CN112419545A - Power-taking control system and method for Internet of things door lock - Google Patents

Abstract

The application relates to a power-taking control system and method of an Internet of things door lock, wherein the system comprises an induction module, the Internet of things door lock and power-taking switch equipment; when the sensing module approaches the sensing Internet of things door lock, the Internet of things door lock acquires and verifies the identity information of the sensing module; when the identity information verification is successful, the Internet of things door lock is unlocked and transmits a power getting instruction to the power getting switch equipment; so that the power supply switch equipment is conducted with the power supply; when the reverse lock of the Internet of things door lock is closed, the Internet of things door lock transmits a power supply instruction to the power-taking switch equipment; so that the power-taking switch equipment keeps the power supply on; when the back lock is unlocked, the Internet of things door lock transmits a power-off instruction to the power-taking switch equipment; the power-taking switch equipment is enabled to cut off a power supply, power taking in a welcome mode during inductive door opening is achieved, power taking and power off control during reverse locking and unlocking of the Internet of things door lock is achieved, the power-taking control function is diversified, electric energy waste is avoided, and the cost of the power-taking control function is low.

Description

Power-taking control system and method for Internet of things door lock

Technical Field

The application relates to the technical field of Internet of things door locks, in particular to a power taking control system and method of an Internet of things door lock.

Background

The door lock is an indispensable component for achieving theft prevention. Along with the development of science and technology and the improvement of living standard, electronic lock is all used widely in places such as family, hotel, enterprise, public place, and the application of thing networking lock is more and more extensive, and thing networking lock technical layer is more and more mature.

At present, in property scenes such as hotels and the like with networked door locks, the traditional door lock electricity getting welcome mode is to get electricity for one minute by opening and closing a door magnetic induction door, so that the welcome mode is realized, the cost is high, in addition, the installation and construction are required, the construction cost is high, and two magnets are inlaid above and below the door. In addition, after people leave the room, two room cards are not disconnected if the cards are not pulled out, and the electric energy of the hotel is wasted.

In the implementation process, the inventor finds that at least the following problems exist in the conventional technology: in the welcome mode of getting the electricity of traditional lock, it is with high costs, get the electricity control singlely, and waste the electric energy.

Disclosure of Invention

Therefore, it is necessary to provide a power-taking control system and method for an internet-of-things door lock, aiming at the problems of high cost, single power-taking control and waste of electric energy in a power-taking welcome mode of a traditional door lock.

In order to achieve the above object, an embodiment of the present invention provides an electricity taking control system for an internet of things door lock, including an induction module, an internet of things door lock arranged on a door, and an electricity taking switch device arranged in a room;

when the sensing module approaches the sensing Internet of things door lock, the Internet of things door lock acquires and verifies the identity information of the sensing module; when the identity information is verified successfully, the Internet of things door lock is unlocked and transmits a power taking instruction to the power taking switch equipment; the power-taking switch equipment switches on a power supply according to the power-taking instruction by preset switching-on duration;

when the reverse lock of the Internet of things door lock is closed, the Internet of things door lock transmits a power supply instruction to the power-taking switch equipment; the power supply switching equipment keeps the power supply on according to the power supply instruction;

when the back lock is unlocked, the Internet of things door lock transmits a power-off instruction to the power-taking switch equipment; and the power-taking switch equipment disconnects the power supply according to the power-off instruction.

In one embodiment, the induction module is inserted into the power-taking switch equipment, and when the back lock is closed, the Internet of things door lock transmits a power supply instruction to the power-taking switch equipment; or

The induction module is not inserted into the power-taking switch equipment, and when the back lock is closed, the internet of things door lock transmits a power supply instruction to the power-taking switch equipment.

In one embodiment, the induction module is inserted into the power-taking switch equipment, and when the back lock is unlocked, the Internet of things door lock transmits a power-off instruction to the power-taking switch equipment; or

The induction module is not inserted into the power-taking switch equipment, and when the back lock is opened, the internet of things door lock transmits a power-off instruction to the power-taking switch equipment.

In one embodiment, the internet-of-things door lock comprises an identity sensing unit, a first communication module and a first processing module connected between the identity sensing unit and the first communication module; the electricity-taking switch equipment comprises a second communication module, a switch module and a second processing module connected between the second communication module and the switch module;

when the sensing module approaches to the sensing Internet of things door lock, the identity sensing unit acquires identity information of the sensing module and transmits the identity information to the first processing module; the first processing module receives and verifies the identity information of the induction module; when the identity information is successfully verified, the first processing module unlocks and transmits a power-taking instruction to the second communication module through the first communication module; the second communication module transmits the received power-taking instruction to the second processing module; the second processing module triggers the switch module according to the power-taking instruction; the switch module conducts the power supply according to the preset conduction time.

