN1 and IN2 of the main ELB 2. Generation distribution boards can be equipped with a molded case circuit braker (MCCB), which serves as a breaker for overload overcurrent protection, or an earth leakage circuit braker (ELB), used as a breaker for short-circuit and overload overcurrent protection. Assumed

Further ELBs 4 and 8 are connected to the main ELB 2, and network outlets 210 and 211 are connected to the ELB 4 through power line pairs L35 and L36. 8), a network outlet 213 is connected through power line pairs L40 and L41.

As shown in FIG. 2, generation lighting lamps 501, 502, 503 belonging to the lamp group A 500 of FIG. 1 have one end connected in common to the N of the ELB 6, and the other ends of the individual switches S1. Through the S2, S3 is commonly connected to the R phase of the integrated operation switch unit 100. Here, the household lighting lamps 501, 502, 503 are all turned off when the batch is turned off, and only the lamps in which the individual switches S1, S2, and S3 are turned on are turned on when the batch is turned off.

In addition, one end of the corridor lamp 600 is commonly connected to the N phase of the ELB 6, and the other end thereof is connected to the integrated operation switch unit 100 through the power line L10. The integrated operation switch unit 100 and the individual switch 10 of the corridor lamp form a three-way switch with respect to the corridor lamp 600.

Generation lamps 172, 173, 174 belonging to lamp group B 170 of FIG. 1 have one end connected in common to N of the ELB 6, and the other end of the relays R1, R2, as shown in FIG. R3 is commonly connected to the R phase of the sub-control switch unit 150. Here, the generation lamps 172, 173, and 174 are all turned off when the batch is turned off, and only the lamps in which the individual switches Q1, Q2, and Q3 are turned on are turned on when the batch is turned off. In addition, even in a collectively unlit state, when one or more of the individual switches Q1, Q2 and Q3 are switched on, the lamp corresponding to the switching is turned on. Although the drawings show that the generation lamps 172, 173, 174 are all turned off by the R phase blocking (one pole blocking) when the collective lights are turned off, R and N phase blocking may be performed (two pole blocking).

On the other hand, among the network outlets 210, 211, and 212 included in the network outlet 200, the power supply is stopped in the security mode only for the network outlets that are set to the control mode through the setting operation unit 220, thus standby power. Is blocked.

The wall pad 400 is connected to the fuselage detector 420 to receive a detection signal of the fuselage detector 420 that detects a moving object in a household, and includes a gas valve driver 410 and a boiler 422 for gas valve control. It is also connected to the boiler controller 420, the elevator server 700, and the home network server 800 for controlling the. In addition, the wall pad 400 may be connected to a cooling driving unit 430 for driving a cooler such as an air conditioner, an electric curtain driving unit 440 for controlling walking and walking of an indoor curtain installed in a window, and a kitchen TV.

The door lock 300 installed in the generation front door 200 performs data communication with the wall pad 400 through the communication line L30 or the repeater 900 as a digital door lock, and performs a panic function in the normal outing mode. To perform. One side of the generation front door 200 may be a door opening sensor 320 or a security sensor for detecting the door opening.

For example, if all members of the household are traveling for a long time, the security password setting function is utilized for reinforcement of household access security through the wall pad 400. In this case, the user prepares a security password in accordance with the setting conditions and inputs it to the wall pad 400.

On the other hand, the door lock 300, in response to the reception of the door opening request of the self-set method, such as password input, radio frequency (RF) card, keyless input by remote radio frequency (RF) communication, fingerprint, iris, etc. The normal opening / closing mode for opening a household door and the door opening request are passed after the security entrance signal is received, and when the security release request signal input from the outside matches the security password set in the home network device. It has a secure open / close mode that opens the household door.

Therefore, when leaving the house in preparation for the trip, if the last outgoing user operates (including pressing or touching) the security setting pad (key or switch) provided in the integrated operation switch unit 100, the security entry signal is Is generated. Accordingly, the door lock 300 operates in the secure open / close mode once the generation door 20 is closed and locks the panic function. Here, the locking of the panic function or the panic release function refers to a disabling operation in which the door is not opened even when the inner handle is operated. In this case, since the integrated operation switch unit 100 opens the R phase as an internal relay, the lamps 501-503, 600, 172-174 are turned off collectively. Also, in this case, the wall pad 400 performs gas valve shut-off, electric curtain control, and air conditioner control in a mode suitable for travel and monitors intrusion through the fuselage sensor 420. In addition, power to the outlets set to the control mode of the network outlets 210-212 are cut off so that standby power is cut off at once.

In this way, when leaving the house, only by operating the security setting pad (6d) provided in the integrated operation switch unit 100, the entry into the security opening and closing mode, the locking (control) of the panic function, the collective off, individual mode Star standby power cut off, gas valve cut off, electric curtain drive, air conditioner control are performed. If a user accidentally operates the security setting pad 6d or needs to enter the room again, it may be set to return to the state before the security mode by pressing and holding or touching the cancel button or the security setting pad.

