CN207503302U - Electronic lock and its control system - Google Patents

Abstract

The utility model embodiment discloses a kind of electronic lock and its control system, including communications module and processor, wherein, communications module can receive the encrypted control instruction of mobile communication terminal transmission, encrypted control instruction can be decrypted in processor, and electronic lock is controlled in response to decrypting obtained control instruction, so as to fulfill control of the mobile communication terminal to electronic lock is passed through, a kind of new mode controlled electronic lock is provided, improves the convenience that electronic lock uses.

Description

Electronic lock and control system thereof

Technical Field

The utility model relates to an electronic lock technical field, more specifically say, relate to an electronic lock and control system thereof.

Background

Along with the rapid development of electronic technology and the improvement of living standard of people, electronic locks increasingly enter the lives of people, and bring certain convenience to the lives of people.

However, at present, a user can only operate the electronic lock itself to control the electronic lock, for example, the electronic lock is controlled by operating a keyboard of the electronic lock. The control mode is single and poor in convenience.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention has been made to provide an electronic lock and a control system thereof that overcome or at least partially solve the above problems.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an electronic lock control system comprising:

the communication module is used for receiving the encrypted control instruction sent by the mobile communication terminal;

and the processor is connected with the communication module and used for decrypting the encrypted control instruction and controlling the electronic lock in response to the control instruction obtained by decryption.

The above system, preferably, further comprises:

the induction module is connected with the processor and used for acquiring induction information;

the processor is further configured to control the electronic lock based on the sensing information.

In the system, preferably, the sensing module is disposed in the electronic lock;

the installation position of the induction module is associated with a handle seat positioned on one indoor side in the electronic lock;

when the handle seat is in a first preset action, the sensing information collected by the sensing module is changed.

Above-mentioned system, preferably, the response module includes:

the first sensing component is used for generating sensing information;

the second sensing component is used for acquiring sensing information generated by the first sensing component;

one of the first sensing part and the second sensing part is arranged on the handle seat, and the other sensing part is arranged in a first preset area around the handle seat, so that the sensing information collected by the second sensing part is changed when the handle seat is subjected to a first preset action.

In the above system, preferably, the first sensing component is an infrared emission sensor, and the second sensing component is an infrared reception sensor.

In the above system, preferably, the first sensing member is a magnet, and the second sensing member is a reed switch.

Above-mentioned system, preferably, the response module includes:

the key is arranged in a second preset area around the handle seat to ensure that the sensing information collected by the key changes when the handle seat performs a first preset action.

Above-mentioned system, preferably, the response module includes:

the first sub-induction module is used for acquiring first induction information, and the installation position of the first sub-induction module is associated with a bolt of the electronic lock or a door body for installing the electronic lock; when the bolt is retracted into the electronic lock or the door body is opened, the first sensing information changes;

and the second sub-induction module is used for acquiring second induction information, the installation position of the second sub-induction module is associated with the mechanical unlocking mechanism of the electronic lock, and when the mechanical unlocking mechanism generates a second preset action, the second induction information changes.

Preferably, in the above system, the communication module includes a bluetooth module, or an internet access module.

An electronic lock comprising the electronic lock control system of any one of the above.

According to the above technical scheme, the utility model provides a pair of electronic lock and control system thereof, including communication module and treater, wherein, communication module can receive the encrypted control command that mobile communication terminal sent, and the treater can decipher encrypted control command to control the electronic lock in response to the control command that the deciphering obtained, thereby realize through mobile communication terminal to the control of electronic lock, provide a new mode of controlling the electronic lock, improved the convenience that the electronic lock used.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic lock control system according to an embodiment of the present invention;

fig. 2 is another schematic structural diagram of an electronic lock control system according to an embodiment of the present invention;

fig. 3 is a schematic view of an installation position of the first sensing component and the second sensing component according to the embodiment of the present invention;

fig. 4 is a schematic view of another installation position of the first sensing component and the second sensing component according to the embodiment of the present invention;

fig. 5 is a schematic view of another installation position of the first sensing component and the second sensing component according to the embodiment of the present invention;

fig. 6 is a flowchart of an implementation of the electronic lock control method according to an embodiment of the present invention.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims, as well as in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated herein.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without any creative effort belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an electronic lock control system according to an embodiment of the present invention, which may include:

a communication module 11 and a processor 12.