In one embodiment, the internet of things door lock further comprises a detection module connected with the first processing module;

the detection module detects the opening and closing state of the back lock and transmits the detected opening and closing state information to the first processing module; the first processing module transmits a power supply instruction to the power-taking switch equipment through the first communication module according to the opening and closing state information when the back lock is in a closed state;

the first processing module transmits a power-off instruction to the power-taking switch equipment through the first communication module according to the opening and closing state information when the back lock is in an opening state.

In one embodiment, the internet of things door lock further comprises a voice reminding module connected with the first processing module.

In one embodiment, the first communication module is a bluetooth module, a WIFI communication module, a Zigbee communication module, a Lora communication module, or a Ziwave communication module;

the second communication module is a Bluetooth module, a WIFI communication module, a Zigbee communication module, a Lora communication module or a Ziwave communication module.

On the other hand, the embodiment of the invention also provides a power-taking control method of the Internet of things door lock, which comprises the following steps:

when the sensing module approaches to the sensing Internet of things door lock, acquiring and verifying identity information of the sensing module;

when the identity information is successfully verified, unlocking and transmitting a power-taking instruction to the power-taking switch equipment; the power taking instruction is used for indicating the power taking switch equipment to switch on the power supply according to the preset switching-on duration;

when the back lock is closed, transmitting a power supply instruction to the power-taking switch equipment; the power supply instruction is used for indicating the power taking switch equipment to keep the power supply on;

when the back lock is opened, transmitting a power-off instruction to the power-taking switch equipment; the power-off instruction is used for indicating the power-taking switch equipment to cut off the power supply.

In one embodiment, the step of transmitting a power supply instruction to the power-taking switch device when the anti-lock is closed comprises:

when the induction module is inserted into the power-taking switch equipment and the back lock is closed, a power supply instruction is transmitted to the power-taking switch equipment; or

When the induction module is not inserted into the power-taking switch equipment and the back lock is closed, the power-taking switch equipment is transmitted with a power-supplying instruction.

In one embodiment, the step of transmitting the power-off command to the power-taking switch device when the back lock is opened comprises the following steps:

inserting power-taking switch equipment into the induction module, and transmitting a power-off instruction to the power-taking switch equipment when the back lock is unlocked; or

When the induction module is not inserted into the power-taking switch equipment and the back lock is opened, a power-off instruction is transmitted to the power-taking switch equipment.

One of the above technical solutions has the following advantages and beneficial effects:

in each embodiment of the power-taking control system of the internet of things door lock, the power-taking control system is in communication connection with the internet of things module based on the induction module; the Internet of things door lock is in communication connection with the power-taking switch equipment; when the sensing module approaches to the sensing Internet of things door lock, the Internet of things door lock acquires and verifies the identity information of the sensing module; when the identity information of the Internet of things door lock is successfully verified, unlocking and transmitting a power-taking instruction to the power-taking switch equipment; the power taking switch equipment switches on a power supply according to the power taking instruction by preset switching-on duration; when the reverse lock of the Internet of things door lock is closed, the Internet of things door lock transmits a power supply instruction to the power-taking switch equipment; the power-taking switch equipment keeps the power supply on according to the power supply instruction; when the back lock is unlocked, the Internet of things door lock transmits a power-off instruction to the power-taking switch equipment; the electricity-taking switch equipment disconnects the power supply according to the power-off instruction, so that a welcome mode that electricity is taken for preset time in a room when the door lock of the Internet of things is opened is realized. This application is through thing networking lock and the communication coordinated control who gets electrical switchgear, and "welcome mode" when realizing the response and opening the door gets the electricity to and get the electricity when having realized the anti-lock closure of thing networking lock, and power off control when the anti-lock of thing networking lock is opened has diversified thing networking lock and has got the electric control function, has avoided extravagant electric energy, and realizes getting the low cost of electric control function.