When the household members are traveling, even when an illegal intruder opens the door by using the panic function of the door lock, even if the intruder touches the interior handle of the door lock 300 through the generation front door, the panic function is locked under the security mode. Since opening is disabled, no internal intrusion is possible. In addition, even if a person who has acquired a high frequency key that unlocks the door attempts to release the door lock 300, the door lock is not unlocked without input of the security password of the wall pad in the security mode. Therefore, according to the embodiment of the present invention, since the panic function is locked under the security mode and has the same operation as the double pass key is operated through the door lock, the security function of generation entry and exit is further enhanced. If the entrance and exit attempt is displayed as an error several times through the door lock under the security mode, the wall pad 400 and the digital door lock 300 may be interlocked to capture an image of an external attempter through the camera of the generation door. The wall pad 400 may store the photographed image, and may automatically transmit an alarm for an error upon entry and exit to the guard room and the household member.

Now, when the normal user, who is a household member, returns to his / her home after the trip, the user can release the door lock 300 only by receiving double authentication through the door lock 300. That is, firstly, after the door lock normal authentication through the door lock password, card key, keyless key, fingerprint, iris, etc., and secondly enter the security password into the door lock 300, the generation door only when the mode is successful The door 20 can be opened. In some cases, on the contrary, the door lock normal authentication may be performed secondly after the security password is first authenticated. When the double authentication through the door lock 300 is successful, the security mode is terminated and various functions are restored to the previous state. That is, the locking of the panic function is released, so that the panic function can be realized, and the collectively turned off lights remain in the state before being turned off, and the standby power cutoff for each mode is terminated. In addition, air conditioners such as boilers and air conditioners are operated again before the security mode, and the fuselage monitoring function is stopped.

As such, the household convenience functions described above are simply opened by the user opening the front door 20 and succeeding in dual authentication through the door lock without re-operating the security setting pad of the integrated operation switch unit 100. Return to the previous state. In this case, the corridor lamp 600 may be turned off or turned off by the individual switch 10 automatically lights up for a predetermined time for the convenience of the user when the entrance and exit at night or at night.

On the other hand, when the user operates the collective lighting pad of the sub-control switch unit 150 of FIG. 2 installed in the home or living room at bedtime, the lights 172-174 are turned off collectively. In such an extinguished state, only the lamp 172 is lighted independently when a child wakes up and switches on the toilet individual switch Q1. Subsequently, the extinguishing of the lamp 172 is performed when the collective extinguishing pad is operated again or when the individual switch Q1 is switched off. In this way, the individual lighting function under the collective lighting off is implemented by the three-way switching function and the network switching function of the sub-control switch unit 150.

On the other hand, when operating in the normal outing mode instead of the security mode, the user does not need to press the security number under the security mode. In this case, the normal opening / closing mode by a card, a general access password, a fingerprint, an iris, or a keyless function is performed.

3 is a view showing a specific implementation of the integrated operation switch unit of FIG.

Referring to the drawings, the rectifier 102, the voltage regulator 104, the control unit 110, the memory unit 112, the security setting unit 106, the display unit 108, the operation unit 114, the photocoupler 116, A connection configuration of the communication unit 120, the first driving unit 118, the first switching unit 124, the second driving unit 122, and the second switching unit 126 is shown.

The control unit 110, the security setting unit 106, and the communication unit 120 configure a security entry signal generation unit that generates a security entry signal and provides the same through a communication line. In addition, the controller 110, the driving units 118 and 122, and the switching units 124 and 126 constitute a batch extinction execution unit and a batch extinction execution unit for controlling batch extinction for the extinguishing target lamps.

Here, the rectifier 102 is implemented as a general-purpose device "MS0412", the voltage regulator 104 is implemented as "78M05G", the photocoupler 116 is "PC814", the communication unit 120 is "SP485E" The first driving unit 118 is “ULN2003”, the first switching unit 124 is “JE10-2”, and the second switching unit 126 is “HR-CR7”, respectively. When the operation unit 114 is implemented as a touch sensor, a “QT1081” device may be employed.

The security setting unit 106 may be included in the operation unit 114 or provided separately. Here, an external example of the operation unit 114 may be formed as shown in FIG. 7, and the control unit 110 may perform an operation control flow as shown in FIG. 17. The lamp 501 which is in the lit state by the close of the switch S1 is turned off by the R phase blocking operation of the latch relay 124 connected to the first drive unit 118 at the time of collective extinction. On the other hand, the corridor lamp 600 is also extinguished when turned off collectively by the R phase blocking operation of the relay 126, and when the security mode is canceled, the corridor lamp 600 is turned on for a predetermined time by the control of the controller 110, and the operation of FIG. Switching is done by the photo coupler 116 which senses the open or close of the switch 10. Here, the switching to 3 function will be described with reference to FIG.

The communication unit 120 applies the security entry signal generated by the control unit 110 to the communication lines L20 and L30 when the security setting is made.

4 is a diagram illustrating a specific implementation of the sub-control switch unit 150 of FIG. 2.

Referring to the drawings, the rectifier 152, the voltage regulator 154, the relay controller 160, the operation unit 156, the remote controller input unit 158, the communication unit 162, the driving unit 164, and the switching unit 168 of the The connection configuration is shown.

