阅读说明：本技术 智能锁的控制方法、智能锁及射频识别设备 (Control method of intelligent lock, intelligent lock and radio frequency identification device ) 是由 缪桦 姜少壮 于腾飞 于 2020-04-01 设计创作，主要内容包括：本申请公开了一种智能锁的控制方法、智能锁及射频识别设备,其中,该智能锁的控制方法包括：通过铺设于地面的射频识别设备获取射频识别信息；判断射频识别信息是否为已授权信息；若是,则打开门锁；若否,则继续保持门锁关闭。通过上述方式,本申请中的智能锁能够通过铺设于地面的射频识别设备获取已受权的射频识别信息,以打开门锁,从而能够无需借助手动操作,实现高效、便捷的无感开锁,给用户带来极大的方便。(The application discloses a control method of an intelligent lock, the intelligent lock and radio frequency identification equipment, wherein the control method of the intelligent lock comprises the following steps: acquiring radio frequency identification information through radio frequency identification equipment laid on the ground; judging whether the radio frequency identification information is authorized information; if yes, opening the door lock; if not, the door lock is kept closed. In this way, the intelligent lock in this application can acquire the radio frequency identification information who has been authorized through the radio frequency identification equipment of laying in ground to open the lock, thereby can need not to realize high-efficient, convenient noninductive unblanking with the help of manually operation, bring very big convenience for the user.)

1. A control method of an intelligent lock is characterized by comprising the following steps:

acquiring radio frequency identification information through radio frequency identification equipment laid on the ground;

judging whether the radio frequency identification information is authorized information;

if yes, opening the door lock;

if not, the door lock is kept closed.

2. The method for controlling an intelligent lock according to claim 1, wherein the step of obtaining the radio frequency identification information through the radio frequency identification device laid on the ground comprises:

detecting whether a target NFC label exists in a radio frequency identification area of the radio frequency identification equipment or not through the radio frequency identification equipment laid on the ground;

and if the target NFC label exists in the radio frequency identification area of the radio frequency identification device, acquiring the radio frequency identification information on the target NFC label through the radio frequency identification device.

3. The method for controlling an intelligent lock according to claim 2, wherein before the step of detecting whether the target NFC tag exists in the rfid area of the rfid device by the rfid device laid on the ground, the method further comprises:

detecting whether an authorization card exists in a radio frequency identification area of the intelligent lock;

and if the authorization card exists in the radio frequency identification area of the intelligent lock, writing the radio frequency identification information into the target NFC label placed in the radio frequency identification area of the intelligent lock.

4. The method for controlling an intelligent lock according to claim 2, wherein before the step of detecting whether the target NFC tag exists in the rfid area of the rfid device by the rfid device laid on the ground, the method further comprises:

and receiving an authorized password input by the user of the intelligent lock, and writing the radio frequency identification information into the target NFC tag placed in the radio frequency identification area of the intelligent lock when the authorized password is valid.

5. The method for controlling an intelligent lock according to claim 1, wherein if yes, after the step of unlocking the door lock, the method further comprises:

detecting whether the door lock is closed when a set time threshold value is exceeded;

and if the door lock is not closed when the set time threshold is exceeded, an alarm indication is sent out.

6. A control method of an intelligent lock is characterized by comprising the following steps:

the method comprises the steps that corresponding radio frequency identification information is obtained by radio frequency identification equipment, wherein the radio frequency identification equipment is laid on the ground;

and sending the radio frequency identification information to the intelligent lock so that the intelligent lock judges whether the radio frequency identification information is authorized information or not, so that when the radio frequency identification information is determined to be authorized information, the door lock is opened, and when the radio frequency identification information is not the authorized information, the door lock is kept closed.