Drawings

Fig. 1 is a first structural schematic diagram of a power-taking control system of an internet-of-things door lock in one embodiment;

fig. 2 is a second structural schematic diagram of a power-taking control system of the internet-of-things door lock in one embodiment;

fig. 3 is a third structural schematic diagram of a power-taking control system of the internet-of-things door lock in one embodiment;

fig. 4 is a schematic flow chart of a power-taking control method of the internet-of-things door lock in one embodiment.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are shown in the drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The electric door lock aims to solve the problems that in an electricity taking welcome mode of a traditional door lock, the cost is high, electricity taking control is single, and electric energy is wasted. In one embodiment, as shown in fig. 1, an electricity-taking control system of an internet of things door lock is provided, which includes an induction module 110, an internet of things door lock 120 disposed on a door, and an electricity-taking switch device 130 disposed in a room;

when the sensing module 110 approaches the sensing internet of things door lock 120, the internet of things door lock 120 acquires and verifies the identity information of the sensing module 110; when the identity information of the internet-of-things door lock 120 is successfully verified, unlocking and transmitting a power taking instruction to the power taking switching device 130; the power-taking switch device 130 switches on the power supply for a preset on-time according to the power-taking instruction;

when the internet of things door lock 120 is reversely locked and closed, the internet of things door lock 120 transmits a power supply instruction to the power-taking switch device 130; the power-taking switch device 130 keeps the power supply on according to the power supply instruction;

when the back lock is unlocked, the internet-of-things door lock 120 transmits a power-off instruction to the power-taking switch device 130; the power-taking switching device 130 turns off the power supply according to the power-off instruction.

Wherein the room may be, but is not limited to, a room of a hotel or apartment. The sensing module 110 may be an IC card (house card). When the sensing module 110 is close to the corresponding internet of things door lock 120, the sensing module 110 may establish a communication connection with the internet of things door lock 120, and then the internet of things door lock 120 may obtain the identity information of the sensing module 110. The identification information may be an identification code of the IC card.

The internet-of-things door lock 120 refers to an intelligent door lock with internet-of-things and bluetooth functions. The internet of things door lock 120 is arranged on a room door, and one surface of the internet of things door lock 120 facing the outside of the room door is provided with a sensing area which can be used for sensing with the sensing module 110; the internet-of-things door lock 120 is provided with a counter lock on a side facing the room door, and the counter lock can be used for unlocking or locking in the room door. The internet-of-things door lock 120 may further include a cylinder module and a cylinder driving module for driving the cylinder module to open or close. The power-getting switching device 130 may be, but is not limited to, an IC card power-getting switching device, a T5557 card power-getting switching device, an M1 card power-getting switching device, an intelligent identification power-getting switching device, and a network power-getting switching device. In one example, the power take switch device 130 is mounted to a door side wall in a room. The power supply means a general power supply of the door of the room. The preset conduction time refers to the time for continuously conducting the power supply when the door is opened. For example, the preset on-time may be 1 minute.

Specifically, the sensing-based module 110 is in communication connection with the corresponding internet-of-things door lock 120; the internet of things door lock 120 is in communication connection with the corresponding power-taking switch device 130; the user can operate the sensing module 110 to approach the sensing area of the corresponding internet of things door lock 120, and when the distance between the sensing module 110 and the sensing area of the internet of things door lock 120 reaches a preset sensing threshold, the internet of things door lock 120 can establish communication connection with the sensing module 110, and then the internet of things door lock 120 can acquire the identity information of the sensing module 110. The internet-of-things door lock 120 can verify the acquired identity information, and unlock the lock according to the verification result when the identity information is successfully verified (for example, the lock cylinder driving module is triggered, and the lock cylinder driving module drives the lock cylinder module to open the lock cylinder, so that unlocking is realized). Meanwhile, when the identity information is successfully verified, the internet-of-things door lock 120 may transmit a power getting instruction to the power getting switching device 130. So that the power-taking switch device 130 continuously conducts the power supply with a preset conduction duration according to the power-taking instruction.

Further, the internet-of-things door lock 120 can detect the opening and closing state of the back lock. When detecting that the back lock is closed (i.e., the back lock is in a closed state), the internet-of-things door lock 120 may transmit a power supply instruction to the power-taking switching device 130. So that the power-taking switch device 130 continuously keeps the power supply on according to the power supply instruction. When the internet-of-things door lock 120 detects that the back lock is opened (i.e., the back lock is in an open state), a power-off instruction can be transmitted to the power-taking switch device 130. The power-taking switch device 130 is enabled to disconnect the power supply according to the power-off instruction, so that the diversified power-taking control function of the internet-of-things door lock 120 is realized.

In the above embodiment, through thing networking lock and get electric switchgear's communication coordinated control, realize that "welcome mode" when the response is opened gets the electricity to and cut off the power supply when having realized the anti-lock of thing networking lock and open, get the electricity control when the anti-lock of thing networking lock is closed, diversified thing networking lock get the electricity control function, avoided extravagant electric energy, and realize getting the low cost of electricity control function.

