WO2016188113A1 - Procédé, appareil et système de commande d'alimentation électrique d'intérieur - Google Patents

Procédé, appareil et système de commande d'alimentation électrique d'intérieur Download PDF

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Publication number
WO2016188113A1
WO2016188113A1 PCT/CN2015/099865 CN2015099865W WO2016188113A1 WO 2016188113 A1 WO2016188113 A1 WO 2016188113A1 CN 2015099865 W CN2015099865 W CN 2015099865W WO 2016188113 A1 WO2016188113 A1 WO 2016188113A1
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WIPO (PCT)
Prior art keywords
indoor
state
power
monitoring device
door lock
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PCT/CN2015/099865
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English (en)
Chinese (zh)
Inventor
张泽
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张泽
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Publication of WO2016188113A1 publication Critical patent/WO2016188113A1/fr

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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/04Programme control other than numerical control, i.e. in sequence controllers or logic controllers
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems

Definitions

  • the present invention relates to the field of power supply control, and in particular to an indoor power control method, apparatus, and system.
  • the power card to turn on the power
  • the customer opens the card at the front desk before the check-in.
  • the door card is inserted into the power-receiving box.
  • the power-box detects the door card, the room power is turned on.
  • the room card is taken out of the power take-off box, and at this time, the room power is cut off.
  • the existing power-receiving boxes are also of different types. Some of the power-taking boxes are simple in structure, and any card can be put into power to obtain power. If the user inserts a card such as an abandoned business card into the power-taking box to take power, he can leave the room.
  • the main object of the present invention is to provide an indoor power control method, apparatus and system to solve the problem of inconvenient power control in the prior art.
  • an indoor power source control method includes: the indoor monitoring device performs detection to obtain a detection result; the indoor monitoring device obtains an indoor state according to the detection result, and the indoor state includes: an indoor state and an indoor unmanned state, wherein the indoor indoor The state of the person indicates that there is a person in the room, and the indoor unmanned state indicates that the indoor room is unmanned; and if the indoor monitoring device determines that the indoor state changes from the indoor unmanned state to the indoor manned state, controlling the indoor power source to be turned on; When the indoor monitoring device determines that the indoor state changes from the indoor state to the indoor unmanned state, the power of the indoor is controlled to be turned off.
  • the indoor monitoring device includes a smart door lock having an unlocking and anti-lock monitoring function.
  • the step of detecting the detection result by the indoor monitoring device includes: the smart door lock detects the unlocking action of the user and the action of the user unlocking, and obtains the detection result, wherein the detection result comprises: successfully unlocking from the outdoor Destroking from indoors and unlocking from the outside; the step of obtaining, by the indoor monitoring device, the indoor state according to the detection result includes: if the detection result of the smart door lock is successfully unlocked from the outdoor or locked from the indoor, the indoor is determined The state is the above-mentioned indoor state; if the detection result of the smart door lock is to lock from the outdoor, it is determined that the indoor state is the indoor unmanned state.
  • the indoor monitoring device further includes at least one of the following: an infrared detector, a surveillance camera, a Bluetooth device, and a WIFI positioning device.
  • controlling the power-on of the indoor room comprises: uploading information about successful unlocking to a server or an Internet of Things intelligent gateway; and the server or the Internet of Things intelligent gateway sends a power-on command to control power-on of the indoor room.
  • the indoor monitoring device includes at least one of the following: an infrared detector, a surveillance camera, a Bluetooth device, a WIFI positioning device, and an anti-lock detector.
  • the indoor monitoring device is an infrared detector
  • the infrared detector continues to work, and when the infrared light emitted by the human body is detected, the indoor state is determined to be a human state, and when the infrared light emitted by the human body cannot be detected, the indoor state is determined to be Human status.
  • the indoor monitoring device is a surveillance camera
  • the surveillance camera continuously acquires the indoor image and runs the human body recognition algorithm.
  • the indoor state is determined to be a human state
  • the indoor state is determined to be no. Human status.
  • the Bluetooth device detects the Bluetooth signal of the user's mobile phone, can detect the Bluetooth signal of the user's mobile phone, determines that the indoor state is a human state, and determines the indoor when the user's mobile phone Bluetooth signal cannot be detected.
  • the status is unmanned.
  • the indoor monitoring device is a Bluetooth positioning device or a WIFI positioning device
  • the user's mobile phone is positioned by the Bluetooth positioning device or the WIFI positioning device, and if the location of the user's mobile phone is determined to be within the indoor range, the indoor state is determined to be a human state. If it is determined that the user's mobile phone location is not indoors or the Bluetooth or WIFI signal of the user's mobile phone cannot be detected, it is determined that the indoor state is unmanned.