7. An intelligent lock, characterized in that the intelligent lock comprises:

the power supply circuit is used for providing a working power supply signal;

the main control circuit is connected with the power circuit, externally connected with a radio frequency identification device laid on the ground and used for receiving the radio frequency identification information sent by the radio frequency identification device and judging whether the radio frequency identification information is authorized information;

and the lock cylinder driver is connected with the power circuit and the master control circuit and used for receiving an unlocking control signal sent by the master control circuit when the radio frequency identification information is determined to be authorized information so as to drive the lock cylinder connected to the lock cylinder driver to act and open the door lock.

8. The smart lock of claim 7,

the intelligent lock further comprises a radio frequency identifier, wherein the radio frequency identifier is connected with the power supply circuit and the master control circuit and used for detecting whether an authorization card exists in a radio frequency identification area of the radio frequency identifier or not, so that when the authorization card exists in the radio frequency identification area of the radio frequency identifier, an authorization allowing signal is sent to the master control circuit, and the master control circuit writes preset radio frequency identification information into a target NFC label placed in the radio frequency identification area of the radio frequency identifier.

9. The smart lock of claim 7,

the intelligent lock further comprises an alarm indicating circuit, wherein the alarm indicating circuit is connected with the power circuit and the main control circuit and is used for sending an alarm indication when receiving an alarm control signal sent by the main control circuit when the main control circuit detects that the corresponding door lock is not closed and exceeds a set time threshold.

10. A radio frequency identification device, wherein the radio frequency identification device is laid on the ground, the radio frequency identification device comprising:

a structural shell;

the power supply circuit is arranged on the structural shell and used for providing a working power supply signal;

the radio frequency identification coil is arranged on the structural shell, connected with the power circuit and externally connected with an intelligent lock, and is used for acquiring corresponding radio frequency identification information so as to send the radio frequency identification information to the intelligent lock, so that the intelligent lock judges whether the radio frequency identification information is authorized information or not, a door lock is opened when the radio frequency identification information is determined to be the authorized information, and the door lock is continuously kept closed when the radio frequency identification information is not the authorized information.

Technical Field

The application relates to the technical field of intelligent locks, in particular to a control method of an intelligent lock, the intelligent lock and radio frequency identification equipment.

Background

At present, with the development and application in the field of electronic information, intelligent locks become more common, various types of intelligent locks appear in the market in succession, and the corresponding unlocking mode mainly includes: fingerprint unlocking, password unlocking, mobile phone remote unlocking, Bluetooth unlocking, NFC (Near Field Communication) card swiping unlocking, face recognition and the like, and a lock hole is reserved simultaneously so as to use a key to unlock as an emergency auxiliary unlocking mode.

The intelligent lock greatly facilitates the daily requirements of people, but the problem is that the existing various unlocking modes still cannot achieve noninductive unlocking and are safe and feasible enough. For example, when the mobile phone is used for unlocking, the mobile phone needs to be taken out, and the NFC function needs to be opened (but some manufacturers need to authenticate fingerprints to ensure security, and can use the NFC access card simulation function); when the fingerprint is used for unlocking, certain potential safety hazards are brought because the fingerprint remains on the door lock and the door handle; when the password is used for unlocking, the corresponding password needs to be input every time, so that the convenience is brought; when the face recognition is used for unlocking, although a tool is not required to be carried, the safety coefficient is high, but the recognition speed is low and the cost is high.

Disclosure of Invention

The technical problem mainly solved by the application is to provide a control method of an intelligent lock, the intelligent lock and radio frequency identification equipment, and the control method of the intelligent lock can solve the problems that the unlocking mode in the prior art still needs a user to stretch hands to operate, so that the unlocking can be realized, and the true non-inductive unlocking cannot be realized.

In order to solve the technical problem, the application adopts a technical scheme that: the control method of the intelligent lock comprises the following steps: acquiring radio frequency identification information through radio frequency identification equipment laid on the ground; judging whether the radio frequency identification information is authorized information; if yes, opening the door lock; if not, the door lock is kept closed.