In a specific embodiment, the induction module is inserted into the power-taking switch device, and when the back lock is closed, the internet of things door lock transmits a power supply instruction to the power-taking switch device.

Wherein, get electrical switchgear can be equipped with the slot, and this slot can be used to insert the response module.

Specifically, the power-taking switch device can detect the insertion state of the induction module. When the power-taking switch equipment detects that the induction module is inserted, inserting feedback information is generated, and the inserting feedback information is transmitted to the Internet of things door lock. The thing networking lock is according to inserting feedback information, and it gets electrical switchgear to judge that the response module inserts.

Furthermore, when the induction module is inserted into the power-taking switch device and the back lock is closed, the Internet of things door lock can transmit a power supply instruction to the power-taking switch device. Make and get electric switchgear according to the power supply instruction, continuously keep power supply to switch on, get the electric function when realizing the anti-locking of thing networking lock, and then diversified thing networking lock get the electric control function.

In one embodiment, the induction module is not inserted into the power-taking switch device, and when the back lock is closed, the internet-of-things door lock transmits a power supply instruction to the power-taking switch device.

Specifically, the power-taking switch device can detect the insertion state of the induction module. When the electricity-taking switch equipment detects that the induction module is not inserted, interruption feedback information is generated, and the interruption feedback information is transmitted to the Internet of things door lock. The thing networking lock judges that the induction module does not insert into the power switch equipment according to the feedback information that interrupts.

Furthermore, when the induction module is not inserted into the power-taking switch device and the back lock is closed, the internet of things door lock can transmit a power supply instruction to the power-taking switch device. Make and get electric switchgear according to the power supply instruction, continuously keep the power supply to switch on, get the electric function when realizing the anti-locking of thing networking lock, and then diversified thing networking lock get the electric control function.

In one embodiment, the sensing module is inserted into the power-taking switch device, and when the back lock is opened, the internet of things door lock transmits a power-off instruction to the power-taking switch device.

Specifically, the power-taking switch device can detect the insertion state of the induction module. When the power-taking switch equipment detects that the induction module is inserted, inserting feedback information is generated, and the inserting feedback information is transmitted to the Internet of things door lock. The thing networking lock is according to inserting feedback information, and it gets electrical switchgear to judge that the response module inserts.

Furthermore, when the induction module is inserted into the power-taking switch device and the back lock is opened, the Internet of things door lock can transmit a power-off instruction to the power-taking switch device. Make and get electric switchgear according to the outage instruction, disconnection power supply, the outage function when realizing the anti-lock of thing networking lock and opening, and then avoided extravagant electric energy, diversified the outage control function of thing networking lock.

In one embodiment, the induction module is not inserted into the power-taking switch device, and when the back lock is opened, the internet-of-things door lock transmits a power-off instruction to the power-taking switch device.

Specifically, the power-taking switch device can detect the insertion state of the induction module. When the electricity-taking switch equipment detects that the induction module is not inserted, interruption feedback information is generated, and the interruption feedback information is transmitted to the Internet of things door lock. The thing networking lock judges that the induction module does not insert into the power switch equipment according to the feedback information that interrupts.

Furthermore, when the induction module is not inserted into the power-taking switch device and the back lock is opened, the Internet of things door lock can transmit a power-off instruction to the power-taking switch device. Make and get electric switchgear according to the outage instruction, the power supply of disconnection, the outage function when realizing the anti-lock of thing networking lock and opening, and then avoided extravagant electric energy, diversified the outage control function of thing networking lock.

In one embodiment, as shown in fig. 2, an electricity-taking control system of an internet-of-things door lock is provided. The system comprises an induction module 210, an internet of things door lock 220 arranged on a door, and a power-taking switch device 230 arranged in a room. The internet-of-things door lock 220 comprises an identity sensing unit 222, a first communication module 224 and a first processing module 226 connected between the identity sensing unit 222 and the first communication module 224; the power-taking switching device 230 includes a second communication module 232, a switching module 234, and a second processing module 236 connected between the second communication module 232 and the switching module 234.

When the sensing module 210 approaches the sensing internet of things door lock 220, the identity sensing unit 222 acquires the identity information of the sensing module 210 and transmits the identity information to the first processing module 226; the first processing module 226 receives and verifies the identity information of the sensing module 210; when the identity information is successfully verified, the first processing module 226 unlocks the lock and transmits a power-taking instruction to the second communication module 232 through the first communication module 224; the second communication module 232 transmits the received power-taking instruction to the second processing module 236; the second processing module 236 triggers the switch module 234 according to the power-taking instruction; the switch module 234 turns on the power supply for a predetermined on-time.