  • the results of different monitoring devices have different priorities.
  • an indoor power source control device includes: a detecting unit configured to perform detection to obtain a detection result; a first determining unit, configured to obtain the indoor state according to the foregoing detection result, where the first control unit is configured to control the power on of the indoor device if it is determined that the indoor state changes from the indoor unmanned state to the indoor human state And if it is determined that the indoor state changes from the indoor state to the indoor unmanned state, the power of the indoor is controlled to be turned off.
  • the detecting unit includes: a detecting module, configured to enable the smart door lock to detect a user unlocking action and the user unlocking action, and obtain the foregoing detecting result, wherein the detecting result comprises: successfully unlocking from the outdoor
  • the first judging unit includes: a determining module, configured to: if the smart door lock is successfully unlocked from the outdoor or locked from the indoor, determining that the indoor state is the indoor state; if the smart When the door lock is unlocked from the outside, it is determined that the indoor state is the above-mentioned indoor unmanned state.
  • the first control unit includes: an uploading module, configured to upload information about successful unlocking to the server or the Internet of Things intelligent gateway; and a sending module, configured to enable the server or the Internet of Things intelligent gateway to send a power-on command to control the power of the indoor Open.
  • an indoor power supply control system includes: a power switch for turning on or off the power; an indoor monitoring device for detecting, obtaining a detection result, and obtaining the indoor state according to the detection result, wherein the indoor state includes indoor a person state and an indoor unmanned state, wherein the indoor state indicates that the indoor person is present, and the indoor unmanned state indicates that the indoor person is not present, and if the indoor monitoring device determines that the indoor state changes from the indoor unmanned state to the indoor human state And controlling the power switch to be turned on to turn on the power; if the indoor monitoring device determines that the indoor state changes from the indoor state to the indoor unmanned state, controlling the power switch to turn off to turn off the power.
  • the indoor monitoring device includes a smart door lock having an unlocking and anti-lock monitoring function.
  • the indoor monitoring device includes at least one of the following: an infrared detector, a surveillance camera, a Bluetooth device, a WIFI positioning device, and an anti-lock detector.
  • the indoor power control system further includes: a smart door lock, configured to send information indicating that the smart door lock is unlocked successfully when the unlocking is successful; the server or the Internet of Things intelligent gateway, the server or the above-mentioned Internet of Things intelligent gateway Receiving the information sent by the smart door lock, and sending a control command to the power switch according to the information sent by the smart door lock, wherein the control command is used to control the power switch to be closed; or the server or the above-mentioned Internet of Things intelligent gateway is used for Receiving the detection result sent by the indoor monitoring device, and controlling the power switch to be closed or disconnected according to the detection result.
  • a smart door lock configured to send information indicating that the smart door lock is unlocked successfully when the unlocking is successful
  • the server or the Internet of Things intelligent gateway configured to send information indicating that the smart door lock is unlocked successfully when the unlocking is successful
  • the server or the Internet of Things intelligent gateway configured to send information indicating that the smart door lock is unlocked successfully when the unlocking is successful
  • the detection result is obtained by the indoor monitoring device, and the indoor monitoring device obtains the indoor state according to the detection result, and the indoor state includes: an indoor state and an indoor unmanned state, wherein the room The inside state indicates that there is a person in the room, and the indoor unmanned state indicates that there is no one in the room; if the indoor monitoring device determines that the indoor state changes from the indoor unmanned state to the indoor human state, the control room power is turned on; and if the indoor monitoring device determines the indoor The state changes from the indoor state to the indoor unmanned state, and the power supply in the control room is turned off, which solves the problem that the power control is inconvenient in the prior art, and achieves the convenient effect of the indoor power control.
  • FIG. 1 is a flow chart of an indoor power source control method according to an embodiment of the present invention.
  • FIG. 2 is a schematic diagram of an indoor power control device according to an embodiment of the present invention.
  • FIG. 3 is a schematic diagram of an indoor power control system in accordance with an embodiment of the present invention.
  • Embodiments of the present invention provide an indoor power management method.
  • the indoor power control method includes the following steps:
  • step S102 the indoor monitoring device performs detection to obtain a detection result.
  • the indoors of the embodiments of the present invention may be corridors, stairwells, hotel rooms, apartment rooms, etc., wherein the indoor monitoring equipment may be disposed in an indoor place without a smart door lock device in a corridor or a stairwell, or Set up in an indoor room with a smart door lock in a hotel room or apartment room.
  • the indoor monitoring device obtains the indoor state according to the detection result.