The step of obtaining the radio frequency identification information through the radio frequency identification equipment laid on the ground comprises the following steps: detecting whether a target NFC label exists in a radio frequency identification area of the radio frequency identification equipment through the radio frequency identification equipment laid on the ground; and if the target NFC label exists in the radio frequency identification area of the radio frequency identification device, acquiring the radio frequency identification information on the target NFC label through the radio frequency identification device.

Before the step of detecting whether the target NFC tag exists in the radio frequency identification area of the radio frequency identification device through the radio frequency identification device laid on the ground, the method further includes: detecting whether an authorization card exists in a radio frequency identification area of the intelligent lock; and if the authorization card exists in the radio frequency identification area of the intelligent lock, writing the radio frequency identification information into the target NFC label placed in the radio frequency identification area of the intelligent lock.

Before the step of detecting whether the target NFC tag exists in the radio frequency identification area of the radio frequency identification device through the radio frequency identification device laid on the ground, the method further includes: and receiving an authorized password input by a user of the intelligent lock, and writing the radio frequency identification information into the target NFC label placed in the radio frequency identification area of the intelligent lock when the authorized password is valid.

Wherein, if, then after the step of opening the lock, still include: detecting whether the door lock is closed when a set time threshold value is exceeded; and if the door lock is not closed when the set time threshold is exceeded, giving an alarm indication.

In order to solve the above technical problem, the present application adopts another technical solution: the control method of the intelligent lock comprises the following steps: the method comprises the steps that corresponding radio frequency identification information is obtained by radio frequency identification equipment, wherein the radio frequency identification equipment is laid on the ground; and sending the radio frequency identification information to the intelligent lock so that the intelligent lock judges whether the radio frequency identification information is authorized information or not, so that the door lock is opened when the radio frequency identification information is determined to be authorized information, and the door lock is continuously kept closed when the radio frequency identification information is not authorized information.

In order to solve the above technical problem, the present application adopts another technical solution: provided is an intelligent lock, wherein the intelligent lock comprises: the power supply circuit is used for providing a working power supply signal; the main control circuit is connected with the power supply circuit, externally connected with a radio frequency identification device laid on the ground and used for receiving the radio frequency identification information sent by the radio frequency identification device and judging whether the radio frequency identification information is authorized information; and the lock cylinder driver is connected with the power circuit and the main control circuit and used for receiving an unlocking control signal sent by the main control circuit when the radio frequency identification information is determined to be authorized information so as to drive the lock cylinder connected to the lock cylinder driver to act and open the door lock.

The intelligent lock further comprises a radio frequency identifier, wherein the radio frequency identifier is connected with the power supply circuit and the main control circuit and is used for detecting whether an authorization card exists in a radio frequency identification area of the radio frequency identifier or not, so that when the authorization card exists in the radio frequency identification area of the radio frequency identifier, an authorization allowing signal is sent to the main control circuit, and the main control circuit writes preset radio frequency identification information into a target NFC label placed in the radio frequency identification area of the radio frequency identifier.

The intelligent lock further comprises an alarm indicating circuit, wherein the alarm indicating circuit is connected with the power circuit and the main control circuit and used for sending an alarm indication when receiving an alarm control signal sent by the main control circuit when the main control circuit detects that the corresponding door lock is not closed and exceeds a set time threshold.

In order to solve the above technical problem, the present application adopts another technical solution: there is provided a radio frequency identification device, wherein the radio frequency identification device is laid on the ground, the radio frequency identification device comprising: a structural shell; the power supply circuit is arranged on the structural shell and used for providing a working power supply signal; the radio frequency identification coil is arranged on the structural shell, is connected with the power supply circuit and is externally connected with an intelligent lock, and is used for acquiring corresponding radio frequency identification information so as to send the radio frequency identification information to the intelligent lock, so that the intelligent lock judges whether the radio frequency identification information is authorized information or not, the door lock is opened when the radio frequency identification information is determined to be authorized information, and the door lock is continuously kept closed when the radio frequency identification information is not authorized information.