The identity sensing unit 222 can be used for sensing connection communication with the sensing module. The first communication module 224 may be a wireless communication module. The first processing module 226 may include a processor, which may be, but is not limited to, a single chip, an ARM processor, or a DSP processor. The second communication module 232 may be a wireless communication module. The second processing module 236 may include a processor, which may be, but is not limited to, a single chip, an ARM processor, or a DSP processor. The switch module 234 may be a relay module; the switching module 234 may be used to turn off or on the power supply.

Specifically, the first processing module 226 is connected between the identity sensing unit 222 and the first communication module 224; the second processing module 236 is coupled between the second communication module 232 and the switch module 234, and the first communication module 224 is communicatively coupled to the second communication module 232. The user can operate the sensing module 210 to approach the identity sensing unit 222 of the corresponding internet of things door lock, and when the distance between the sensing module 210 and the identity sensing unit 222 reaches a preset sensing threshold, the identity sensing unit 222 can establish a communication connection with the sensing module 210, so that the identity sensing unit 222 obtains the identity information of the sensing module 210 and transmits the identity information to the first processing module 226. The first processing module 226 may verify the received identity information, and unlock the lock according to the verification result when the identity information is successfully verified (for example, the lock cylinder driving module is triggered, and the lock cylinder driving module drives the lock cylinder module to open to unlock the lock). Meanwhile, the first processing module 226 may also transmit a power-off instruction to the second communication module 232 through the first communication module 224 when the identity information verification is successful. So that the second communication module 232 transmits the received power-taking instruction to the second processing module 236; the second processing module 236 triggers the switch module 234 according to the power-taking instruction, and then the switch module 234 switches on the power supply for a preset on-time, so that a "welcome mode" power-taking during door opening is realized, and the cost of the power-taking control function is low.

In one particular embodiment, as shown in fig. 2, the internet of things door lock 220 further includes a detection module 228 coupled to the first processing module 226.

The detection module 228 detects the open/close state of the back lock and transmits the detected open/close state information to the first processing module 226; the first processing module 226 transmits a power supply instruction to the power-taking switch device 230 through the first communication module 224 when the back lock is in the closed state according to the opening and closing state information; the first processing module 226 transmits a power-off instruction to the power-taking switch device through the first communication module 224 when the back lock is in the open state according to the opening and closing state information.

The detecting module 228 can be used to detect the opening/closing state of the internet-of-things door lock.

Specifically, the detection module 228 may detect the open/close state of the back lock, and transmit the detected open/close state information to the first processing module 226; according to the opening and closing state information, when the back lock is in the closed state, the first processing module 226 transmits a power supply instruction to the second communication module 232 through the first communication module 224, and then the second communication module 232 transmits the power supply instruction to the second processing module 236. Make second processing module 236 according to the power supply instruction, continuously switch on power supply, power supply function when realizing thing networking lock 220's anti-lock is closed, and then diversified thing networking lock get the electric control function.

Further, according to the opening/closing state information, when the back lock is in the open state, the first processing module 226 transmits a power-off instruction to the second communication module 232 through the first communication module 224, and then the second communication module 232 transmits the power-off instruction to the second processing module 236. Make second processing module 236 according to the outage instruction, break off power supply, realize the outage function when thing networking lock 220's anti-lock is opened, and then avoided wasting electric energy, diversified the outage control function of thing networking lock.

In one embodiment, as shown in fig. 3, an electricity-taking control system of an internet-of-things door lock is provided. The system comprises an induction module 310, an Internet of things door lock 320 arranged on a door, and a power-taking switch device 330 arranged in a room. The internet-of-things door lock 320 comprises an identity sensing unit 322, a first communication module 324 and a first processing module 326 connected between the identity sensing unit 322 and the first communication module 324; the power-taking switching device 330 includes a second communication module 332, a switching module 334, and a second processing module 336 connected between the second communication module 332 and the switching module 334. The internet-of-things door lock 330 further includes a voice reminding module 328 connected to the first processing module 326.

Specifically, the voice-based alert module 328 is coupled to the first processing module 326. The first processing module 326 may transmit a first voice instruction to the voice alert module 328 when the identity information verification is successful. Make pronunciation warning module 328 can produce the suggestion pronunciation of opening the door and remind according to first voice command, and then diversified thing networking lock get the electric control function.