  • the indoor state includes: indoor state and indoor unmanned state, wherein the indoor state indicates that there is someone in the room, and the indoor unmanned state indicates that there is no one in the room.
  • step S106 if the indoor monitoring device determines that the indoor state changes from the indoor unmanned state to the indoor human state, the power in the control room is turned on.
  • step S108 if the indoor monitoring device determines that the indoor state changes from the indoor state to the indoor unmanned state, the power in the control room is turned off.
  • the power source in the room may be the power source of the indoor electrical equipment (for example, lights, air conditioners, televisions, etc.), and the power supply in the room may be controlled by closing the power switch; the power supply in the room is controlled to be turned off by turning off the power switch.
  • the indoor electrical equipment for example, lights, air conditioners, televisions, etc.
  • the indoor monitoring device in the embodiment of the present invention may keep the working state continuously, and continuously detect the indoor state of the person or the unmanned person.
  • the power control is turned on or off, and the indoor monitoring device monitors the room state, and the room state. When changing, it controls the action of turning the power on or off.
  • the indoor monitoring device detects that the user enters the hotel room
  • the power of the hotel room is controlled to be turned on.
  • the electric lights, televisions, air conditioners, and the like in the room can be powered on. If the user is detected to leave the hotel room, Then the control room power is turned off, and the home appliance in the room is powered off.
  • the indoor monitoring device detects the indoor state to control the indoor power source to be turned on or off, thereby solving the problem that the power supply control is inconvenient in the prior art, and the effect of conveniently controlling the indoor power source is achieved, and further, if
  • the embodiment of the present invention in a hotel room, the power can be taken without using a room card to insert the power box, thereby achieving the effect of conveniently and quickly controlling the indoor power source, and automatically turning off the power after the person leaves the room. The effect of saving energy.
  • the embodiments of the present invention can also be applied to indoor places such as homes, school dormitories, or factory dormitories.
  • the indoor monitoring device includes a smart door lock having an unlocking and anti-lock monitoring function. That is, the smart door lock with unlocking and anti-lock monitoring functions can be used to detect the indoor state and control the power supply.
  • the indoor monitoring device performs the detection, and the step of obtaining the detection result comprises: the smart door lock detects the user unlocking action and the user anti-locking action, and obtains the detection result, wherein the detection result comprises: successfully unlocking from the outdoor, and from the indoor Performing anti-locking and anti-locking from the outside; the step of the indoor monitoring device obtaining the indoor state according to the detection result includes: if the detection result of the smart door lock is successfully unlocked from the outdoor or reversed from the indoor The lock determines that the indoor state is an indoor state; if the smart door lock detects that the lock is from the outdoor, the indoor state is determined to be an indoor unmanned state.
  • the user When the user needs to enter the room, he can use the door card, ID card, key, password, fingerprint, iris, vein image, voiceprint, face recognition, authorized mobile phone to verify, and unlock the lock stored in the smart door lock. If the information verification is consistent, it is judged that the lock is successfully unlocked from the outdoor use authorization; if the user uses the anti-lock knob or the anti-lock chain to unlock from the inside, and touches the anti-lock knob or the micro-switch on the anti-lock chain, it is judged to be unlocked from the room; the user leaves the room, Use the handle to reverse lock or use the key to reverse lock the lock on the smart door lock from the outside, and touch the micro switch at the outer handle or key hole to judge the lock from the outside.
  • the smart door lock can also be unlocked from the outside by lifting the outer door handle, or can be unlocked from the room through the anti-lock knob. The invention does not limit the way of locking.
  • the smart door lock can be used to detect the indoor state, and when it is determined that the indoor state changes, for example, if the user successfully unlocks, the indoor state is changed from no one to a person, and the user locks indoors and considers the indoor The state changes from no one to someone, and the user locks from the outside and thinks that the indoor state changes from someone to no one.
  • the indoor monitoring device may not be a smart door lock, but may be used in combination with the smart door lock to control the indoor power source. Specifically, the indoor monitoring device detects the smart door lock to determine whether there is someone in the room. When detecting that the smart door lock is unlocked from the outside, it is considered that there is someone in the room, and the control room power is turned on; if the smart door lock is unlocked, it is considered No one is indoors, and the power supply can be turned off by default without control.
  • the indoor monitoring equipment and intelligent door locks to control the opening and closing of the power supply, the timeliness of the control of the power supply in the room is ensured.
  • the indoor monitoring device can determine whether the smart door lock is unlocked. For example, if the smart door lock is unlocked, the smart door lock sends an unlock signal to the indoor monitoring device, and the indoor monitoring device receives After the signal is sent, the control room power is turned on. In this case, the indoor monitoring equipment is not powered by the indoor power supply.