The beneficial effect of this application is: different from the situation of the prior art, the control method of the intelligent lock obtains the radio frequency identification information through the radio frequency identification equipment laid on the ground, so that the door lock is opened when the radio frequency identification information is determined to be authorized information, and the door lock is continuously kept closed when the radio frequency identification information is determined not to be authorized information, so that the intelligent lock can be unlocked efficiently and conveniently without manual operation, and great convenience is brought to a user.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating a first embodiment of a method for controlling an intelligent lock according to the present application;

FIG. 2 is a schematic flow chart diagram illustrating a second embodiment of a control method for the smart lock of the present application;

FIG. 3 is a schematic flow chart diagram illustrating a third embodiment of a control method for the smart lock of the present application;

FIG. 4 is a schematic structural diagram of a first embodiment of the smart lock of the present application;

FIG. 5 is a schematic structural diagram of a second embodiment of the smart lock of the present application;

FIG. 6 is a schematic structural diagram of a third embodiment of the smart lock of the present application;

FIG. 7 is a schematic structural diagram of an embodiment of an RFID device of the present application;

fig. 8 is a schematic structural diagram of an embodiment of a control system of the smart lock of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, fig. 1 is a schematic flowchart illustrating a control method of an intelligent lock according to a first embodiment of the present application. The embodiment comprises the following steps:

s11: and acquiring radio frequency identification information through radio frequency identification equipment laid on the ground.

Specifically, the intelligent lock is firstly connected with the radio frequency identification device, in one embodiment, the intelligent lock is electrically connected with the radio frequency identification device laid on the ground through a conductive wire, or is wirelessly connected with the radio frequency identification device through one or more combinations of a bluetooth network technology, an ultra wideband technology (UWB), Wi-Fi and a ZigBee network technology (ZigBee), so that when the intelligent lock is in a closed state, the radio frequency identification information appearing in a radio frequency identification area of the radio frequency identification device is acquired through the radio frequency identification device, wherein the radio frequency identification information can be interpreted as unlocking encryption data corresponding to the intelligent lock, so that the intelligent lock can be unlocked.

In an optional embodiment, the rfid device may be a floor mat or a shoe-wiping mat laid on the ground in front of the door and having a built-in rfid coil, so as to be able to identify and acquire the rfid information in the NFC tag appearing in the rfid area thereof, for example, the NFC tag placed under the shoe-pad of the user, and further send the acquired rfid information to the corresponding smart lock, so that the floor mat in front of the door and the rfid coil can be combined, so that the identification and acquisition of the corresponding rfid information occur under the foot of the user and in front of the door, and thus the behavior that the user must stand in front of the door before opening the door can be combined, so that the corresponding identification acquisition and unlocking behavior is non-inductive and convenient. In other embodiments, the rfid device may also be an electronic device integrated with a rfid coil and installed in a decorative item, such as a mailbox or a flower basket, hung on a wall in front of a door.

S12: and judging whether the radio frequency identification information is authorized information.

Specifically, after the smart lock acquires corresponding radio frequency identification information through a radio frequency identification device laid on the ground, it is further determined whether the acquired radio frequency identification information is authorized information, for example, whether the acquired radio frequency identification information includes unlocking encryption data matched with the smart lock is determined to determine whether the radio frequency identification information is authorized information.

Wherein if the rfid information is authorized information, S13 is performed, and if the rfid information is not authorized information, S14 is performed.

S13: the door lock is unlocked.

When the obtained radio frequency identification information is determined to be authorized information, the intelligent lock opens the corresponding door lock, for example, a power supply of a driving motor corresponding to the intelligent lock cylinder is switched on, so that the driving motor rotates forwards and opens the door lock, and therefore the intelligent lock can be unlocked efficiently and conveniently without manual operation, and great convenience is brought to a user.

S14: the door lock continues to be held closed.

When the intelligent lock determines that the acquired radio frequency identification information is not authorized information, the intelligent lock continues to keep the door lock closed.