In the above-mentioned embodiment, through thing networking lock and get electric switchgear's communication linkage control, realize that "welcome mode" when the response opens the door gets the electricity, the pronunciation warning of opening the door simultaneously to and realized that the back lock of thing networking lock is opened the time outage, the fashionable electricity control of getting of the back lock of thing networking lock, diversified thing networking lock get the electric control function, avoided extravagant electric energy, and realize getting the electric control function with low costs.

In a specific embodiment, the internet of things door lock further comprises a voice recognition module connected with the first processing module.

Specifically, the voice recognition module recognizes and processes voice data of a user to obtain voice information, and transmits the voice information to the first processing module; the first processing module receives and processes the voice information, and when the voice information is verified successfully, the lock is unlocked and the power-taking instruction is transmitted to the power-taking switch device. Make and get electric switchgear according to getting the electric instruction to predetermine and switch on duration and continuously switch on power supply, and then realize that the pronunciation of thing networking lock discerns and unblank and get the electricity.

In one embodiment, the first communication module is a bluetooth module, a WIFI communication module, a Zigbee communication module, a Lora communication module, or a Ziwave communication module.

The second communication module is a Bluetooth module, a WIFI communication module, a Zigbee communication module, a Lora communication module or a Ziwave communication module.

In one example, the first communication module is a first bluetooth module. The first bluetooth module may be a single mode bluetooth module or a dual mode bluetooth module. The first bluetooth module may be a bluetooth low energy device. The communication mode adopted by the first bluetooth module can be, but is not limited to, a bluetooth 4.0 communication protocol, a bluetooth 4.2 communication protocol, a bluetooth 5.0 communication protocol, or the like.

In one example, the second communication module is a second bluetooth module. The second bluetooth module may be a single mode bluetooth module or a dual mode bluetooth module. The second bluetooth module may be a bluetooth low energy device. The communication mode adopted by the second bluetooth module can be, but is not limited to, bluetooth 4.0 communication protocol, bluetooth 4.2 communication protocol, bluetooth 5.0 communication protocol, or the like.

When the internet of things door lock is locked reversely, the corresponding room door is in a reverse locking state; when the internet of things door lock is unlocked reversely, the corresponding room door is in a state of releasing the reverse lock.

In an embodiment, as shown in fig. 4, a power-taking control method for an internet of things door lock is provided, which is described by taking the method as an example applied to the internet of things door lock in fig. 1, and the method includes the following steps:

and S410, when the sensing module approaches to the sensing Internet of things door lock, acquiring and verifying identity information of the sensing module.

Step S420, unlocking and transmitting a power-taking instruction to power-taking switch equipment when the identity information is successfully verified; the power-taking instruction is used for indicating the power-taking switch equipment to switch on the power supply according to the preset switching-on duration.

Step S430, when the back lock is closed, a power supply instruction is transmitted to the power-taking switch equipment; the power supply instruction is used for indicating the power-taking switch equipment to keep the power supply on.

Step S440, when the back lock is opened, transmitting a power-off instruction to the power-taking switch equipment; the power-off instruction is used for indicating the power-taking switch equipment to cut off the power supply.

Particularly, the user can operate the sensing module to be close to the sensing area of the corresponding internet of things door lock, when the distance between the sensing module and the sensing area of the internet of things door lock reaches a preset sensing threshold value, the internet of things door lock can be in communication connection with the sensing module, and then the internet of things door lock can acquire identity information of the sensing module. The internet-of-things door lock can verify the acquired identity information, and unlocking is performed when the identity information is successfully verified according to a verification result (for example, the lock cylinder driving module is triggered, and the lock cylinder driving module drives the lock cylinder module to be unlocked, so that unlocking is realized). Meanwhile, when the identity information is verified successfully, the Internet of things door lock can transmit a power getting instruction to the power getting switch device, so that the power getting switch device can continuously turn on the power supply according to the power getting instruction and preset turn-on duration.

Further, thing networking lock detectable is locked the switching state of locking. When the internet of things door lock detects that the back lock is closed (namely the back lock is in a closed state), a power supply instruction can be transmitted to the power taking switch device, so that the power taking switch device continuously keeps the power supply on according to the power supply instruction. When the thing networking lock detects that the back lock is opened (the back lock is in the open mode promptly), can get electric switchgear transmission outage instruction for get electric switchgear and according to the outage instruction, break off power supply, realize the diversified of thing networking lock and get the electric control function.