The communication module 11 is configured to receive an electrical signal sent by the mobile communication terminal, where the electrical signal carries an encrypted control instruction.

That is, the electronic lock communicates with the mobile communication terminal through the communication module 11. Therefore, the electronic lock can be controlled through the mobile communication terminal.

The mobile communication terminal can be a mobile phone, a tablet computer or other common portable communication equipment.

In an optional embodiment, the communication module 11 may be a bluetooth module, or may be an internet access module, for example, a WIFI access module.

The processor 12 is connected to the communication module 11, and is configured to obtain the encrypted control instruction received by the communication module 11, decrypt the encrypted control instruction, and control the electronic lock in response to the decrypted control instruction.

The application provides an electronic lock control system can receive the encrypted control command that mobile communication terminal sent through communication module, and the treater can decrypt encrypted control command to control the electronic lock in response to the control command that the deciphering obtained, thereby realize the control to the electronic lock through mobile communication terminal, provide a new mode of controlling the electronic lock, improved the convenience that the electronic lock used.

Optionally, on the basis of the embodiment shown in fig. 1, another schematic structural diagram of the electronic lock control system provided in the embodiment of the present application is shown in fig. 2, and may further include:

and the sensing module 21 is connected with the processor 12 and used for acquiring sensing information. The sensing module 21 may be installed inside the electronic lock, or installed outside the electronic lock, or installed partially inside the electronic lock and partially outside the electronic lock. The specific installation position can be selected according to actual requirements.

The processor 12 may also be configured to control the electronic lock based on the sensed information.

The electronic lock control system provided by the embodiment is additionally provided with the induction module, so that the electronic lock can be controlled according to induction information, a mode for automatically controlling the electronic lock is provided, and the convenience of the electronic lock is further improved.

In an alternative embodiment, the sensing module 21 may be disposed in the electronic lock. Specifically, the mounted position of response module 21 can be correlated with the handle seat that is located indoor one side in the electronic lock, and when the handle seat took place first preset action, the response information that the response module 21 gathered changed. That is to say, the change situation of the sensing information collected by the sensing module 21 can represent the action situation of the handle seat located at one indoor side in the electronic lock, and the action of the handle seat is caused by the action of the indoor handle, so that the sensing information collected by the sensing module 21 can represent whether the electronic lock is opened from indoor or not. Therefore, the processor 12 can judge whether the electronic lock is unlocked from the room according to the change of the sensing information collected by the sensing module 21.

Optionally, the sensing module may include a first sensing part and a second sensing part; wherein,

the first sensing component is used for generating sensing information.

The second sensing component is used for acquiring sensing information generated by the first sensing component.

One of the first sensing part and the second sensing part is arranged on the handle seat on one indoor side, and the other sensing part is arranged in a first preset area around the handle seat, so that the sensing information collected by the second sensing part is changed when the first preset action is carried out on the handle seat on one indoor side.

In an alternative embodiment, the first sensing component may be an infrared emission sensor for emitting infrared rays, and the second sensing component may be an infrared reception sensor for receiving infrared rays emitted from the infrared emission sensor.

When the electronic lock is opened, the intensity of the infrared ray received by the second sensing component is different from that of the infrared ray received by the second sensing component when the electronic lock is closed, so that when the electronic lock is opened, the intensity of the signal output by the second sensing component is different from that of the signal output by the second sensing component when the electronic lock is closed.

Accordingly, the processor 12 may determine whether the electronic lock is unlocked according to the strength change of the signal output by the second sensing part.

In another alternative embodiment, the first inductive component may be a magnet for generating a magnetic field, and the second inductive component may be a reed switch for changing its switching state under the action of the magnetic field and restoring the switching state when the magnetic field is removed.

For example, the reed switches are normally open reed switches, when the magnet is close to the reed switches, the reed switches are closed, and when the magnet is far away from the reed switches, the reed switches are restored to the normally open mode; on the contrary, the reed pipes are normally closed reed pipes, when the magnet is close to the reed pipes, the reed pipes are opened, and when the magnet is far away from the reed pipes, the reed pipes are restored to the normally closed mode.

In this example, the reed switch is in a different on-off state when the electronic lock is open than when the electronic lock is closed.

The induction information output by the reed switch is switching value and is used for representing the switching state of the reed switch. The switch state of the reed switch is changed, and the output switch quantity is changed, which indicates that the switch state of the electronic lock is changed.

