CN107124464B - Cloud lock based low battery alarm method and system - Google Patents

Abstract

A low battery alarm method and system based on cloud lock comprises a mobile communication terminal, a cloud server and cloud lock equipment; the method comprises the following steps: (1) initializing, namely setting two standby batteries in cloud lock equipment; the cloud server establishes a control instruction for a power switch of the standby battery; (2) when the electric quantity of the cloud lock equipment is lower than the electric quantity limit, sending low electric quantity information; (3) the mobile communication terminal pushes a charging instruction to a user when receiving the low-power information; if the user does not operate within the appointed time, sending a standby battery starting instruction; (4) the cloud server sends a starting instruction after receiving the standby battery starting instruction; (5) when the cloud lock equipment receives the starting instruction, a circuit of one standby battery is switched on to charge; the cloud lock battery low-power alarm method provided by the invention realizes the functions that a user can unlock the power condition of the cloud lock equipment and automatically charge the cloud lock equipment at any time and any place in real time.

Description

Cloud lock based low battery alarm method and system

Technical Field

The invention relates to the technical field of electronic lock control, in particular to a cloud lock based low-battery-level alarming method and system.

Background

In recent years, an intelligent electronic lock is gradually developed from a concept to commercial industrialization, but the current intelligent electronic lock device has a single function, and is usually only used as an independent door lock unlocking function for combined application between a mobile communication terminal and a server, but a cloud lock usually needs to be powered by a battery, and for the electric quantity condition of the cloud lock, the problems that a user cannot know the electric quantity information of the cloud lock in time and cannot perform charging operation or battery replacement in time often exist.

Disclosure of Invention

The invention aims to provide a cloud lock battery low-power alarm method, which can realize the functions of unlocking the power condition of cloud lock equipment and automatically charging the cloud lock equipment in real time at any time and any place by a user.

The invention further aims to provide a system based on the cloud lock battery low-power alarm method.

In order to achieve the purpose, the invention adopts the following technical scheme:

a cloud lock based low battery alarm method comprises a mobile communication terminal, a cloud server and cloud lock equipment; the mobile communication terminal and the cloud locking equipment are respectively connected with the cloud server through wireless communication, and the method comprises the following steps:

the method comprises the following steps: initializing, and setting two standby batteries in the cloud lock equipment; the cloud server establishes a control instruction for a power switch of the standby battery, wherein the control instruction comprises a starting instruction and a closing instruction;

step two: when the electric quantity of the cloud lock equipment is lower than the electric quantity limit, sending low electric quantity information to the mobile communication terminal;

step three: the mobile communication terminal pushes a charging instruction to a user to remind the user to charge the cloud lock equipment or replace a battery in time after receiving the low-power information; if the user does not perform charging or battery replacement operation within the specified time, sending a standby battery starting instruction to the cloud server;

step four: the cloud server sends a starting instruction to the cloud locking equipment when receiving the standby battery starting instruction;

step five: and when the cloud lock equipment receives the starting instruction, the circuit of one standby battery is switched on to charge.

Further, after the cloud lock device completes one-time charging by using the standby battery, when electricity is consumed again within 24 hours to enable the electric quantity to be lower than the electric quantity limit, low-electric-quantity information is sent to the mobile communication terminal again; the mobile communication terminal pushes a charging instruction or a standby battery closing instruction to a user when receiving the low power information; when the user selects a command of closing the standby battery, the mobile communication terminal sends the command of closing the standby battery to the cloud server;

the cloud server sends a closing instruction to the cloud locking equipment when receiving the standby battery closing instruction; and if the cloud lock equipment receives the closing instruction, the charging is not carried out.

Further, the mobile communication terminal sends a detection instruction of the electric quantity of the standby battery to the cloud lock equipment; the cloud locking equipment detects the electric quantity of the two standby batteries when receiving the detection instruction, and when the electric quantity of the two standby batteries is zero; and sending a charging instruction to the mobile communication terminal to remind a user to charge the standby battery or replace the standby battery in time.

Further, the electric quantity of one backup battery can maintain the normal use time of the cloud lock equipment to be 24 hours; step two, the electric quantity limit is 10% -15% of electric quantity; and step three, setting the specified time to be 2-3 hours.