Similarly, the rectifier 152 is implemented with a general-purpose device "MS0412", the constant voltage unit 154 is implemented with "78M05G", the communication module 162 is "SP485E", the driver 164 is " ULN2003 ", the switching unit 168 is implemented as" HR-CR7 "respectively.

The operation unit 156 has an on / off switch and a batch on / off switch for each of the lights. The relay controller 160 drives the driver 164 to drive the relay 168 even when a remote control input is received through the remote controller input unit 158.

FIG. 5 is a diagram illustrating a specific implementation of the network outlet circuit of FIG. 2.

Referring to the drawings, the rectifier 202, the voltage regulator 204, the outlet control unit 208, the memory unit 214, the operation and display unit 206, the communication module 212, the driving unit 216, and the switching unit ( The connection configuration of 218 is shown.

Similarly, the rectifier 202 is implemented by the general-purpose device "MS0412", the constant voltage unit 204 is implemented by "78M05G", the communication module 212 is "SP485E", the driver 216 is " ULN2003 ", the switching unit 218 is implemented as" JE10-2 "respectively.

Although the power cut-off of the outlet 230 is made by the R-phase blocking (one pole blocking) in the drawing, it is also possible to perform both the N-phase switching and the N-phase blocking (two-pole blocking).

The appearance of the manipulation and display unit 206 may be configured as shown in FIG. 8, and the commercial power is supplied or cut off to the outlet 230 by the switching operation of the switching unit 218.

In the embodiment of the present invention by having the configuration as shown in FIG. 5, the standby power is cut off through the communication line in a state in which the standby power shut-off mode is independently and variably set for each outlet that supplies power to the generation load. In case of doing this, the standby power batch blocking function is basically performed. In addition, the outlet that is still in need of the power supply is supplied with power, and the power can be supplied again to the outlet requiring the power supply by a change operation of the setting state.

FIG. 6 is a diagram illustrating an exemplary embodiment of a three-way switch configuration for turning on a light in FIG. 2.

6a shown in FIG. 6 is a case in which the switch is configured to 3 using two conventional tumbler switches (SW1 and SW2), and 6b is 3 using one tumbler switch (SW11) and one network switch (SW22). This is the case when the switch is configured. In either case, the lights can be turned on or off with either switch.

In the case of FIG. 6A, it is assumed that the first switch SW1 is located on the first floor porch, and the second switch SW2 and the lamps 600 and 172 are located on the second floor, and the switch S1 is connected to the contact point a1 at the first floor porch. In the case where the lamp is turned on, the switch S2 of the second switch SW2 may be connected to the contact point a2. Therefore, when the user who has reached the second floor switches the switch S2 to the contact point b2, the light is turned off. On the other hand, when the lamp is turned on, the user may switch the switch S1 of the switch SW1 to the contact point b1 to turn off the lamp on the first floor. In this way, it is the switching function of 3 that it is possible to turn on or off at either switch. In the case of FIG. 6B, a relay and a photo coupler exist inside the switch SW22 to perform the switching function as described above. The configuration of FIG. 6B may be utilized to turn off and individually turn on the lights 600, 172 of FIG. 2.

7 is a view showing an example of the appearance of the operation unit of the integrated operation switch unit of FIG.

The elevator-related pad 108a is provided with a display unit D1 for displaying the floor and push / touch buttons B1 and B2 for calling the elevator. In the vicinity of the elevator-related pad 108a, a collective extinguishing button 6a, a gas valve shutoff button 6b, a standby power shutoff button 6c, and an outgoing / security button 6d are provided. The user operates the outgoing button when going out, and operates the security button when security is required. The go out and security buttons may be provided separately, or may be installed by one button for convenience of operation, and may be distinguished by different touch methods. In the security mode, since all functions are controlled at the same time, it is not necessary to individually operate the collective off button 6a, the gas valve shutoff button 6b, and the standby power shutoff button 6c.

FIG. 8 is a diagram illustrating an appearance of a network outlet circuit of FIG. 2. Referring to the drawings, on the basis of the drawing, there are two outlet connectors 230 and 232 on the left side, and always on 222, uncontrolled mode 224, control mode 226, forced within the operation pad 220 on the right side. Buttons are provided for pressing / touching the on 228 mode. The control mode 226 is a mode in which power applied to the outlet is cut off in the security mode or the collective off, and the non-control mode 224 is the power applied to the outlet in the secure mode or batch off. This mode is to maintain the authorized state. On the other hand, the always-on mode 222 is a copper mode that is always under the control of the communication line, so that power is supplied to the outlet, the forced on 228 mode is mechanically on in preparation for the failure of the relay, etc. Forced recovery mode.

9 is a view illustrating an operation relationship of a latch relay for applying power to the outlet of FIG. 5.

In the figure, the N-phase output terminal N1 of the outlet 230 is always introduced through the connection node NO1 to the N-phase applied from the generation ELB. On the other hand, when the switch SW1 of the latch relay LY1 is connected to the connection terminal b, the R phase applied from the generation ELB is introduced into the R phase output terminal R1 of the outlet 230 through the connection node NO2. . The on / off (connection / disconnection) operation of the switch SW1 of the latch relay LY1 is performed by a switching control signal applied through the control signal line CO1. The switch SW1 of the latch relay LY1 has a function of maintaining the current switching operation until the next switching control signal is applied. The switching control signal may be a security entry signal or a standby power blocking signal generated when the standby power is blocked.