In an optional embodiment, the sensing module 21 may include a key, and the key is disposed in the second preset region around the handle seat to ensure that the sensing information collected by the key changes when the handle seat performs the first preset action.

The sensing information collected by the key is the state information of the key, and the state information is used for representing whether the key is pressed or not.

In an alternative embodiment, the sensing module 21 may include:

the first sub-induction module and the second sub-induction module; wherein,

the first sub-induction module is used for acquiring first induction information, and the installation position of the first sub-induction module is associated with a bolt of the electronic lock or a door body of the electronic lock; when the bolt is retracted into the electronic lock or the door body is opened, the first sensing information changes; therefore, whether the electronic lock is opened or not can be judged according to the change condition of the first sensing information.

The second sub-sensing module is used for collecting second sensing information, the installation position of the second sub-sensing module is associated with a preset mechanical unlocking mechanism of the electronic lock, and when the preset mechanical unlocking mechanism generates a second preset action, the second sensing information changes. Therefore, whether the electronic lock is opened in a mechanical unlocking mode can be judged according to the change condition of the second sensing information.

If the electronic lock is unlocked by the mechanical key, the preset mechanical unlocking mechanism of the electronic lock can be a lock hole; if the electronic lock is unlocked through the mechanical code turntable, the preset mechanical unlocking mechanism of the electronic lock can be the mechanical code turntable.

In an alternative embodiment, the first sub-sensing module may include:

the first sensing component is used for generating sensing information;

the second sensing component is used for acquiring sensing information generated by the first sensing component;

if the installation position of the first sub-induction module is associated with the bolt of the electronic lock, one induction part is arranged at one end of the bolt, which is positioned in the electronic lock, and the other induction part is arranged in the electronic lock and is opposite to the induction part arranged on the bolt; or, first response part and second response part set up in the both sides with the spring bolt vertical direction, and the line of first response part and second response part is perpendicular or near perpendicular with the direction of motion of spring bolt promptly, and when the spring bolt withdrawed in the electronic lock, the spring bolt was located in the middle of first response part and the second response part, and when the spring bolt stretched out the electronic lock, the spring bolt shifted out in the middle of first response part and the second response part to when guaranteeing the spring bolt motion, the response information that the second response part gathered changes.

If the mounted position of first sub-response module is correlated with the door body of installation electronic lock, then in first response part and the second response part, one of them response part sets up in the side of the door body, and another response part is installed on the door frame, and when the door body was closed, the response information that first response part generated can be gathered to the second response part to when guaranteeing that the door body is opened, the response information that the second response part gathered changes.

Wherein, first response part can be infrared emission sensor for the transmission infrared ray, and the second response part is infrared receiving sensor for receive the infrared ray of infrared emission sensor transmission.

Or the first induction part can be a magnet and used for generating a magnetic field, and the second induction part is a reed switch and used for changing the switch state of the second induction part under the action of the magnetic field and recovering the switch state when the second induction part leaves the magnetic field.

In each embodiment, the first sensing part and the second sensing part are arranged at different positions, and when a door body for installing the electronic lock is opened or the electronic lock is opened, the first sensing part and the second sensing part can move relatively, so that the sensing information collected by the second sensing part changes, and whether the electronic lock is opened or not can be determined according to the change of the sensing information.

In another alternative embodiment, the first sub-sensing module may include:

the button, this button can be installed on the door frame, perhaps, install on the door side, perhaps, install the one end that lies in the electronic lock on the spring bolt, as long as when the electronic lock is opened or the door is opened, can change the state of button can.

In an alternative embodiment, the second sub-sensing module may include a third sensing part and a fourth sensing part.

A third sensing part for generating sensing information;

the fourth induction component is used for acquiring induction information generated by the third induction component;

if the preset mechanical unlocking mechanism is a lock hole, one of the third sensing component and the fourth sensing component is arranged on the wall of the lock hole, and the other sensing component is arranged in a third preset area around the wall of the lock hole, so that the sensing information collected by the fourth sensing component is changed when the lock hole rotates, whether the lock hole rotates can be judged according to the change, and when the lock hole rotates, the unlocking is performed through a mechanical key. Otherwise, it is stated that the lock is not unlocked by a mechanical key.