Different from the prior art, the control method of the intelligent lock obtains the radio frequency identification information through the radio frequency identification equipment laid on the ground, so that the door lock is opened when the radio frequency identification information is determined to be authorized information, and the door lock is continuously kept closed when the radio frequency identification information is determined not to be authorized information, so that manual operation is not needed, efficient and convenient non-inductive unlocking is realized, and great convenience is brought to a user.

Referring to fig. 2, fig. 2 is a control method of the intelligent lock of the present application. The embodiment comprises the following steps:

s21: and receiving an authorized password input by a user of the intelligent lock, and writing the radio frequency identification information into the target NFC label placed in the radio frequency identification area of the intelligent lock when the authorized password is valid.

Specifically, the smart lock receives an authorization code input by a user thereof, for example, the authorization code input by the user through a numeric keypad on a control panel of the smart lock, so as to enter an authorization mode when the authorization code is determined to be valid, so as to write corresponding radio frequency identification information into a target NFC tag placed in a radio frequency identification area of the smart lock.

The radio frequency identification information can be understood as unlocking encrypted data for unlocking the intelligent lock, and the intelligent lock can write the radio frequency identification information, namely the unlocking encrypted data, into the target NFC tag, so that the intelligent lock can be unlocked through the target NFC tag in the following process.

In another embodiment, the smart lock may further perform unlocking authorization on the corresponding target NFC tag through an authorization card. The smart lock detects the radio frequency identification area in real time to detect the radio frequency identification area, namely whether an authorization card is placed in the corresponding authorization card identification area on the control panel of the smart lock, and when the authorization card is determined to exist in the radio frequency identification area, the smart lock enters an authorization mode to write corresponding radio frequency identification information, namely unlocking encryption data into a target NFC label placed in the radio frequency identification area of the smart lock. It can be understood that when the smart lock detects that the authorization card is placed in the corresponding authorization card identification area, the authorization process is automatically started without performing other operations, so as to simplify the process of authorizing the new card, i.e., the new target NFC tag, and since the authorization card and the access card, i.e., the target NFC tag can be separated, the risk of losing the authorization card when the smart lock leaves the door can be effectively reduced.

Before the authorization mode is ended through a corresponding button on a control panel of the intelligent lock, the radio frequency identification information can be continuously written into a plurality of target NFC labels placed in a radio frequency identification area of the intelligent lock. In other embodiments, the smart lock may be configured to automatically exit the authorization mode after entering the authorization mode if it is detected that no target NFC tag is placed in the rfid area of the smart lock within a set time period, or if no operation is performed within the set time period. The set time may be any reasonable time such as 30 seconds, 45 seconds, or 60 seconds, and the user may set the time reasonably according to the need, which is not limited in the present application.

Wherein, this target NFC label's quantity can include one or more, and because it has small, can buckle the advantage of each side of waiting, therefore can place it into in user's the shoe-pad, in user's cell-phone shell or other user wearable equipment to can place this target NFC label in the radio frequency identification district of the radio frequency identification equipment of being connected with the intelligence lock in the mode come to unlock the intelligence lock, and after this target NFC label is impaired, can authorize the replenishment through above-mentioned mode to new target NFC label by oneself.

S22: and detecting whether a target NFC label exists in a radio frequency identification area of the radio frequency identification equipment or not by the radio frequency identification equipment laid on the ground.

Specifically, the smart lock firstly establishes an electrical connection or a communication connection with a radio frequency identification device laid on the ground, for example, a floor mat including a radio frequency identification coil in front of a door, so that when the smart lock is in a closed state, a radio frequency identification area of the radio frequency identification device is detected and identified in real time through the radio frequency identification device, and whether a target NFC tag exists in the radio frequency identification area is determined.

Wherein S23 is performed if the target NFC tag is detected to exist in the radio frequency identification area of the radio frequency identification device, and S24 is performed if the target NFC tag is detected to exist in the radio frequency identification area of the radio frequency identification device.

S23: and acquiring radio frequency identification information on the target NFC label through the radio frequency identification equipment.