  • the indoor monitoring device can be powered by the indoor power source, that is, the indoor monitoring device starts working after the indoor power is turned on.
  • the power switch is turned on. Especially in the case of the hotel room, the customer swipes the room card or loses the password to open the door, that is, the customer needs to go back to the room. At this time, the default room is in the state of the person, the power is turned on, the indoor monitoring device is activated, and if the customer does not enter the room after opening the door or In the case of leaving soon, the indoor monitoring equipment monitors the power and then turns off the power.
  • the power of the control room can be turned on to upload the information of the successful unlocking to the server or the IoT intelligent gateway, and the server or the IoT intelligent gateway sends the power-on command to control the power of the room to be turned on.
  • the unlocking can be performed through the wireless network.
  • the function information is sent to the server, and the server turns on the power by controlling the power switch to close.
  • the indoor monitoring device does not detect a person in the room, it can send the state information of the unmanned person to the server, and the server controls the power switch to turn off after the preset time period to turn off the power.
  • the power-on command is sent by using a wired or wireless manner to enable the indoor power source.
  • the power switch can be controlled by short-range wireless communication, for example, using low-power Bluetooth, Zigbee, WIFI, etc. to connect the smart door lock, the power switch, and the indoor monitoring device, and the user can input through
  • the mobile phone sends the door open command, the ID card or the door card is swiped, the smart door lock directly sends a power-on control command to the power switch through the wireless communication mode.
  • the indoor monitoring device starts to run.
  • the indoor monitoring device When the indoor monitoring device does not detect a person in the room for a continuous period of time, it can send a control command to turn off the power to the power switch through wireless communication, and at the same time, the power of the indoor monitoring device is also controlled by the power switch, after the power is cut off The indoor monitoring equipment will also stop running.
  • the Internet of Things intelligent gateway can implement the above wireless communication mode.
  • Intelligent door locks, power switches and indoor monitoring devices are connected through the IoT intelligent gateway.
  • the IoT intelligent gateway is compatible with different wireless connection methods, such as Bluetooth, Zigbee, WIFI, 433Mhz wireless, 900Mhz wireless, 2.4G and other different connections. the way.
  • the smart door lock can be powered by a battery.
  • the power can be controlled by using 433Mhz or low-power Bluetooth wireless communication mode; since the indoor monitoring equipment and the power switch are generally powered by alternating current, there is no need to consider power saving.
  • the problem is that the power can be controlled by WIFI or Zigbee wireless communication.
  • the IoT intelligent gateway can be used to easily and flexibly set the wireless connection between the smart door lock, the power switch and the indoor monitoring device.
  • the foregoing indoor monitoring device includes at least one of the following: a smart door lock, an infrared detector, a surveillance camera, a Bluetooth device, a WIFI positioning device, and an anti-lock detector.
  • the indoor monitoring device may be a smart door lock, which has been described in the above embodiments, and details are not described herein.
  • the indoor monitoring device can be an infrared detector, and the infrared detector can detect whether there is someone in the room by detecting infrared rays emitted by the human body.
  • the indoor monitoring device is an infrared detector
  • the infrared detector continues to work, and when the infrared rays emitted by the human body can be detected, the indoor state is determined to be a human state, and when the infrared rays emitted by the human body cannot be detected, the indoor state is determined to be an unmanned state.
  • the indoor monitoring device can also be a surveillance camera, and the surveillance camera sends the collected video information to the image processing server, and the image processing server determines whether there is someone in the room through the human body detection algorithm.
  • the indoor monitoring device is a surveillance camera
  • the surveillance camera continuously acquires the indoor image and runs the human body recognition algorithm.
  • the indoor state is determined to be a human state
  • the indoor state is determined to be an unmanned state.
  • the indoor monitoring device may also be a Bluetooth device, the signal of which covers the entire room, and the Bluetooth device can detect whether there is a person in the room by detecting the user's mobile phone or the wearable device. For example, when the Bluetooth signal of the user's mobile phone or the wearable device is detected, it is determined that there is someone in the room; when the Bluetooth signal of the mobile phone for the mobile phone cannot be detected, it is determined that there is no one in the room.
  • the indoor monitoring device is a Bluetooth device
  • the Bluetooth device detects the Bluetooth signal of the user's mobile phone, can detect the Bluetooth signal of the user's mobile phone, determines that the indoor state is a human state, and cannot determine the indoor state as an unmanned state when the user's mobile phone Bluetooth signal cannot be detected. .
  • the Bluetooth device may be a Bluetooth positioning device, and the Bluetooth positioning device determines the location of the user in the room by positioning the user's mobile phone or the wearable device.