If predetermined mechanical unlocking mechanism is mechanical password carousel, then in third response part and the fourth response part, one of them response part sets up on above-mentioned password carousel, and another response part sets up in the fourth preset area around this password carousel to when guaranteeing that the password carousel rotates, the response information that the fourth response part gathered changes, thereby can judge whether the password carousel rotates according to this change, when the password carousel rotates, explains to unblank through mechanical password carousel. Otherwise, the unlocking is not performed through the mechanical code rotating disc. Usually, when unblanking with mechanical password carousel mode, the password carousel can set up a plurality ofly, then can set up a plurality of second sub-response modules, and every second sub-response module monitors a password carousel, then when monitoring that all password carousels rotate, confirms to unblank through mechanical password carousel.

In an alternative embodiment, the third sensing component may be an infrared emission sensor for emitting infrared rays, and the fourth sensing component is an infrared receiving sensor for receiving infrared rays emitted by the infrared emission sensor.

In another alternative embodiment, the third inductive component may be a magnet for generating a magnetic field, and the fourth inductive component may be a reed switch for changing its switching state under the action of the magnetic field and restoring the switching state when the magnetic field is removed.

Specific mounting positions of the first sensing part and the second sensing part are exemplified as follows:

fig. 3 is a schematic view of an installation position of the first sensing part 31 and the second sensing part 32 provided in the present application.

Electronic locks generally include a handle, a lever handle base connected to the handle. When the handle pushed down, the handle seat can rotate along with the pushing down of handle, and through the transmission in the electronic lock, the rotation of handle seat can drive the spring bolt and withdraw inside the electronic lock for the electronic lock is opened, and the door also can be opened. Similarly, when the door is closed, if the handle returns to the original position, the handle seat can also return to the original state, the lock tongue is driven to extend out of the electronic lock, and the door is locked.

In this example, the handle holder is rotated when the handle is pressed down, wherein the first sensing member 31 is mounted on the handle holder located at the indoor side of the electronic lock, and the second sensing member 32 is located around the handle holder of the electronic lock. When the handle base is in the original state (as shown in fig. 3), the sensing information sensed by the second sensing part 32 is strongest.

When the handle of being connected with this handle seat pushes down, the handle seat can take place to rotate, and first response part is corresponding also can rotate along with the rotation of handle seat for first response part 31 keeps away from each other with second response part 32, thereby makes the response information that second response part 32 sensed weaken, perhaps, does not respond to the response information, thereby can judge that the door body has opened.

Fig. 4 is a schematic view of another installation position of the first sensing part 31 and the second sensing part 32 according to the embodiment of the present application.

In this example, the first sensing part 31 is installed at one end of the bolt inside the electronic lock, and the second sensing part 32 is fixedly installed inside the electronic lock, opposite to the first sensing part 31. When the bolt retracts into the electronic lock, the first sensing part 31 and the second sensing part 32 are close to each other, so that the sensing information sensed by the second sensing part 32 is enhanced, and when the strength of the sensed sensing information is enhanced to a certain value, the door body is opened; when the spring bolt stretches out the electronic lock, first response part 31 and second response part 32 keep away from each other for the response information that second response part 32 sensed weakens, and when the intensity of the response information who senses weakens to a definite value, the explanation door body has closed.

Fig. 5 is a schematic view of another installation position of the first sensing part 31 and the second sensing part 32 provided by the present application.

In this example, the first sensing member 31 is attached to the door body, and the second sensing member 32 is attached to the door frame. When the door body provided with the electronic lock is closed, the first sensing part 31 and the second sensing part 32 are close to each other; when the door body provided with the electronic lock is opened, the first sensing part 31 and the second sensing part 32 are far away from each other, so that the sensing information sensed by the second sensing part 32 is weakened, or the sensing information cannot be sensed, and the door body can be determined to be opened.

The application also provides an electronic lock, and the electronic lock is the electronic lock control system disclosed in the above embodiment.

The following illustrates an alternative implementation manner of controlling an electronic lock based on an electronic lock control system provided by an embodiment of the present invention.

Referring to fig. 6, fig. 6 is a flowchart of an implementation of the electronic lock control method provided in the present application, which may include:

step S61: the communication module 11 receives the encrypted unlocking command sent by the mobile communication terminal.