Specifically, when the smart lock detects that the target NFC tag exists in the radio frequency identification area of the radio frequency identification device through the radio frequency identification device laid on the ground, for example, a ground mat laid on the ground and having a radio frequency identification coil built therein, the smart lock further acquires the radio frequency identification information on the target NFC tag through the radio frequency identification device, that is, the unlocking encryption data. In other real-time examples, the radio frequency identification device is further internally provided with a WiFi module or a Bluetooth communication module so as to be capable of establishing communication connection with the intelligent lock.

S24: the door lock continues to be held closed.

When the intelligent lock detects that the radio frequency identification area of the radio frequency identification device does not have the target NFC label through the radio frequency identification device laid on the ground, the intelligent lock continues to keep the door lock closed.

S25: and judging whether the radio frequency identification information is authorized information.

Specifically, after the smart lock acquires corresponding radio frequency identification information through a radio frequency identification device laid on the ground, it is further determined whether the acquired radio frequency identification information is authorized information, for example, the acquired radio frequency identification information is subjected to identification detection to determine whether the radio frequency identification information includes unlocking encryption data matched with the smart lock, so as to determine whether the radio frequency identification information is authorized information.

It can be understood that the intelligent lock authorizes the corresponding radio frequency identification information in advance, so that whether the door lock is opened or not can be determined by identifying and detecting whether the obtained radio frequency identification information is authorized information or not, namely whether corresponding unlocking encrypted data is written in.

Wherein if the radio frequency identification information is authorized information, performing S26, and if the radio frequency identification information is not authorized information, performing S27.

S26: the door lock is unlocked.

When the obtained radio frequency identification information is determined to be authorized information, the intelligent lock opens the corresponding door lock, for example, the power supply of the driving motor of the intelligent lock cylinder is switched on, so that the driving motor rotates forwards to open the door lock, and after the door lock is unlocked, the opening and closing state of the door lock is further detected, so that after the door lock is closed, the driving motor rotates backwards to lock the lock cylinder, so that manual operation is not needed, efficient and convenient non-inductive unlocking is realized, and great convenience is brought to a user.

S27: the door lock continues to be held closed.

When the intelligent lock determines that the acquired radio frequency identification information is not authorized information, the intelligent lock continues to keep the door lock closed.

S28: it is detected whether the door lock is closed when a set time threshold is exceeded.

Specifically, after the obtained rfid information is determined to be authorized information, the smart lock further detects whether the door lock is closed after a set time threshold is exceeded, for example, whether the door lock is closed after the set time threshold is exceeded by detecting whether a contact provided on a corresponding door frame is powered on.

The set time threshold may be any reasonable time such as 1 minute, 3 minutes or 5 minutes, and the user may set the time threshold reasonably according to the need, which is not limited in the present application.

Wherein S29 is executed if it is detected that the door lock is closed when the set time threshold is exceeded, and S210 is executed if it is detected that the door lock is not closed when the set time threshold is exceeded.

S29: and charging the internal power supply of the intelligent lock.

Specifically, a power supply circuit is arranged in the intelligent lock, so that a power supply signal is provided for the intelligent lock and the radio frequency identification device electrically connected with the intelligent lock. Wherein, still be provided with the door frame contact on the door frame that this intelligence lock corresponds to when the lock is closed, this door frame contact is closed, thereby makes charging source, like the switch-on of domestic power supply and intelligence lock's power supply circuit, in order to charge this power supply circuit. When the intelligent lock detects that the time threshold is exceeded and the door lock is closed, the internal power supply of the intelligent lock is continuously charged.

S210: and sending out an alarm indication.

The intelligent lock also comprises an alarm indicating circuit, so that when the timer of the intelligent lock detects that the time threshold is exceeded and the door lock is not closed, an alarm indication is sent out, for example, a flash lamp or a buzzer connected to the intelligent lock sends out an audible and visual alarm indication to remind a user to close the door.