A system based on a cloud lock battery low-power alarm method comprises a mobile communication terminal, a cloud server and cloud lock equipment; the mobile communication terminal and the cloud locking equipment are respectively connected with the cloud server through wireless communication;

the mobile communication terminal comprises a data transceiving module, a charging module and a standby battery starting module, wherein the data transceiving module is used for receiving the low-power information, pushing a charging instruction to a user and sending a standby battery starting instruction to the cloud server;

the cloud server comprises an information instruction receiving and sending module for receiving the standby battery starting instruction and sending a control instruction of a power switch of the standby battery to the cloud locking equipment;

the cloud locking device comprises an electric quantity information sending module, an instruction receiving module and a standby battery control module; the electric quantity information sending module is used for sending electric quantity information to the mobile communication terminal in time; the instruction receiving module is used for receiving a control instruction of a power switch of the standby battery; and the standby battery control module is used for switching on or switching off a circuit of the standby battery.

Further, after the cloud lock device completes one-time charging by using the standby battery, when electricity is consumed again within 24 hours to enable the electric quantity to be lower than the electric quantity limit, the cloud lock device sends the low-electricity-quantity information to the mobile communication terminal again through the electric quantity information sending module;

the data receiving and sending module is further used for sending a standby battery closing instruction to the cloud server; the data transceiver module receives the low power information, and then pushes a charging instruction or a temporary standby battery closing instruction to a user; when a user selects a command for closing the temporary standby battery, the mobile communication terminal sends a command for closing the standby battery to the cloud server;

the information instruction receiving and sending module receives the instruction for closing the standby battery and then sends a closing instruction to the cloud lock equipment;

and if the instruction receiving module receives the closing instruction, the standby battery control module controls not to charge.

Further, the data transceiver module further sends a detection instruction of the electric quantity of the backup battery to the cloud lock device; the instruction receiving module receives the detection instruction, detects the electric quantity of the two standby batteries, and when the electric quantity of the two standby batteries is zero; and sending a charging instruction to the mobile communication terminal to remind a user to charge the standby battery or replace the standby battery in time.

The invention has the beneficial effects that: the cloud locking equipment is mainly provided with two standby batteries, and the cloud server establishes a control instruction for a power switch of the standby batteries, so that the cloud locking equipment can be informed of the condition of low electric quantity of the cloud locking equipment of a user in time, and the cloud server can send the control instruction for the standby batteries to the cloud locking equipment to realize the function of automatically charging the cloud locking equipment under the condition that the corresponding operation is not performed on the user in time; not only reached and made the user pass through anytime and anywhere the purpose that mobile communication terminal knows the electric quantity condition of cloud lock equipment in real time, but also further solved the user and in time can't charge or change the battery, nevertheless need unblank the condition to the cloud lock under, effectively carry out the effect of charging to cloud lock equipment to and unblank in time, reduce the sending of unexpected situations such as the electric quantity is not enough, the stability of use is better.

Drawings

FIG. 1 is a system block diagram of a cloud lock based low battery alarm method according to an embodiment of the present invention;

FIG. 2 is a flow chart of a cloud lock based low battery alarm method according to an embodiment of the invention;

wherein: the system comprises a mobile communication terminal 1, a data transceiving module 11, a cloud server 2, an information instruction transceiving module 21, a cloud locking device 3, an electric quantity information sending module 31, an instruction receiving module 32 and a standby battery control module 33.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

A low battery alarm method based on cloud lock comprises a mobile communication terminal 1, a cloud server 2 and a cloud lock device 3; the mobile communication terminal 1 and the cloud lock device 3 are respectively connected with the cloud server 2 through wireless communication, and the method comprises the following steps:

the method comprises the following steps: initializing, and setting two standby batteries in the cloud lock device 3; the cloud server 2 establishes a control instruction for a power switch of the standby battery, wherein the control instruction comprises a starting instruction and a closing instruction;

step two: when the electric quantity of the cloud lock equipment 3 is lower than the electric quantity limit, sending low electric quantity information to the mobile communication terminal 1;

step three: the mobile communication terminal 1 pushes a charging instruction to a user to remind the user to charge the cloud lock device 3 or replace a battery in time when receiving the low power information; if the user does not perform charging or battery replacement operation within the specified time, sending a standby battery starting instruction to the cloud server 2;

step four: the cloud server 2 sends a starting instruction to the cloud locking device 3 when receiving the standby battery starting instruction;

step five: when the cloud lock device 3 receives the start instruction, a circuit of one of the backup batteries is connected to charge, as shown in fig. 2.