Step S62: the processor 12 decrypts the encrypted anti-lock instruction; judging whether the unlocking instruction obtained by decryption is an instruction sent by a preset user; and when the judgment result is that the unlocking instruction is an instruction sent by a preset user, closing the electronic unlocking function of the electronic lock so as to enable the electronic lock to enter an unlocking state.

An Application program (App) can be installed in the mobile terminal in advance, a user of the mobile terminal can trigger the Application program to generate a lock-back instruction, and the Application program encrypts the lock-back instruction and then sends the lock-back instruction to the electronic lock. Correspondingly, the electronic lock is provided with an application program matched with the application program of the mobile terminal, so that the electronic lock and the mobile terminal can communicate based on the application program.

The processor 12 may determine whether the decrypted unlocking instruction is an instruction sent by a predetermined user according to an identification mark used for characterizing the identity of the user and carried in the decrypted unlocking instruction. Specifically, the processor 12 may determine whether an identification mark used for representing the identity of the user, carried in the decrypted unlocking instruction, is a predetermined identification mark, if so, it indicates that the decrypted unlocking instruction is an instruction sent by a predetermined user, otherwise, it indicates that the decrypted unlocking instruction is not an instruction sent by the predetermined user.

The predetermined identification may be obtained by registering the predetermined user (e.g., an administrator of the electronic lock) with the application in advance.

The electronic unlocking mode of the electronic lock can include, but is not limited to, any one of the following modes: bluetooth unblanks, fingerprint unblanks, password unblank, radio frequency card unblank and so on.

When the electronic unlocking function of the electronic lock is closed, the electronic lock can be opened only from indoors or only outdoors through a preset mechanical unlocking manner, wherein the preset mechanical unlocking manner may include, but is not limited to, any one of the following listed manners: unlocking by a mechanical key, or unlocking by a mechanical code dial, etc.

According to the electronic lock control method provided by the embodiment, the encrypted anti-lock instruction is sent to the electronic lock through the mobile communication terminal, the electronic lock is decrypted after receiving the encrypted anti-lock instruction, and the electronic lock is controlled to enter the anti-lock state only when the decrypted anti-lock instruction is the control instruction sent by a preset user (such as an administrator), so that the electronic lock cannot be opened through electronic unlocking modes such as passwords. Moreover, the unlocking instruction sent to the electronic lock by the mobile communication terminal is an encrypted unlocking instruction, so that the safety of the electronic lock is improved.

In an optional embodiment, the processor 12 may be further configured to synchronize, through the communication module 11, information indicating that the electronic lock is in the unlock state to the mobile communication terminal after the electronic lock enters the unlock state.

In an optional embodiment, after the electronic lock enters the anti-lock state, if the electronic lock receives an unlocking instruction carrying key information, the processor 12 may compare the key information in the unlocking instruction with the stored key information, if the stored key information includes the key information in the unlocking instruction and the key information in the unlocking instruction is within the valid period, obtain state information of whether the electronic lock is in the anti-lock state, if the electronic lock is in the anti-lock state, prohibit the unlocking operation, and if the electronic lock is not in the anti-lock state, execute the unlocking operation. If the stored key information does not include the key information in the unlocking instruction, or the stored key information does not include the key information in the unlocking instruction but is not within the validity period, the state information of whether the electronic lock is locked reversely does not need to be acquired, and the prompt information that the password is invalid can be directly returned.

The unlocking instruction can be an unlocking instruction sent by the mobile communication terminal through Bluetooth or the internet, or an unlocking instruction generated by triggering after receiving a fingerprint or a password input by a user through an input panel of the electronic lock, or an unlocking instruction generated by triggering after reading information in the radio frequency card, and the like.

In an optional embodiment, the communication module 11 may further receive an instruction for saving the temporary key sent by the mobile communication terminal, where the instruction for saving the temporary key is sent after being encrypted by the application software, and the instruction for saving the temporary key carries, in addition to the temporary key, the identification and the validity period of the temporary key.

In this embodiment, after the predetermined user logs in the application software through the predetermined identifier on the mobile communication terminal, a temporary key may be generated through the application software, and the validity period of the temporary key may be set. The temporary key may be a password randomly generated by the application software, or may be a fingerprint collected by a fingerprint collection module of the mobile communication terminal, or may be information of a radio frequency card read by a radio frequency card reading module of the mobile communication terminal. And then the temporary secret key is encrypted and then sent to the electronic lock for storage through Bluetooth or the Internet.