FIG. 10 is a block diagram illustrating a detailed circuit example of the door lock in FIG. 2.

Referring to FIG. 10, the control unit 301, the memory and authentication unit 302, the input unit 304, the power supply unit 306, the communication unit 308, the touch sensing unit 318, the driving unit 316, and the locking mechanism ( 326, a door opening and closing detection unit 320, and a registration input unit 312 are shown.

The memory unit 302 has a memory area for storing a predetermined password, voice guidance data, or fingerprint registration data for opening and closing the door, and stores a program for driving the door lock.

The input unit 304 is composed of a numeric key and a function key or a character key to provide a keypad or a scanner for performing an input operation such as a password input and a change to the user.

When the communication unit 308 performs wired communication, any one of RS232 / 422/485 may be used, and in the embodiment of the present invention, RS 485 communication is used. When the communication unit 308 operates with an external key for a normal door lock authentication operation, the communication frequency band is a known high frequency RFID frequency band, for example, a low frequency band of 125 kHz to 13.56 MHz, an intermediate frequency band of 400 MHz to 900 MHz, Alternatively, a high frequency band of 2.45 GHz may be selected. In addition, the communication interface may be Zigbee communication or Bluetooth communication.

The control unit 301 communicates with the integrated operation switch unit 100 or the wall pad 400 through the communication unit 308, and is a user's key applied through the input unit 304 and the registration input unit 312. It performs input operation such as password input and change according to the input, and controls overall unlocking control of door lock. In addition, to implement an embodiment of the present invention, the control unit 301 is a normal opening and closing mode for opening the household door in response to the door open request of the self-set method, and the security entry signal received through the communication unit 308 After the door opening request is passed, the generation door is opened when the security release request signal input from the outside through the input unit 304 matches the security password set in the home network device 400. Has a secure open / close mode. Therefore, the driving unit 316 drives the locking mechanism 326 only in the case of the third input case IN3 of FIG. 15. Accordingly, the motor driving unit of the locking mechanism 326 is operated so that the locking bolt 330 driven by the conventional rack and pinion gear driving method exits from the locking bolt housing 323 installed in the door receiving frame 20. This is the door opening operation. On the other hand, the door closing operation refers to the operation to allow the locking bolt 330 to be inserted into the locking bolt housing 323. The door open / close detection unit 320 detects a locking / unlocking state of the locking bolt 323 and provides a signal according to the control unit 301. The door opening is performed even when the user operates the handle inside the door. In this case, the locking mechanism 326 performs its own operation to open the door.

In addition, the control unit 301 of the door lock 300 enters the security mode when receiving the security entry signal through the communication unit 308 and under this operation performs the locking of the door lock panic function. Accordingly, even if an outside intruder penetrates through the front door of the household and touches the internal handle, the locked state of the door lock is not released by the locking mechanism 326, thereby enhancing the security of household access.

Operation of the controller 301 may be variously performed according to a program loaded in the memory unit and the authentication unit 302, and the control flow of FIG. 16 may be performed as an example.

FIG. 11 is a block diagram illustrating a detailed circuit example of the home network device of FIG. 2. Referring to FIG. 11, the wall pad controller 410, the voice communication unit 436, the status display lamp 434, the keypad unit 432, the gateway 428, the external I / O 430, and the memory unit 422. ), Recording unit 424, communication interface 412, video / audio processing unit 414, function key input unit 416, display unit 418, sensor unit 420, user identification authentication unit 260, and power supply An apparatus configuration including a supply section 426 is shown as an example.

The user identification authentication unit 260 determines whether the door opening request data transmitted from the door lock is the same as the pre-registered use registration authentication data under the control of the control unit 410 in the normal mode, and allows the door opening in the same case. You can generate a signal.

On the other hand, in the setting of the security password in the embodiment of the present invention, the user sets the security password through the keypad unit 432, and checks whether or not registration is properly performed through the display unit 418, Registration or completion may be performed through the function key input unit 416.

On the other hand, the sensor unit 420 is a fuselage detector for detecting a moving object in the generation. The control unit 410 is a gas valve driving unit 410, a boiler controller 420, a lift server 700, a home network server 800, a cooling driving unit 430, a curtain driving unit through the communication interface 412 of FIG. 440, and a kitchen TV.

The controller 410 may perform the operation control as shown in FIG. 19 in relation to the embodiment of the present invention.

FIG. 12 is a diagram illustrating various management functions of an integrated management system for generations of FIG. 1 according to operation modes.

Outing / security control (S10), door lock panic function locking (S20), individual mode standby power off (S30), air connection (corridor light) control (S40), home (living room) turn off (S50), lift call ( S60), gas valve shutoff (S70), air conditioning and curtain control (S80), collective off (S90), intrusion monitoring (S100) functions to manage the optional and integrated in accordance with embodiments of the present invention. Here, the outing / security control (S10), door lock panic function locking (S20), individual mode standby power cut off (S30), air connection (corridor light) control (S40), and home (living room) collective off (S50) Functions are functions that are more efficiently and creatively implemented by embodiments of the present invention.