Based on the general inventive concept, the present application further provides a control method of an intelligent lock, please refer to fig. 3, and fig. 3 is a flowchart illustrating a third embodiment of the control method of the intelligent lock according to the present application. The method comprises the following steps:

s31: and the radio frequency identification equipment acquires corresponding radio frequency identification information, wherein the radio frequency identification equipment is laid on the ground.

Specifically, the radio frequency identification device detects and identifies the radio frequency identification area in real time, wherein the radio frequency identification distance of the radio frequency identification device can be controlled within a range of less than 10cm, 15cm or any other reasonable distance, so that the false triggering probability is reduced, and meanwhile, the identification safety is ensured. In an embodiment, when detecting that a target NFC tag exists in a radio frequency identification area of a radio frequency identification device, the radio frequency identification device further acquires radio frequency identification information written in the target NFC tag. The rfid device is laid on the ground, for example, the rfid device may be a floor mat or a shoe-cleaning mat laid on the ground and having an rfid coil built therein.

In other embodiments, the rfid device may also be an electronic device with an rfid coil built in and mounted on an ornament such as a mailbox or a flower basket hung on a wall in front of a door, so as to identify and acquire the rfid information written in the NFC tag appearing in the rfid area.

S32: and sending the radio frequency identification information to the intelligent lock so that the intelligent lock judges whether the radio frequency identification information is authorized information or not, so that the door lock is opened when the radio frequency identification information is determined to be authorized information, and the door lock is continuously kept closed when the radio frequency identification information is not authorized information.

Specifically, after the radio frequency identification device acquires the corresponding radio frequency identification information, the radio frequency identification information is further sent to the intelligent lock, so that the intelligent lock determines whether the radio frequency identification information is authorized information, for example, determines whether the radio frequency identification information includes unlocking encrypted data, determines whether the radio frequency identification information is authorized information, opens the door lock when the radio frequency identification information is determined to be authorized information, that is, when the radio frequency identification information includes unlocking encrypted data, and continues to keep the door lock closed when the radio frequency identification information is determined not to be authorized information.

Based on the general inventive concept, the present application further provides an intelligent lock, please refer to fig. 4, and fig. 4 is a schematic structural diagram of a first embodiment of the intelligent lock of the present application. The smart lock 41 of the present embodiment includes: a power circuit 411, a master control circuit 412, and a key cylinder driver 413.

The power circuit 411 is configured to provide a working power signal for the smart lock 41, and the main control circuit 412 is connected to the power circuit 411 and is externally connected to a radio frequency identification device laid on the ground, for example, a ground mat laid on the ground and having a radio frequency identification coil built therein, so as to receive radio frequency identification information sent by the radio frequency identification device, and further determine whether the radio frequency identification information is authorized information, so as to send an unlocking control signal to the lock cylinder driver 413 when it is determined that the radio frequency identification information is authorized information, so as to drive the lock cylinder connected to the lock cylinder driver 413 through the lock cylinder driver 413, thereby opening the door lock. The key cylinder driver 413 is connected to the power circuit 411 and the main control circuit 412.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a second embodiment of the smart lock of the present application. In this embodiment, based on the first embodiment of the smart lock provided in the present application, the smart lock 41 further includes a radio frequency identifier 414.

The rfid 414 is connected to the power circuit 411 and the main control circuit 412, and is configured to detect whether an authorized card exists in a radio frequency identification area of the rfid 414, that is, whether an authorized card is placed in the radio frequency identification area, so that when it is determined that the authorized card exists in the radio frequency identification area of the rfid 414, an authorization-allowing signal is sent to the main control circuit 412, so that the main control circuit 412 writes preset radio frequency identification information, that is, corresponding unlocking encryption information into a target NFC tag placed in the radio frequency identification area of the rfid 414, so as to unlock the smart lock through the target NFC tag.