The processor 12 may be further configured to decrypt the encrypted instruction for saving the temporary key, determine whether the instruction for saving the temporary key is sent by a predetermined user based on the identification mark carried in the decrypted instruction for saving the temporary key, and if the determination result is yes, store the temporary key carried in the instruction for saving the temporary key and the validity period of the temporary key. If the judgment result is no, the temporary key and the valid period of the temporary key are not stored.

Further, when the storage time of the temporary key reaches the validity period, indicating that the temporary key is invalid, the processor 12 may delete the invalid temporary key. Based on this, if the electronic lock receives an unlocking instruction carrying key information, the processor 12 may compare the key information in the unlocking instruction with the stored key information, if the stored key information includes the key information in the unlocking instruction, obtain state information of whether the electronic lock is unlocked, if the electronic lock is in the unlocked state, prohibit the unlocking operation, and if the electronic lock is not in the unlocked state, execute the unlocking operation. If the stored key information does not include the key information in the unlocking instruction, the state information of whether the electronic lock is unlocked or not does not need to be acquired, and the unlocking operation can be directly prohibited.

That is, in the embodiment of the present application, the stored key information is valid key information.

In an optional embodiment, the communication module 11 may be further configured to receive an encrypted unlocking instruction sent by the mobile communication terminal.

The processor 12 may be further configured to decrypt the encrypted unlock instruction; judging whether the command for unlocking obtained by decryption is a command sent by a preset user; and when the judgment result is that the command for releasing the back locking is a command sent by a preset user, the electronic unlocking function of the electronic lock is started so as to enable the electronic lock to release the back locking state.

When the electronic lock is unlocked, the electronic lock is in a normal locking state, namely when a user inputs a key, if the key is correct and within the valid period, the electronic lock is unlocked, and if the key is wrong or not within the valid period, the electronic lock is prohibited from being unlocked.

In the embodiment of the application, the electronic lock is controlled to release the back locking state through the mobile communication terminal.

In an optional embodiment, the processor 12 may be further configured to determine whether the electronic lock is opened indoors based on the sensing information collected by the sensing module 21, and if it is determined that the electronic lock is opened indoors, recover the electronic unlocking function of the electronic lock, so that the electronic lock releases the anti-lock state.

In the embodiment of the application, the electronic lock is triggered to release the back locking state through the indoor door opening operation.

In an optional embodiment, if the installation position of the sensing module 21 is associated with the handle seat located on one indoor side in the electronic lock, the processor 12 may determine whether the first preset action occurs on the handle seat located on one indoor side in the electronic lock based on the sensing information collected by the sensing module 21, and when it is determined that the first preset action occurs on the handle seat, it is determined that the electronic lock is opened indoors. Specifically, processor 12 may monitor the variation of the signal strength of the second sensing part in sensing module 21 within a preset time period, and when the variation of the signal strength of the second sensing part within the preset time period is greater than a preset threshold, it is determined that the first preset action occurs in the handle base, that is, the electronic lock is opened, otherwise, it is determined that the first preset action does not occur in the handle base, that is, the electronic lock is not opened.

In an optional embodiment, the processor 12 may determine whether the lock tongue of the electronic lock is retracted into the electronic lock based on the sensing information collected by the sensing module 21, and if it is determined that the lock tongue of the electronic lock is retracted into the electronic lock, determine whether the electronic lock is opened by a preset mechanical unlocking manner; and when the judgment result is that the electronic lock is opened in the preset mechanical unlocking mode, determining that the electronic lock is opened outdoors, and when the judgment result is that the electronic lock is not opened in the preset mechanical unlocking mode, determining that the electronic lock is opened indoors.

In another optional embodiment, the processor 12 may determine whether the door body on which the electronic lock is installed is opened based on the sensing information collected by the sensing module 21, determine whether the electronic lock is opened in a preset mechanical unlocking manner if it is determined that the door body is opened, and determine that the electronic lock is opened outdoors when the determination result indicates that the electronic lock is opened in the preset mechanical unlocking manner; and when the judgment result shows that the electronic lock is not opened in a preset mechanical unlocking mode, determining that the electronic lock is opened indoors.