In the above embodiment, through thing networking lock and get electric switchgear's communication coordinated control, realize that "welcome mode" when the response is opened gets the electricity to and cut off the power supply when having realized the anti-lock of thing networking lock and open, get the electricity control when the anti-lock of thing networking lock is closed, diversified thing networking lock get the electricity control function, avoided extravagant electric energy, and realize getting the low cost of electricity control function.

In one embodiment, the step of transmitting the power supply instruction to the power-taking switching device when the back lock is closed includes:

when the induction module is inserted into the power-taking switch equipment and the back lock is closed, a power supply instruction is transmitted to the power-taking switch equipment.

In one embodiment, the step of transmitting the power supply instruction to the power-taking switching device when the back lock is closed includes:

when the induction module is not inserted into the power-taking switch equipment and the back lock is closed, the power-taking switch equipment is transmitted with a power-supplying instruction.

In one embodiment, the step of transmitting the power-off command to the power-taking switching device when the back lock is opened comprises:

when the induction module is inserted into the power-taking switch equipment and the back lock is opened, a power-off instruction is transmitted to the power-taking switch equipment.

In one embodiment, the step of transmitting the power-off command to the power-taking switching device when the back lock is opened comprises:

when the induction module is not inserted into the power-taking switch equipment and the back lock is opened, a power-off instruction is transmitted to the power-taking switch equipment.

It should be understood that, although the steps in the flowchart of fig. 4 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in a strict order unless explicitly stated herein, and may be performed in other orders. Moreover, at least a portion of the steps in fig. 4 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.

In one embodiment, an electricity-taking control device of an internet-of-things door lock is provided, the device comprising:

and the identity information verification unit is used for acquiring and verifying the identity information of the induction module when the induction module is close to the induction Internet of things door lock.

The power-taking control unit is used for unlocking and transmitting a power-taking instruction to the power-taking switch equipment when the identity information is successfully verified; the power-taking instruction is used for indicating the power-taking switch equipment to switch on the power supply according to the preset switching-on duration.

The reverse locking electricity taking unit is used for transmitting a power supply instruction to the electricity taking switch equipment when the reverse locking is closed; the power supply instruction is used for indicating the power-taking switch equipment to keep the power supply on.

The unlocking and power-off unit is used for transmitting a power-off instruction to the power-taking switch equipment when the unlocking is carried out; the power-off instruction is used for indicating the power-taking switch equipment to switch off the power supply.

For specific limitations of the power-taking control device of the internet of things door lock, reference may be made to the limitations of the power-taking control method of the internet of things door lock, and details are not described herein again. All modules in the power-taking control device of the Internet of things door lock can be completely or partially realized through software, hardware and a combination of the software and the hardware. The modules can be embedded in a processor in the power-taking control system of the Internet of things door lock in a hardware mode or independent of the Internet of things door lock, and can also be stored in a memory in the power-taking control system of the Internet of things door lock in a software mode, so that the processor can call and execute operations corresponding to the modules.

In an embodiment, a computer-readable storage medium is further provided, on which a computer program is stored, and the computer program, when executed by a processor, implements the steps of the power-taking control method for the internet-of-things door lock according to any one of the foregoing embodiments.

For example, the computer program, when executed by a processor, may perform the steps of:

when the sensing module approaches to the sensing Internet of things door lock, acquiring and verifying identity information of the sensing module;

when the identity information is successfully verified, unlocking and transmitting a power-taking instruction to the power-taking switch equipment; the power taking instruction is used for indicating the power taking switch equipment to switch on the power supply according to the preset switching-on duration;

when the back lock is closed, transmitting a power supply instruction to the power-taking switch equipment; the power supply instruction is used for indicating the power taking switch equipment to keep the power supply on;

when the back lock is opened, transmitting a power-off instruction to the power-taking switch equipment; the power-off instruction is used for indicating the power-taking switch equipment to cut off the power supply.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the division methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent application shall be subject to the appended claims.

Claims (10)

1. The power-taking control system of the Internet of things door lock is characterized by comprising an induction module, the Internet of things door lock arranged on a door and power-taking switch equipment arranged in a room;

when the sensing module approaches to sense the Internet of things door lock, the Internet of things door lock acquires and verifies the identity information of the sensing module; when the identity information is verified successfully, the Internet of things door lock is unlocked and transmits a power getting instruction to the power getting switch equipment; the power-taking switch equipment switches on a power supply according to the power-taking instruction by preset switching-on duration;

when the reverse lock of the Internet of things door lock is closed, the Internet of things door lock transmits a power supply instruction to the power-taking switch equipment; the power-taking switch equipment keeps the power supply on according to the power supply instruction;

when the back lock is unlocked, the Internet of things door lock transmits a power-off instruction to the power-taking switch equipment; and the power-taking switch equipment disconnects the power supply according to the power-off instruction.