FIG. 13 is an exemplary diagram illustrating a signal flow procedure transmitted and received between the component blocks of FIG. 2. Four vertical lines indicate door locks, integrated switches, network receptacles and wall pads. Codes M1, M2, and M3 shown on the right side of the drawing indicate registration process, security mode execution process, and security mode cancellation process, respectively.

First, if the wall pad receives a security password registration request from ST1, the security condition is provided to the door lock through ST2 and ST3 by checking whether the registration condition is normal at E1. The door lock registers a security password transmitted from the wall pad at E3. Here, the security password may be transmitted to the door lock through the integrated operation switch or directly to the door lock from the wall pad. When the door lock completes the registration of the security password, a security registration confirmation signal is transmitted to the wall pad through ST4 and ST5. Accordingly, the wall pad recognizes that the door lock has stored the security password.

On the other hand, when the network outlet receives the outlet control mode registration request from the ST7, the outlet ID is transmitted to the integrated control switch through the ST8. The integrated operation switch registers the setting mode for each outlet at E5. For example, it is registered in the memory of the integrated operation switch unit that the outlet 1 is an outlet controlled when the standby power is cut off and the outlet 2 is an outlet that is not controlled when the standby power is cut off. When the setting mode is registered, an outlet registration confirmation signal is transmitted to the network outlet via ST9. However, if the case is different, it may be possible to control the polling method by setting the setting mode by each outlet without registering the setting mode.

When the integrated control switch receives the security key input at ST10, a security entry signal is generated at E7, which is sent to the door lock via ST11, and to the network outlet and wall pad via ST12,13. Accordingly, the lights are collectively turned off at E9, the standby power is cut off at E10, the lift is called, the heating and cooling mode is switched off, and the gas valve is shut off at E11. In addition, the door lock is recognized as a security mode from now on when the door is automatically closed after the door is opened within the set time at E8 to lock the panic function and enter the security mode. The door closing signal generated by the automatic closing of the door is transmitted to the integrated operation switch and the wall pad through ST14 and ST15, and the wall pad selectively performs gas leakage detection, entrance door detection, and fuselage monitoring at E12.

Now, when the user enters the house, the door lock release and security password are entered on the ST17 and the door lock performs dual authentication. If the authentication is successful, the door lock is unlocked at E13 to open the door, the panic function is restored, and the security mode is released. If authentication is successful in the door lock, the authentication success signal is transmitted to the integrated control switch through ST18, the integrated control switch turns on the collective light release release and pre-connecting light through E14, and the standby power disconnection signal is networked at ST18. Transfer to the outlet. The network outlet allows power to be reapplied to the outlet disconnected under the control mode setting through E15. The integrated operation switch transmits a security mode release signal to the wall pad at ST20. Accordingly, the wall pad restores the air conditioner to the setting state before the security mode through E16, cancels the sensing operation, and operates in the security password release mode.

In the case of FIG. 13, the authentication of the boam password is performed in the door lock when the security is released. However, the door lock may communicate with the wall pad so that the security password may be authenticated in the wall pad.

FIG. 14 is another exemplary diagram illustrating a signal flow procedure transmitted and received between the building blocks of FIG. 2. In the case of FIG. 14, when the security password is requested to be registered, the wall pad is stored in the door lock without registering the security password in advance in the door lock, and then the security password is transmitted to the door lock after the security entry signal is generated. In this case, the registration process is simplified. In addition, when the door lock is successfully authenticated, the wall pad receives the security release signal through ST14 to perform the operation of E14. The signal flow procedure of FIG. 14 helps to simplify the program of the integrated operation switch unit.

FIG. 15 is a view provided to explain an operation related to registration and authentication of a door lock password and a security password according to an embodiment of the present invention. For example, in a case where "2044" and "4332" are set in the door lock password storage area 15a and the security password storage area 15b, respectively, the external security request signal is input like the first input case IN1. If it is, the door lock release is not possible. This is because the security password does not match. In addition, even when inputted together with the second input case IN2, the door lock is still determined to be an authentication failure and is not released. Because in this case the security password itself is not entered. Lastly, since the door lock password and the security password are both matched when they are input together with the third input case IN3, the door lock release is performed, and the generation front door can be opened.

FIG. 16 is a flowchart illustrating a security mode related operation of the door lock of FIG. 2.

First, step S160 is an initialization step, where an execution operation of resetting various registers and flags in the control unit to an initial state occurs. In step S161 it is checked whether the security mode. If the security mode is not checked in step S162 whether or not to go out mode. In the outing mode, step S164 is executed to perform a normal operation. In this general operation, authentication of the security password does not occur and a normal door lock opening / closing mode is executed. If it is checked in step S161 that the security entry signal is received and is in the security mode, in step S163 the security password is registered. In this case, as shown in FIG. 14, the operation of receiving the security password after the security entry signal is generated is taken as an example. When the door is closed in step S167 after the door is opened in step S165, the panic function is locked in step S168 and the security mode is entered. When the door lock release and security password is received in step S169, and the authentication is successful in step S170, the door open and security mode release occurs in step S171. Step S172 is a step returning to step S160, and step S166, which is not described, is a step of waiting for a set time.