  • multiple Bluetooth base stations may be set indoors, and the plurality of base stations are accurately The user is positioned to determine whether the user's location is indoors or outdoors. When it is judged that it is outdoors, it can be determined that there is no one in the room, and it is not necessary to wait until the user's mobile phone cannot be detected.
  • the Bluetooth positioning device locates the user's wearable device to determine the location of the user indoors, wherein the wearable device may be a smart bracelet on the user, a smart watch, google glasses, or the like.
  • the indoor monitoring device can also be a WIFI positioning device, and the user's mobile phone that opens the WIFI function is positioned by the difference of the signal strengths of multiple WIFI hotspots in the room, thereby determining the location of the user.
  • the indoor monitoring device is a Bluetooth positioning device or a WIFI positioning device
  • the user's mobile phone is positioned by a Bluetooth positioning device or a WIFI positioning device. If it is determined that the location of the user's mobile phone is located indoors, the indoor state is determined to be a human state, and if the user's mobile phone location is determined If the Bluetooth or WIFI signal of the user's mobile phone is not detected indoors or is not detected, the indoor status is determined to be unmanned.
  • the indoor monitoring device may be a plurality of the above devices.
  • different power control strategies can be set. For example, when multiple indoor monitoring devices simultaneously determine that there is no one in the room, the power can be turned off; or when there is an indoor monitoring device to determine that there is no indoor At the same time, the power can be turned off; in addition, different indoor monitoring devices can be set with different priorities, for example, when the anti-lock detector detects the smart door lock anti-lock, regardless of the results of other indoor monitoring devices detecting human body information, It is determined that there is a person in the room; for example, when the indoor monitoring device includes both the smart door lock and other monitoring devices, if the door lock action is detected, the indoor state represented by the door lock action has the highest priority, and the detection result is the final result.
  • the detection result of other monitoring equipment is taken as the final result; when the door lock is not included, if only the infrared detector and the Bluetooth positioning device are included, the detection result of the infrared detector is taken as the final result.
  • the indoor monitoring device may also be an anti-lock detector.
  • the anti-lock detector detects that the smart door lock is locked in the room, it is determined that there is someone in the room.
  • the anti-lock detector can also remind the user to lock the door after the door to improve safety.
  • the anti-lock detector may be a detector installed at a bolt position in the door frame, or may be a micro switch at an indoor anti-lock switch.
  • the foregoing indoor monitoring device may also be an anti-lock detector, and indoor monitoring The device determines whether someone is included in the room according to the detection result: the anti-lock detector determines whether there is someone in the room by detecting whether the smart door lock is locked from the indoor, wherein if the smart door lock is locked from the indoor, it is determined that there is someone in the room.
  • the embodiment of the invention also provides an indoor power control device.
  • the device can be functionalized by an indoor monitoring device.
  • the indoor power supply control device of the embodiment of the present invention may be used to perform the indoor power supply control method provided by the embodiment of the present invention.
  • the indoor power supply control method according to the embodiment of the present invention may also be provided by the indoor embodiment provided by the embodiment of the present invention.
  • the power control device is executed.
  • the indoor power control device includes a detecting unit 10, a first determining unit 20, and a first control unit 30.
  • the detecting unit 10 is configured to perform detection to obtain a detection result.
  • the indoors of the embodiments of the present invention may be corridors, stairwells, hotel rooms, apartment rooms, etc., wherein the indoor power control device may be disposed in an indoor place without a smart door lock device in a corridor or a stairwell. It can be set up in an indoor room with a smart door lock in a hotel room or apartment room.
  • the first determining unit 20 is configured to determine, according to the detection result, the indoor state according to the detection result, wherein the indoor state includes an indoor human state and an indoor unmanned state, the indoor human state indicates that there is a person in the room, and the indoor unmanned state indicates that the indoor is unmanned.
  • the first control unit 30 is configured to control the power of the room to be turned on if it is determined that the indoor state changes from the indoor unmanned state to the indoor human state; and if it is determined that the indoor state changes from the indoor state to the indoor unmanned state, the control room is controlled. The power is off.
  • the power source in the room may be the power source of the indoor electrical equipment (for example, lights, air conditioners, televisions, etc.), and the power supply in the room may be controlled by closing the power switch; the power supply in the room is controlled to be turned off by turning off the power switch.
  • the indoor electrical equipment for example, lights, air conditioners, televisions, etc.
  • the indoor monitoring device in the embodiment of the present invention may keep the working state continuously, and continuously detect the indoor state of the person or the unmanned person.
  • the power control is turned on or off, and the indoor monitoring device monitors the room state, and the room state. When changing, it controls the action of turning the power on or off.