2. The power-taking control system of the Internet of things door lock according to claim 1,

the induction module is inserted into the power-taking switch equipment, and when the lock is reversely locked, the Internet of things door lock transmits the power supply instruction to the power-taking switch equipment; or

The induction module is not inserted into the power-taking switch device, and when the lock is locked reversely, the internet of things door lock transmits the power supply instruction to the power-taking switch device.

3. The power-taking control system of the Internet of things door lock according to claim 1,

the induction module is inserted into the power-taking switch equipment, and when the back lock is unlocked, the Internet of things door lock transmits the power-off instruction to the power-taking switch equipment; or

The sensing module is not inserted into the power-taking switch device, and when the back lock is opened, the internet of things door lock transmits the power-off instruction to the power-taking switch device.

4. The power-taking control system of the Internet of things door lock according to claim 1, wherein the Internet of things door lock comprises an identity sensing unit, a first communication module and a first processing module connected between the identity sensing unit and the first communication module; the electricity-taking switch equipment comprises a second communication module, a switch module and a second processing module connected between the second communication module and the switch module;

when the sensing module approaches to sense the Internet of things door lock, the identity sensing unit acquires identity information of the sensing module and transmits the identity information to the first processing module; the first processing module receives and verifies the identity information of the sensing module; when the identity information is successfully verified, the first processing module unlocks and transmits the power-taking instruction to the second communication module through the first communication module; the second communication module transmits the received power-taking instruction to the second processing module; the second processing module triggers the switch module according to the power taking instruction; the switch module switches on the power supply according to preset switching-on duration.

5. The power-taking control system of the Internet of things door lock according to claim 4, wherein the Internet of things door lock further comprises a detection module connected with the first processing module;

the detection module detects the opening and closing state of the back lock and transmits the detected opening and closing state information to the first processing module; the first processing module transmits the power supply instruction to the power-taking switch equipment through the first communication module according to the opening and closing state information when the back lock is in a closed state;

the first processing module transmits the power-off instruction to the power-taking switch equipment through the first communication module when the back lock is in the open state according to the opening and closing state information.

6. The thing networking lock get electric control system of claim 5, characterized in that, thing networking lock still including connect first processing module's pronunciation warning module.

7. The power-taking control system of the internet of things door lock according to claim 6, wherein the first communication module is a Bluetooth module, a WIFI communication module, a Zigbee communication module, a Lora communication module or a Ziwave communication module;

the second communication module is a Bluetooth module, a WIFI communication module, a Zigbee communication module, a Lora communication module or a Ziwave communication module.

8. A power-taking control method of an Internet of things door lock is characterized by comprising the following steps:

when the sensing module approaches to a sensing Internet of things door lock, acquiring and verifying identity information of the sensing module;

when the identity information is successfully verified, unlocking and transmitting a power-taking instruction to power-taking switch equipment; the power-taking instruction is used for indicating the power-taking switch equipment to switch on a power supply according to a preset switching-on duration;

when the back lock is closed, transmitting a power supply instruction to the power-taking switch equipment; the power supply instruction is used for indicating the power-taking switch equipment to keep the power supply on;

when the back lock is unlocked, transmitting a power-off instruction to the power-taking switch equipment; the power-off instruction is used for indicating the power-taking switch equipment to disconnect the power supply.

9. The Internet of things door lock power-taking control method according to claim 8, wherein the step of transmitting a power supply instruction to the power-taking switch device when the back lock is closed comprises the steps of:

when the induction module is inserted into the power-taking switch equipment and the reverse lock is closed, transmitting the power supply instruction to the power-taking switch equipment; or

When the induction module is not inserted into the power-taking switch equipment and the reverse lock is closed, the power supply instruction is transmitted to the power-taking switch equipment.

10. The Internet of things door lock power-taking control method according to claim 8, wherein when the back lock is unlocked, the step of transmitting a power-off instruction to the power-taking switch device comprises the steps of:

inserting the electricity-taking switch equipment into the induction module, and transmitting the power-off instruction to the electricity-taking switch equipment when the back lock is opened; or

The induction module is not inserted into the power-taking switch equipment, and when the back lock is opened, the power-off instruction is transmitted to the power-taking switch equipment.

Images