FIG. 17 is a flowchart illustrating a security mode related operation of the integrated operation switch unit of FIG. 2.

After the initialization is performed in step S17, if it is checked in the non-secure mode in step S18 it is checked whether the outing mode in step S19. In the outing mode, step S20 is performed to perform a normal operation. In the security mode, a security entry signal is generated, and in step S21, a batch off and sub-switch control occur and a standby power cutoff signal is generated. In step S22 the security password is transmitted to the door lock. When the release signal is received in step S23 in the security mode entry state, step S24 is performed. In step S24, the standby power is released, the batch is turned off, and the connected light is turned on. On the other hand, step S25 is a return step transitioned after step S17.

FIG. 18 is a flowchart illustrating a security mode related operation of the network outlet circuit of FIG. 2.

Initialization is performed in step S180, the outlet registration request is checked in step S181, and then the control mode is determined in step S182 to step S185. If it is checked in the non-control mode in step S182 it is checked in the non-control mode in step S183. In the case of the non-control mode, since the standby power is not cut off collectively, the normal mode of step S184 is performed. In step S185, the control mode is registered and displayed. When the security entrance signal is received and determined to be the security mode in step S186, step S187 is executed to block standby power for the registered outlet. If the release signal is checked in step S188, the block releasing operation of step S189 occurs. Step S190 is return.

As such, when the control flow of FIG. 18 is performed, even when the plugs of the frequently used electronic devices such as TVs, computers, microwave ovens, and audio are used in the state of being plugged into the outlet, the control mode does not need to be unplugged from the outlet. If set to, the waste of standby power is prevented when entering the security mode or going out mode. In the case of an outlet that needs to be continuously supplied with power, if it is set to the uncontrolled mode, power is always supplied even during security or outing operation.

FIG. 19 is a flowchart illustrating a security mode related operation of a home network device in FIG. 2. In the figure, step S19 is a normal initialization step, and step S20 is a step of checking whether security registration is required. If the security registration is not required, whether or not the outlet registration may be selectively or additionally checked in step S21. If the outlet is not registered, the general operation of step S22 is performed. On the other hand, if the outlet registration is correct, and receives the outlet ID in step S23 and goes to step S26.

On the other hand, if the security registration is correct, in step S24 receives a security password entered by the user. In step S25, the registration condition is successful, and in step S26, an operation for storing in the memory is executed. When the security key is input by the user operating the security pad of the integrated operation switch in step S27, the security password is transmitted to the door lock in step S28, and the elevator, the air conditioner, the gas valve (if necessary), the electric curtain (if necessary) Control is executed. On the other hand, the wall pad may also generate instructions such as standby power and batch extinction. When the door is closed in step S29, the security mode operation is entered to perform gas, door opening, and fuselage detection in step S30. If the release of the security mode is checked in step S31, the recovery control operation to the previous mode is executed in step S32. Step S33 is a step of returning to the next stage of the initialization step (step S19).

Apart from or in addition to the control flow of FIG. 19, even when the user forgets to operate the security pad of the integrated operation switch without going out and goes out, when a specific signal is remotely applied to the home network device by wire or wireless, The door lock, the integrated operation switch unit, and the home network device may be entered into the same security mode as the security mode. In this case, since it motivates the user to set the security mode even after the generation front door is closed, it can be appropriately used when the door lock key is lost or has been switched out for a long time when going out for a while. In step S20 of FIG. 19, the control unit of the home network device receives the security registration request through a communication network such as the Internet or a telephone line, or the security mode when there is a security key input through the communication network in step S27 in the state of security registration. Perform

FIG. 20 is a flow chart illustrating a switching operation of the sub-control switch of FIG. 2. Similarly, step S200 is an initialization step.

In step S201, it is checked whether the light is switched off or in a secure mode. If step S201 is passed, step S202 is executed to collectively turn off the lights. In this case, if the individual switch-on is checked in step S203, the corresponding light is turned on in step S204 by the three-switch function. Step S205 is a step of checking whether the individual switch is off or the light is switched off. If this step passes, an operation of turning off the corresponding light is performed in step S206. S207 is a return step.

According to the integrated management system and control method of the generation section according to the embodiment of the present invention, in addition to the normal lamp turn off, gas valve shut off, electric curtain control, or air conditioner control operation, generation entrance security, door lock panic function locking, standby power by setting mode At least one or more of the individual lighting functions under interruption and collective extinction can be realized.

In the above-described embodiments of the present disclosure, the control operation for the generation convenience function may include a computer readable medium including program instructions for performing operations implemented by various computers. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts.

In the above description, the embodiments of the present invention have been described with reference to the drawings, for example. However, it will be apparent to those skilled in the art that the present invention may be variously modified or changed within the scope of the technical idea of the present invention. . For example, if the matter is different, the authentication of the security password can be performed in any one of the door lock, the wall pad, the door phone, and the integrated operation switch without departing from the technical spirit of the present invention. Can be implemented in other ways than in a number input method. In addition, the communication method through the communication line can be variously changed or changed in addition to the serial communication.