Specifically, the processor 12 may monitor a change condition of first sensing information acquired by a first sub-sensing module in the sensing module 21, and determine that the electronic lock is unlocked when the change condition of the first sensing information satisfies a first preset condition; judging whether the change condition of second sensing information acquired by a second sub-sensing module in the sensing module 21 meets a second preset condition, and if the change condition meets the second preset condition, determining that the electronic lock is opened in a preset mechanical unlocking mode, namely the electronic lock is opened from the outside; if the second preset condition is not met, the electronic lock is determined not to be opened in a mechanical unlocking mode, but is opened indoors.

In an alternative embodiment, the processor 12 may be further configured to:

and acquiring an unlocking instruction, wherein the unlocking instruction carries a secret key.

The unlocking instruction may be an unlocking instruction sent by the mobile communication terminal and received by the communication module 11 (e.g., a bluetooth module, or an internet access module), and the unlocking instruction is generated by a user after the mobile communication terminal inputs a secret key. Or the unlocking instruction is generated by triggering after the fingerprint input by the user is collected through the input panel of the electronic lock. Or the unlocking instruction is generated by triggering after the input panel of the electronic lock collects the password input by the user. Or the unlocking instruction is generated by triggering after the radio frequency card reading module of the electronic lock reads the information of the radio frequency card.

Comparing the key carried in the unlocking instruction with the stored key;

and when the stored key represented by the comparison result comprises the key carried in the unlocking instruction, judging whether the identification mark corresponding to the key carried in the unlocking instruction is a preset identification mark according to the corresponding relation between the preset key and the identification mark.

The identification mark is used for representing the identity of the user. The predetermined identifier may be an identifier of an administrator. In the embodiment of the application, the corresponding relation between the key and the identification mark is stored in advance, wherein the key corresponding to the identification mark of the administrator is different from the key corresponding to the identification mark of the non-administrator.

If the judgment result is yes, the electronic unlocking function of the electronic lock is recovered, so that the electronic lock is unlocked, and the electronic lock is controlled to be unlocked.

And if the judgment result is negative, forbidding unlocking and forbidding recovering the electronic unlocking function of the electronic lock.

In the embodiment of the application, the electronic lock is triggered to release the back locking state through one-time electronic unlocking operation of an administrator.

In the several embodiments provided in the present disclosure, it should be understood that the disclosed system may be implemented in other manners. In actual implementations, there may be additional divisions, for example, multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An electronic lock control system, comprising:

the communication module is used for receiving the encrypted control instruction sent by the mobile communication terminal;

and the processor is connected with the communication module and used for decrypting the encrypted control instruction and controlling the electronic lock in response to the control instruction obtained by decryption.

2. The system of claim 1, further comprising:

the induction module is connected with the processor and used for acquiring induction information;

the processor is further configured to control the electronic lock based on the sensing information.

3. The system of claim 2, wherein the sensing module is disposed within the electronic lock;

the installation position of the induction module is associated with a handle seat positioned on one indoor side in the electronic lock;

when the handle seat is in a first preset action, the sensing information collected by the sensing module is changed.

4. The system of claim 3, wherein the sensing module comprises:

the first sensing component is used for generating sensing information;

the second sensing component is used for acquiring sensing information generated by the first sensing component;

one of the first sensing part and the second sensing part is arranged on the handle seat, and the other sensing part is arranged in a first preset area around the handle seat, so that the sensing information collected by the second sensing part is changed when the handle seat is subjected to a first preset action.

5. The system of claim 4, wherein the first sensing component is an infrared emission sensor and the second sensing component is an infrared reception sensor.

6. The system of claim 4, wherein the first inductive component is a magnet and the second inductive component is a reed switch.

7. The system of claim 3, wherein the sensing module comprises:

the key is arranged in a second preset area around the handle seat to ensure that the sensing information collected by the key changes when the handle seat performs a first preset action.

8. The system of claim 2, wherein the sensing module comprises:

the first sub-induction module is used for acquiring first induction information, and the installation position of the first sub-induction module is associated with a bolt of the electronic lock or a door body for installing the electronic lock; when the bolt is retracted into the electronic lock or the door body is opened, the first sensing information changes;

and the second sub-induction module is used for acquiring second induction information, the installation position of the second sub-induction module is associated with the mechanical unlocking mechanism of the electronic lock, and when the mechanical unlocking mechanism generates a second preset action, the second induction information changes.

9. The system of claim 1, wherein the communication module comprises a bluetooth module or an internet access module.

10. An electronic lock characterized by comprising an electronic lock control system according to any one of claims 1-9.