The invention provides a cloud lock battery low-power alarm method, which is mainly characterized in that two standby batteries are arranged on a cloud lock device 3, and a control instruction for a power switch of the standby batteries is established by a cloud server 2, so that the low-power condition of the cloud lock device 3 can be informed to a user in time, and the control instruction for the standby batteries can be sent to the cloud lock device 3 by the cloud server 2 under the condition that corresponding operation is not performed on the user in time, so that the function of automatically charging the cloud lock device is realized; not only reached and made the user pass through anytime and anywhere the mobile communication terminal 1 has gone on the purpose of the electric quantity condition of unlocking cloud locking equipment 3 in real time, but also further solved the user and in the unable in time charge or change the battery, nevertheless need unblank the condition to the cloud lock, effectively carry out the effect of charging to cloud locking equipment to and unblank in time, reduce the sending of unexpected situations such as the electric quantity is not enough, the stability of use is better.

Further, after the cloud lock device 3 completes one-time charging by using the backup battery, when the electricity consumption is again reduced within 24 hours so that the electricity quantity is lower than the electricity quantity limit, the low electricity quantity information is sent to the mobile communication terminal 1 again,

the mobile communication terminal 1 pushes a charging instruction or a standby battery closing instruction to a user when receiving the low power information; when the user selects a command of closing the standby battery, the mobile communication terminal 1 sends the command of closing the standby battery to the cloud server 2;

the cloud server 2 sends a closing instruction to the cloud lock device 3 when receiving the standby battery closing instruction; and if the cloud lock device 3 receives the closing instruction, the charging is not performed.

When the cloud lock device 3 finishes charging by adopting the standby battery once and then the electric quantity is low again, the command that whether the standby battery is closed is selected by a user is further limited through the mobile communication terminal 1, and if the command that the standby battery is closed is selected, the cloud lock device 3 does not automatically perform charging operation so as to achieve the effect of saving electricity.

Further, the mobile communication terminal 1 further sends a detection instruction of the electric quantity of the standby battery to the cloud lock device 3;

the cloud lock device 3 detects the electric quantity of the two standby batteries when receiving the detection instruction, and when the electric quantity of the two standby batteries is zero; a charging instruction is sent to the mobile communication terminal 1 to remind the user to charge the standby battery or replace the standby battery in time.

Further, the length of time that the electric quantity of one backup battery can maintain the normal use of the cloud lock device 3 is 24 hours; step two, the electric quantity limit is 10% -15% of electric quantity; and step three, setting the specified time to be 2-3 hours.

A system based on a cloud lock battery low-power alarm method comprises a mobile communication terminal 1, a cloud server 2 and a cloud lock device 3; the mobile communication terminal 1 and the cloud lock device 3 are respectively connected with the cloud server 2 through wireless communication, as shown in fig. 1;

the mobile communication terminal 1 comprises a data transceiver module 11, which is used for receiving the low-power information, pushing a charging instruction to a user, and sending a standby battery starting instruction to the cloud server 2;

the cloud server 2 comprises an information instruction transceiving module 21 for receiving the standby battery starting instruction and sending a control instruction of a power switch of the standby battery to the cloud locking device 3;

the cloud lock device 3 comprises an electric quantity information sending module 31, an instruction receiving module 32 and a standby battery control module 33; the electric quantity information sending module 31 is configured to send electric quantity information to the mobile communication terminal 1 in time; the instruction receiving module 32 is configured to receive a control instruction for a power switch of the backup battery; and the standby battery control module 33 is used for switching on or off a circuit of the standby battery.

To explain further, after the cloud lock device 3 completes charging by using the backup battery once, when the electricity consumption is again decreased within 24 hours, so that the electricity quantity is lower than the electricity quantity limit, the electricity quantity information sending module 31 sends the low electricity quantity information to the mobile communication terminal 1 again,

the data transceiver module 11 is further configured to send a command to close the backup battery to the cloud server 2; the data transceiver module 11, upon receiving the low power information, pushes a charging instruction or a temporary battery shutdown instruction to a user; when a user selects a command for closing the temporary standby battery, the mobile communication terminal 1 sends a command for closing the standby battery to the cloud server 2;

the information instruction transceiver module 21 sends a closing instruction to the cloud lock device 3 when receiving the instruction for closing the standby battery;

if the command receiving module 32 receives the shutdown command, the backup battery control module 33 controls not to charge the battery.