  • the indoor monitoring device detects that the user enters the hotel room
  • the power of the hotel room is controlled to be turned on.
  • the electric lights, televisions, air conditioners, and the like in the room can be powered on. If the user is detected to leave the hotel room, Then the control room power is turned off, and the home appliance in the room is powered off.
  • the indoor monitoring device detects the indoor state to control the indoor power source to be turned on or off, thereby solving the problem that the power supply control is inconvenient in the prior art, and the effect of conveniently controlling the indoor power source is achieved, and further, if
  • the embodiment of the present invention in a hotel room, the power can be taken without using a room card to insert the power box, thereby achieving the effect of conveniently and quickly controlling the indoor power source, and automatically turning off the power after the person leaves the room. The effect of saving energy.
  • the embodiment of the present invention can also be applied to the home. In indoor venues such as courts, school dormitories or factory dormitories.
  • the indoor monitoring device includes a smart door lock having an unlocking and anti-lock monitoring function. That is, the smart door lock with unlocking and anti-lock monitoring functions can be used to detect the indoor state and control the power supply.
  • the detecting unit includes: a detecting module, configured to enable the smart door lock to detect a user unlocking action and the user unlocking action, and obtain the foregoing detecting result, wherein the detecting result comprises: successfully unlocking from the outdoor, Determining from the indoor and locking from the outside; the first determining unit includes: a determining module, configured to determine that the indoor state is the indoor state if the smart door lock is successfully unlocked from the outdoor or locked from the indoor; When the smart door lock is unlocked from the outdoor, it is determined that the indoor state is the above-mentioned indoor unmanned state.
  • the user When the user needs to enter the room, he can use the door card, ID card, key, password, fingerprint, iris, vein image, voiceprint, face recognition, authorized mobile phone to verify, and unlock the lock stored in the smart door lock. If the information verification is consistent, it is judged that the lock is successfully unlocked from the outdoor use authorization; if the user uses the anti-lock knob or the anti-lock chain to unlock from the inside, and touches the anti-lock knob or the micro-switch on the anti-lock chain, it is judged to be unlocked from the room; the user leaves the room, Use the handle to reverse lock or use the key to reverse lock the lock on the smart door lock from the outside, and touch the micro switch at the outer handle or key hole to judge the lock from the outside.
  • the smart door lock can also be unlocked from the outside by lifting the outer door handle, or can be unlocked from the room through the anti-lock knob. The invention does not limit the way of locking.
  • the smart door lock can be used to detect the indoor state, and when it is determined that the indoor state changes, for example, if the user successfully unlocks, the indoor state is changed from no one to a person, and the user locks indoors and considers the indoor The state changes from no one to someone, and the user locks from the outside and thinks that the indoor state changes from someone to no one.
  • the indoor monitoring device may not be a smart door lock, but may be used in combination with the smart door lock to control the indoor power source. Specifically, the indoor monitoring device detects the smart door lock to determine whether there is someone in the room. When detecting that the smart door lock is unlocked from the outside, it is considered that there is someone in the room, and the control room power is turned on; if the smart door lock is unlocked, it is considered No one is indoors, and the power supply can be turned off by default without control.
  • the indoor monitoring equipment and intelligent door locks to control the opening and closing of the power supply, the timeliness of the control of the power supply in the room is ensured.
  • the indoor power control device may further include: a second determining unit and a second control unit.
  • the second judging unit is configured to determine whether to unlock the smart door lock from outside before detecting the human body and obtaining the detection result.
  • the second control unit is configured to control the power of the room to be turned on if it is determined that the smart door lock is unlocked from the outside.
  • the smart door lock may be Directly control the power of the room to turn on.
  • the indoor monitoring device can determine whether the smart door lock is unlocked. For example, if the smart door lock is unlocked, the smart door lock sends an unlock signal to the indoor monitoring device, and the indoor monitoring device controls the indoor power to be turned on after receiving the signal. In this case, the indoor monitoring equipment is not powered by the indoor power supply.
  • the indoor monitoring device can be powered by the indoor power source, that is, the indoor monitoring device starts working after the indoor power is turned on.
  • the power switch is turned on. Especially in the case of the hotel room, the customer swipes the room card or loses the password to open the door, that is, the customer needs to go back to the room. At this time, the default room is in the state of the person, the power is turned on, the indoor monitoring device is activated, and if the customer does not enter the room after opening the door or In the case of leaving soon, the indoor monitoring equipment monitors the power and then turns off the power.
  • the smart door lock can actually act as an indoor monitoring device, but it can only identify the situation of people in the room (detecting that the outdoor door is opened, the indoor anti-lock is defaulted to the inside of the room), the existing hotel door lock cannot pass the door and the lock The state recognizes that there is no one in the room, so in the actual application, other indoor monitoring equipment can be added to make the determination of no one in the room.