1 is a block diagram of an integrated management system of generations according to an embodiment of the present invention

FIG. 2 is a diagram illustrating a specific connection implementation example of some of the configuration blocks of FIG. 1. FIG.

3 is a view showing a specific implementation example of the integrated operation switch unit of FIG.

4 is a view illustrating a specific implementation of the sub-control switch in FIG. 2;

5 is a view showing a concrete implementation of the network outlet circuit of FIG.

FIG. 6 is a diagram illustrating an embodiment of applying a three-way switch configuration to turn on a light in FIG. 2; FIG.

7 is a view showing an example of the appearance of the operation unit of the integrated operation switch unit of FIG.

8 is a view illustrating an external appearance of a network outlet circuit of FIG. 2;

9 is a view showing an operation relationship of a latch relay for applying power to the outlet of FIG.

10 is a block diagram showing an example of a detailed circuit configuration of the door lock in FIG.

FIG. 11 is a block diagram illustrating a detailed circuit example of a home network device of FIG. 2.

FIG. 12 is a diagram illustrating various management functions of an integrated management system for generations of FIG. 1 according to operation modes.

FIG. 13 is an exemplary view illustrating a signal flow procedure transmitted and received between component blocks of FIG. 2. FIG.

FIG. 14 is another exemplary diagram illustrating a signal flow procedure transmitted and received between component blocks of FIG. 2. FIG.

FIG. 15 is a view provided to explain an operation related to registration and authentication of a door lock password and a security password according to an embodiment of the present invention; FIG.

16 is a flow chart illustrating a security mode related operation of the door lock shown in FIG.

17 is a flow chart illustrating an operation mode related to the security mode of the integrated operation switch of FIG.

FIG. 18 is a flowchart illustrating a security mode related operation of a network outlet circuit of FIG. 2.

19 is a flow chart illustrating a security mode related operation of a home network device in FIG. 2.

20 is a flow chart illustrating a switching operation of a sub-control switch of FIG. 2.

Claims (26)