Further, the data transceiver module 11 further sends a detection instruction of the electric quantity of the backup battery to the cloud lock device 3; when the instruction receiving module 32 receives the detection instruction, the electric quantity of the two standby batteries is detected, and when the electric quantity of the two standby batteries is zero; a charging instruction is sent to the mobile communication terminal 1 to remind the user to charge the standby battery or replace the standby battery in time.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (6)

1. A cloud lock based low battery alarm method comprises a mobile communication terminal, a cloud server and cloud lock equipment; the mobile communication terminal and the cloud locking equipment are respectively connected with the cloud server through wireless communication, and the mobile communication terminal is characterized in that: the method comprises the following steps:

the method comprises the following steps: initializing, and setting two standby batteries in the cloud lock equipment; the cloud server establishes a control instruction for a power switch of the standby battery, wherein the control instruction comprises a starting instruction and a closing instruction;

step two: when the electric quantity of the cloud lock equipment is lower than the electric quantity limit, sending low electric quantity information to the mobile communication terminal;

step three: the mobile communication terminal pushes a charging instruction to a user to remind the user to charge the cloud lock equipment or replace a battery in time after receiving the low-power information; if the user does not perform charging or battery replacement operation within the specified time, sending a standby battery starting instruction to the cloud server;

step four: the cloud server sends a starting instruction to the cloud locking equipment when receiving the standby battery starting instruction;

step five: when the cloud lock equipment receives the starting instruction, a circuit of one standby battery is switched on to charge;

after the cloud lock equipment completes one-time charging by adopting the standby battery, when electricity is consumed again within 24 hours to enable the electricity quantity to be lower than the electricity quantity limit, the cloud lock equipment sends low electricity quantity information to the mobile communication terminal again;

the mobile communication terminal pushes a charging instruction or a standby battery closing instruction to a user when receiving the low power information; when the user selects a command of closing the standby battery, the mobile communication terminal sends the command of closing the standby battery to the cloud server;

the cloud server sends a closing instruction to the cloud locking equipment when receiving the standby battery closing instruction; and if the cloud lock equipment receives the closing instruction, the charging is not carried out.

2. The cloud lock based low battery alarm method according to claim 1, wherein: the mobile communication terminal also sends a detection instruction of the electric quantity of the standby battery to the cloud locking equipment;

the cloud locking equipment detects the electric quantity of the two standby batteries when receiving the detection instruction, and when the electric quantity of the two standby batteries is zero; and sending a charging instruction to the mobile communication terminal to remind a user to charge the standby battery or replace the standby battery in time.

3. The cloud lock based low battery alarm method according to claim 1, wherein: the electric quantity of one standby battery can maintain the normal use time length of the cloud lock equipment to be 24 hours; step two, the electric quantity limit is 10% -15% of electric quantity; and step three, setting the specified time to be 2-3 hours.

4. A system based on a cloud lock battery low power alarm method is characterized in that: the system comprises a mobile communication terminal, a cloud server and cloud locking equipment; the cloud lock equipment is provided with two standby batteries; the mobile communication terminal and the cloud locking equipment are respectively connected with the cloud server through wireless communication;

the mobile communication terminal comprises a data transceiving module, a charging module and a standby battery starting module, wherein the data transceiving module is used for receiving the low-power information, pushing a charging instruction to a user and sending a standby battery starting instruction to the cloud server;

the cloud server comprises an information instruction receiving and sending module for receiving the standby battery starting instruction and sending a control instruction of a power switch of the standby battery to the cloud locking equipment;

the cloud locking device comprises an electric quantity information sending module, an instruction receiving module and a standby battery control module; the electric quantity information sending module is used for sending electric quantity information to the mobile communication terminal in time; the instruction receiving module is used for receiving a control instruction of a power switch of the standby battery; and the standby battery control module is used for switching on or switching off a circuit of the standby battery.

5. The system based on the cloud lock battery low-battery alarm method according to claim 4, wherein: after the cloud lock equipment completes one-time charging by adopting the standby battery, when electricity is consumed again within 24 hours to enable the electricity quantity to be lower than the electricity quantity limit, the low electricity quantity information is sent to the mobile communication terminal again through the electricity quantity information sending module;

the data receiving and sending module is further used for sending a standby battery closing instruction to the cloud server; the data transceiver module receives the low power information, and then pushes a charging instruction or a temporary standby battery closing instruction to a user; when the user selects a command of closing the standby battery, the mobile communication terminal sends the command of closing the standby battery to the cloud server;

the information instruction receiving and sending module receives the instruction for closing the standby battery and then sends a closing instruction to the cloud lock equipment;

and if the instruction receiving module receives the closing instruction, the standby battery control module controls not to charge.

6. The system based on the cloud lock battery low-battery alarm method according to claim 4, wherein: the data receiving and transmitting module also sends a detection instruction of the electric quantity of the standby battery to the cloud lock equipment; the instruction receiving module receives the detection instruction, detects the electric quantity of the two standby batteries, and when the electric quantity of the two standby batteries is zero; and sending a charging instruction to the mobile communication terminal to remind a user to charge the standby battery or replace the standby battery in time.

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