  • the first control unit may include: an uploading module, configured to upload information about successful unlocking to the server or the Internet of Things intelligent gateway; and a sending module, configured to enable the server or the Internet of Things intelligent gateway to send a power-on command to control the power of the room to be turned on. .
  • the unlocking success information can be sent to the server through the wireless network, and the server turns on the power by controlling the power switch to be closed.
  • the indoor monitoring device does not detect a person in the room, it can send the state information of the unmanned person to the server, and the server controls the power switch to turn off after the preset time period to turn off the power.
  • the power-on command is sent by using a wired or wireless manner to enable the indoor power source.
  • the power switch can also be controlled by means of short-range wireless communication, for example, using a low-power Bluetooth, Zigbee, WIFI, etc. to connect the door lock, the power switch, the indoor power control device, and the user can input the password.
  • short-range wireless communication for example, using a low-power Bluetooth, Zigbee, WIFI, etc. to connect the door lock, the power switch, the indoor power control device, and the user can input the password.
  • the detecting unit 10 When the detecting unit 10 does not detect a person in the room for a continuous period of time, it can send a control command for turning off the power to the power switch by wireless communication, and the power of the indoor power control device is also controlled by the power switch, after the power is cut off.
  • the indoor power control unit will also stop running.
  • the above wireless communication method can be implemented by the Internet of Things intelligent gateway.
  • the intelligent door lock, power switch and indoor power control device are connected through the IoT intelligent gateway.
  • the IoT intelligent gateway is compatible with different wireless connection methods, such as Bluetooth, Zigbee, WIFI, 433Mhz wireless, 900Mhz wireless, 2.4G, etc. Even Connection method.
  • the smart door lock can be powered by a battery.
  • the power can be controlled by 433Mhz or low-power Bluetooth wireless communication mode; since the indoor power control device and the power switch are generally powered by alternating current, there is no need to consider the province.
  • the electrical problem, in this way, can be controlled by WIFI or Zigbee wireless communication.
  • the IoT Smart Gateway provides convenient and flexible way to set the wireless connection between the door lock, the power switch and the indoor power control unit.
  • the embodiment of the invention also provides an indoor power control system.
  • the system can be used to implement the above-described indoor power control method of the embodiment of the present invention, and is used to implement the indoor power control device of the embodiment of the present invention.
  • the indoor power control system includes a power switch 50 and an indoor monitoring device 60.
  • the power switch 50 is used to turn the power on or off.
  • the indoor monitoring device 60 is configured to perform detection, obtain a detection result, and obtain an indoor state according to the detection result, wherein the indoor state includes an indoor state and an indoor unmanned state, and the indoor state indicates that there is a person in the room, and the indoor unmanned state indicates the indoor No one, if the indoor monitoring device determines that the indoor state changes from the indoor unmanned state to the indoor human state, the control power switch is closed to turn on the power; if the indoor monitoring device determines that the indoor state changes from the indoor state to the indoor unmanned state, Then control the power switch to turn off to turn off the power.
  • the indoor monitoring device 60 includes at least one of the following: a smart door lock, an infrared detector, a surveillance camera, a Bluetooth device, a WIFI positioning device, and an anti-lock detector.
  • the indoor power control system may further include: a smart door lock 70 and a server or an Internet of Things smart gateway 80.
  • the smart door lock 70 is used to send information indicating that the door lock is unlocked successfully when the unlocking is successful.
  • the server or the Internet of Things smart gateway 80 is configured to receive the information sent by the smart door lock 70, and send a control command to the power switch 50 according to the information sent by the smart door lock 70, the control command is used to control the power switch 50 to be closed; or, the server or the object
  • the networked intelligent gateway 80 is configured to receive the detection result sent by the indoor monitoring device 60, and control the power switch 50 to be closed or disconnected according to the detection result.
  • the smart door lock 70 detects that the user has successfully unlocked from the outside, the unlocking success information can be sent to the server through the wireless network, and the server turns on the power by controlling the power switch 50 to be closed.
  • the indoor monitoring device 60 does not detect the human body information, it can transmit the unattended information to the server, and the server controls the power switch 50 to turn off to turn off the power after a preset period of time.
  • the power-on command is sent by using a wired or wireless manner to enable the indoor power source.