A home network device having a security password setting function; It has a normal opening and closing mode for opening the household door in response to the door opening request of the self-set method, and after the security entrance signal is received, the door opening request is passed, as well as the security release request signal input from outside the household. A door lock having a security opening / closing mode for opening the household door if the security password is set in the home network device; Has a batch off function for controlling batch extinguishing for all lamps to be extinguished corresponding to the circuit breaker of the household, connected to the home network device and the door lock via a communication line, and applied by an input within the household And an integrated operation switch unit for generating the security entry signal for setting the security opening / closing mode of the door lock in response to the request of the security mode. The method of claim 1, And the door lock receives the security password set in the home network device and registers it in an internal storage unit after or before the security entrance signal is received. The method of claim 1, And the door lock further performs authentication for the security release request signal after authentication of the door opening request is successful in the security opening / closing mode. The method of claim 1, And the door lock preferentially performs the authentication for the security release request signal in the security opening / closing mode, and further performs authentication for the door opening request upon successful authentication. The method of claim 1, The door lock is a generation convenience, characterized in that when receiving the security entry signal in order to strengthen the security against external intrusion lock the panic function that the door is opened immediately by the handle operation inside the household in the locked state of the door lock Integrated management system. The method of claim 1, The home network device directly transmits the set security password to the door lock or indirectly through the integrated operation switch unit to open the household door, or performs authentication for comparing the security release request signal with the security password. Generation management system, characterized in that the operation is performed directly. The method of claim 1, And said home network device performs at least one of gas valve shut-off, air conditioner out mode switching, fuselage monitoring, electric curtain control, and door opening monitoring in response to said security entry signal. The method of claim 1, The integrated operation switch unit controls the collective extinguishing of the lamps to be extinguished after generating the security entrance signal, and the standby power blocking function for each setting mode is performed by the network outlet unit. system. The method of claim 1, The security lock mode is executed in the door lock once the security mode is terminated, in response to the need for room lighting is automatically turned on for a predetermined time, characterized in that the generation further comprises a lamp connected to the integrated operation switch unit Convenient integrated management system. A home network device having a security password setting function and a telecommunication function, the home network device generating a security entry signal by the telecommunication; It has a normal opening and closing mode for opening the household door in response to the door opening request of the self-set method, and after the security entrance signal is received from the home network device, the door opening request is passed, as well as security input from the outside. A door lock having a security opening / closing mode for opening the household door if the cancellation request signal matches the security password set in the home network device; An integrated operation for generating the security entry signal for setting the security opening / closing mode of the door lock even if the security mode is connected to the home network device and the door lock through a communication line and is requested by an input in a household; Generation management system, characterized in that the switch unit provided. In household installations: A security entrance signal generation unit generating a security entrance signal when a request for the security mode is detected according to an input inside the household, and applying the security entrance signal to at least one of a home network device and a door lock through a communication line; A batch extinction execution unit for controlling batch extinction for the extinguishing target extinction lamps connected to the circuit breakers of the generation in response to the generation of the security entry signal; And an integrated operation switch unit including the collective extinction canceling execution unit for canceling the collective extinction in response to the termination of the security mode to return the collective extinguishing target lamps to the lit state prior to the collective extinction state. Generation device characterized in that the installation. The method of claim 11 wherein: The request of the security mode is a generation device, characterized in that detected when the operation pad provided in the vicinity of the generation door is operated. The method of claim 12 wherein: Discontinuance of the batch light is performed when an introductory signal is applied from the door lock or the home network device without the operation pad being operated. In household installations: An outlet connected via a latch relay to a circuit breaker into which generation power is input; A standby power cutoff selection setting unit capable of setting, by external operation, a control mode for blocking standby power consumed by the load of the outlet when the cutoff control signal is applied and a non-control mode for stopping standby power; ; When the cutoff control signal is applied through a communication line, the standby power cutoff execution unit drives the latch relay to prevent the power supply of the circuit breaker from being applied to the outlet only when the setting of the standby power cutoff selection setting unit is a control mode. Wow; When the interrupt recovery control signal corresponding to the interruption control signal is applied through the communication line, the latch relay is driven to supply power to the circuit breaker only when the standby power interruption selection setting unit is in a control mode. And a network outlet including the standby power cut-off recovery unit to be applied as the generation installation device. The method of claim 14 wherein: And the cutoff control signal is applied by RS 485 communication method when executing a batch extinction operation. 16. The operation of claim 15, wherein the network outlet is configured to change the operation from the control mode state to the uncontrolled mode state through the interruption selection setting unit even during a standby power interruption operation in which power of the circuit breaker is not applied to the outlet. Generation installation device, characterized in that if the standby power is restored if there is. 16. The apparatus as claimed in claim 15, wherein a plurality of network outlets are installed in different places within the household, and are connected to the communication lines in a separate manner, and are separately connected to different circuit breakers. 15. The apparatus as claimed in claim 14, wherein the network outlet is implemented as an integrated assembly or a separate assembly and installed as a wall-mounted type within a household. In household installations: A security entry signal generation unit generating a security entry signal when a request for the security mode is detected according to an input inside the household, and applying the security entry signal to at least one of a home network device and a door lock through a communication line; A batch extinguishing unit for controlling batch extinguishing of the batch extinguishing target lamps correspondingly connected to the circuit breaker of the generation in response to the generation; and canceling the batch extinction in response to the termination of the security mode; An integrated operation switch unit including a batch extinction canceling execution unit for causing the lamps to return to the lit state prior to the collective extinction state; In response to the collective extinguishing request or external operation of the integrated operation switch unit, the extinguished lights are collectively turned off for the lights to be turned off, and the individual switches of any of the lights to be turned off are operated even when the lights to be turned off are collectively turned off. And a sub-control switch unit as said generation installation device, in which case only the operated lamp is individually turned on. The method of claim 19, And the sub control switch unit further comprises a remote control input unit which performs the batch extinction in response to a radio signal applied from the outside. The method of claim 19, wherein the sub control switch unit, A DC power generating unit generating DC power from commercial power applied through the circuit breaker; An operation unit which generates a switching signal by an external press or touch; A relay for switching power to the other phase of the circuit breaker with respect to a light directly connected to the circuit breaker through a power line of one phase; A communication module for receiving the batch extinction request; The relay is driven upon the request for the extinguishing of the batch or the reception of the switching signal so that the extinguishing of the lamps is performed and the lamps are turned off individually in response to an operation of the individual operation switch connected to the lamp. Generation installation device characterized in that it comprises a relay control unit. In household installations: A digital door lock having a normal mode for opening and closing the entrance door of a household using a card key or a password, and a security mode for opening and closing the entrance door for a household after the security password is additionally authenticated; A home network device for outputting an authentication result signal comparing the security password with the security release request signal received when the authentication request is received from the digital door lock in the security mode after setting the security password to the digital door lock; The generation installation device is provided with an integrated operation switch which allows the security mode to be entered by pressing / touching in a household or by a remote control and is connected to the home network device in the security mode or the outing mode to control batch extinction. Generation device characterized in that. 23. The apparatus as claimed in claim 22, wherein the digital door lock opens the household entrance door when the authentication result signal is successful after the card key or password match in the security mode. delete 23. The apparatus of claim 22, wherein when the security mode is entered by the integrated control switch, the network outlet unit cuts off standby power for only the outlets set by the user, and performs a shut down recovery operation during the opening operation of the digital door lock. Generation device, characterized in that further provided. In the method of performing household operation in a household management system, in which a home network device, a door lock, and an integrated operation switch communicate with each other through a communication line: Setting a secure password through the home network device; If the operation operation of the integrated operation switch input inside the household is set to a security operation, placing the generation controller in a security mode, shutting off standby power only to the outlets set by the user, and turning off the lamps collectively; Requesting to unlock the door lock in the secure operation state so that the household door is opened only when self-authentication of the door lock succeeds and the security password is authenticated; And releasing the security mode, restoring the collective lights out of the lamps, and releasing standby power to the standby power cut-off outlets when the household door is opened.

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