Wherein, this target NFC label's quantity can include one or more, and because it has small, can buckle the advantage of each side of waiting, therefore can put into user's the shoe-pad in, user's cell-phone shell or in other user's wearable equipment with it to can unblock corresponding smart lock through this target NFC label, and can authorize the replenishment to new target NFC label by oneself after this target NFC label is impaired.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a third embodiment of the intelligent lock of the present application. This embodiment is based on the first embodiment of the smart lock provided in this application, and the smart lock 41 further includes an alarm indication circuit 415.

The alarm indication circuit 415 is connected to the power circuit 411 and the main control circuit 412, and configured to send an alarm indication when receiving an alarm control signal sent by the main control circuit 412. The main control circuit 412 sends an alarm control signal to the alarm indicating circuit 415 when detecting that the corresponding door lock is not closed after a set time threshold is exceeded, for example, any reasonable time such as exceeding 1 minute, 3 minutes or 5 minutes, so that the alarm indicating circuit 415 sends an alarm indication, for example, a flash lamp or a buzzer integrated on the alarm indicating circuit 415 performs an audible and visual alarm.

Based on the general inventive concept, the present application further provides a radio frequency identification device, please refer to fig. 7, and fig. 7 is a schematic structural diagram of an embodiment of the radio frequency identification device of the present application. The radio frequency identification device 51 of the present embodiment includes: a structural housing 511, a power circuit 512, and a radio frequency identification coil 513.

The power circuit 512 is disposed on the structural housing 511 and configured to provide a working power signal for the rfid device 51, and the rfid coil 513 is disposed on the structural housing 511 and connected to the power circuit 512, and is externally connected to an intelligent lock and configured to obtain corresponding rfid information and send the rfid information to the intelligent lock, so that the intelligent lock determines whether the rfid information is authorized information, for example, determines whether the rfid information includes unlocking encryption data, so that when the rfid information is determined to be authorized information, the door lock is opened, and when the rfid information is not authorized information, the door lock is continuously kept closed.

In an embodiment, please refer to fig. 8, fig. 8 is a schematic structural diagram of an embodiment of a control system of an intelligent lock according to the present application. Wherein, this intelligence lock's control system includes: the intelligent lock comprises an intelligent lock, radio frequency identification equipment, a lock cylinder driving motor, an internal power supply, a charging power supply, a door frame contact, a door card and an authorization card.

The intelligent lock is internally provided with a radio frequency identifier, a control panel, a lock cylinder driving motor and a control unit, wherein the control panel comprises an authorization identification area and a digital panel, so that when an authorization card is placed in the authorization identification area, an authorization mode is entered, and corresponding radio frequency identification information, such as unlocking encryption data, is written into a door card which is successively placed in the authorization identification area. The door card comprises one or more NFC labels, the radio frequency identification device is electrically connected with the intelligent lock, the door card can be a ground mat or a shoe wiping mat which is laid on the ground and internally provided with a radio frequency identification coil, so that when the NFC labels exist in a card swiping identification area of the door card, the radio frequency identification information in the NFC labels is acquired, and the radio frequency identification information is sent to the control unit of the intelligent lock, so that the control unit of the intelligent lock triggers the lock cylinder driving motor to rotate forwards when determining that the radio frequency identification information is effective, so that the corresponding door lock is opened, and triggers the lock cylinder driving motor to rotate backwards when the door lock is closed, so that the corresponding lock cylinder is locked.

Wherein, place the intelligent lock in the internal power source to be connected with the control unit electricity of intelligent lock, be used for providing the power for intelligent lock and radio frequency identification equipment, and the door frame contact sets up in the position department with the door frame of intelligent lock contact, with closed when the intelligent lock is closed, thereby make charging power supply charge to internal power source.

Different from the prior art, the control method of the intelligent lock obtains the radio frequency identification information through the radio frequency identification equipment laid on the ground, so that the door lock is opened when the radio frequency identification information is determined to be authorized information, and the door lock is continuously kept closed when the radio frequency identification information is determined not to be authorized information, so that manual operation is not needed, efficient and convenient non-inductive unlocking is realized, and great convenience is brought to a user.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.