  • the power switch can also be controlled by short-range wireless communication, for example, using a low-power Bluetooth, Zigbee, WIFI, etc. to make the power switch 50, the indoor monitoring device 60 and the smart door lock 70-phase connection, the user can successfully unlock after entering the password, the mobile phone to open the door command, swipe the ID card or swipe the door card, the smart door lock 70 directly sends the power-on control command to the power switch 50 by means of wireless communication, After the power is turned on, the indoor monitoring device 60 starts to operate. When the indoor monitoring device 60 does not detect the human body information for a continuous period of time, it can send a control command to turn off the power to the power switch 50 by wireless communication. Meanwhile, the indoor monitoring device 60 The power supply is also controlled by the power switch 50, and after the power is turned off, the indoor monitoring device 60 will also stop operating.
  • short-range wireless communication for example, using a low-power Bluetooth, Zigbee, WIFI, etc.
  • the above wireless communication method can be implemented by the Internet of Things intelligent gateway.
  • the power switch 50, the indoor monitoring device 60 and the smart door lock 70 are connected through the IoT intelligent gateway, and the IoT intelligent gateway is compatible with different wireless connection modes, such as Bluetooth, Zigbee, WIFI, 433Mhz wireless, 900Mhz wireless, 2.4G, etc. Different ways of connecting.
  • the smart door lock 70 can be powered by a battery. In order to save power, the power can be controlled by using 433Mhz or low-power Bluetooth wireless communication mode; since the indoor monitoring device 60 and the power switch 50 are generally powered by alternating current, it is not necessary Consider the power saving problem, so that the power can be controlled by WIFI or Zigbee wireless communication.
  • the wireless connection mode between the smart door lock 70, the power switch 50 and the indoor monitoring device 60 can be conveniently and flexibly set by using the IoT intelligent gateway.
  • the embodiment of the present invention can achieve the following effects: the solution of the present application can be used to replace the card power-taking system of the hotel room, thereby realizing automatic power-off and power-off, which is convenient for customers to use and can save cost and energy. In addition, it can be used in student residences, homes and other places to power off when no one is there, saving energy while improving safety.
  • the function of automatic power-off is realized by the indoor monitoring device, detecting someone in the room, keeping the power on, detecting no one in the room, and disconnecting the power.
  • the intelligent door lock is used to detect a person in the room, and when the door is unlocked, the power is turned on immediately, and when the indoor monitoring device detects that there is no one in the room, the power is turned off, so that the indoors are disconnected from the power source, the indoor The monitoring device may not work, and the indoor monitoring device is activated only after the door is unlocked.
  • the disclosed apparatus may be implemented in other ways.
  • the device embodiments described above are merely illustrative, such as the division of the units, only For a logical function division, there may be another division manner in actual implementation, for example, multiple units or components may be combined or integrated into another system, or some features may be ignored or not executed.
  • the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be electrical or otherwise.
  • the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.
  • the above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.
  • the integrated unit if implemented in the form of a software functional unit and sold or used as a standalone product, may be stored in a computer readable storage medium.
  • the technical solution of the present invention which is essential or contributes to the prior art, or all or part of the technical solution, may be embodied in the form of a software product stored in a storage medium.
  • a number of instructions are included to cause a computer device (which may be a personal computer, mobile terminal, server or network device, etc.) to perform all or part of the steps of the methods described in various embodiments of the present invention.
  • the foregoing storage medium includes: a U disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk, and the like. .

Abstract

La présente invention concerne un procédé, un appareil et un système de commande d'alimentation électrique d'intérieur. Le procédé de commande d'alimentation électrique d'intérieur comprend les étapes suivantes : un dispositif de surveillance d'intérieur (60) effectue une détection de sorte à obtenir un résultat de détection ; le dispositif de surveillance d'intérieur (60) obtient, en fonction du résultat de détection, un état d'intérieur, l'état d'intérieur comprenant : un état de présence à l'intérieur et un état d'absence à l'intérieur, l'état de présence à l'intérieur indiquant une présence à l'intérieur et l'état d'absence à l'intérieur indiquant une absence à l'intérieur ; le dispositif de surveillance d'intérieur (60) commande, s'il est déterminé que l'état d'intérieur est passé de l'état d'absence à l'intérieur à l'état de présence à l'intérieur, la mise en fonctionnement d'une alimentation électrique d'intérieur ; et le dispositif de surveillance d'intérieur (60) commande, s'il est déterminé que l'état d'intérieur est passé de l'état de présence à l'intérieur à l'état d'absence à l'intérieur, la coupure de l'alimentation électrique d'intérieur. Le procédé ci-dessus permet de résoudre le problème de l'inconvénient d'une commande d'une alimentation électrique dans l'état de la technique.
PCT/CN2015/099865 2015-05-27 2015-12-30 Procédé, appareil et système de commande d'alimentation électrique d'intérieur WO2016188113A1 (fr)

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