CN109035660B - Intelligent anti-theft buckle and control method thereof - Google Patents

Abstract

The invention relates to an intelligent anti-theft buckle and a control method thereof.A body of the anti-theft buckle comprises a buckle T inserted into a buckle body, wherein the top end of the buckle T is sleeved with a first spring, the top end of the first spring is propped against a second state detection module at the top of the buckle body, the other end of the first spring is propped against a buckle bead pad in the middle of the buckle T, a buckle bead is arranged in the buckle bead pad, and the bottom end of the buckle bead pad is connected with a mechanical transmission module; a control device, the control device comprising: the closing function module is used for executing closing operation; the tripping function module is used for executing tripping operation after receiving a tripping command; the locking and buckling functional module locks the anti-theft buckling state in the unlocking state; the state detection module is used for detecting the state of the anti-theft buckle and sending the state information to the main control module; the alarm module is used for executing alarm operation; and the communication module is used for receiving information sent by an external terminal. The anti-theft buckle remote tripping function and the anti-theft buckle self-alarming function are realized.

Description

Intelligent anti-theft buckle and control method thereof

Technical Field

The invention relates to the technical field of anti-theft buckles, in particular to an intelligent anti-theft buckle and a control method thereof.

Background

Along with the development of the internet and the internet of things, intelligent equipment becomes a new product, and the intelligent equipment is deeply favored by people due to the characteristics of convenience, rapidness, intelligence and the like.

At present, anti-theft buttons at home and abroad are designed by using simple principles such as machinery, magnetic induction and the like, and are unlocked by using methods such as strong magnetism and the like, so that the unlocking method and approach have geographical position limitation and strong magnetic environment limitation. In addition, the existing anti-theft buckle can only give an alarm in the detection range of detection equipment such as an anti-theft door and the like, and cannot give an alarm when the area outside the detection range is forcibly unbuckled. Therefore, the anti-theft function of the anti-theft buckle has geographical position limitation. Therefore, the current anti-theft buckle technology cannot realize intelligent early warning and remote control of the anti-theft buckle.

Research finds that the prior art cannot effectively solve the problems of the anti-theft buckle, and inconvenience is brought to users.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide an intelligent anti-theft buckle and a control method thereof, which solve the problem that the prior art cannot realize intelligent early warning and remote control.

The invention discloses an intelligent anti-theft buckle, which comprises:

the anti-theft buckle body comprises a buckle T inserted into the buckle body, a first spring is sleeved at the top end of the buckle T, the top end of the first spring is abutted against a second state detection module at the top of the buckle body, the other end of the first spring is abutted against a buckle bead pad at the middle of the buckle T, a buckle bead is arranged in the buckle bead pad, the buckle bead is arranged in a groove in the buckle T, and the bottom end of the buckle bead pad is connected with a mechanical transmission module.

The control device comprises a closing and buckling function module, an unbuckling function module, a locking function module, a state detection module, an alarm module, a main control module and a communication module;

the closing function module is used for executing closing operation;

the tripping function module is used for executing tripping operation after receiving a tripping command;

the locking and buckling functional module is used for locking the anti-theft buckling state in the buckling state after the buckling is finished, unlocking the state after an unlocking command is received, and is fixed below the buckling bead cushion;

the state detection module is used for detecting the state of the anti-theft buckle and sending the state information to the main control module;

the alarm module is used for executing alarm operation in a mode not limited to sound, vibration and the like;

the communication module is used for receiving information sent by an external terminal and transmitting the information to the main control module; on the other hand, the system is used for receiving the command of the main control module and sending information to the external terminal;

and the main control module is used for receiving the information sent by the state detection module and the communication module, comprehensively processing the information and further sending related commands and information to the tripping function module, the alarm module, the communication module and the locking function module.

Further, detain the pearl pad and detain the pad under and including last knot, detain the pearl and set up on and detain between the pad under and, detain the pad down and have circular shape first gear outward, install oval-shaped second gear on the mechanical transmission module, the second gear is connected with first gear engagement.

Furthermore, the second gear is meshed with one end of the lock catch tongue, the other end of the lock catch tongue is connected with a second spring, and the second spring abuts against the inner wall of the buckle body.

Furthermore, a first state detection module is arranged at one end, far away from the mechanical transmission module, of the bead buckling pad.

The invention discloses an intelligent anti-theft buckle control method, which comprises the following steps:

and S1, when the lock catch function module receives the unlocking command, the unlocking operation is executed.

And S2, after the preset duration of the unlocking operation is executed, the first state detection module detects whether the anti-theft buckle is unlocked, if so, a fourth state message is generated, and if not, a third state message is generated.

S3, the main control module receives the state information of the first state detection module and judges that the unlocking is successful according to the fourth state information; and according to the third status message, judging that the unlocking is failed, and continuing to command the locker functional module to execute the unlocking operation, and repeating the steps S1, S2 and S3 until the unlocking is successful. Each time the status message is received, the main control module transmits the message to the external terminal through the communication module.

And S4, after the anti-theft buckle is successfully unlocked, manually closing the buckle.

And S5, after the closing operation is executed, the closing button D triggers the second state detection module to prompt the second state detection module to generate the first state message. And after the second state is triggered for a preset time, the second state detection continuously detects whether the anti-theft buckle is closed, if so, a first state message is generated, and if not, a second state message is generated.

And S6, the main control module judges whether the closing is successful according to the received message of the second state detection module, transmits the message to an external terminal through the communication module, and gives an alarm through the alarm module. Wherein: if the first state information is received twice, judging that the buckling is successful; and if the first state message and the second state message are received once, the buckle closing is judged to be unsuccessful.

And S7, in the buckled state, the unbuckling function module executes the unbuckling operation after receiving the unbuckling command.

And S8, after the preset time length of the tripping operation is executed, the second state detection module detects whether the anti-theft buckle is tripped or not, if yes, the second state message is generated, and if not, the first state message is generated.

And S9, the main control module receives the status message of the second status detection module and judges that the tripping is successful according to the second status message. And judging that the tripping fails according to the first status message, and continuing to command the tripping function module to execute the tripping operation, and repeating the steps S7, S8 and S9 until the tripping is successful. Each time the status message is received, the main control module transmits the message to the external terminal through the communication module.

And S10, after the anti-theft buckle unlocking operation is executed, the locking function module automatically carries out locking operation.

And S11, after the first state detection module executes the preset time length of the tripping operation, detecting whether the anti-theft buckle is locked, if so, generating a third state message, and if not, generating a fourth state message.

S12, the main control module receives the state information of the first state detection module and judges that the locking is successful according to the third state information; and judging that the locking is failed according to the fourth status message, and continuously commanding the unlocking function module to execute the unlocking operation, and repeating the steps S7, S8, S9, S10, S11 and S12 until the locking is successful. Each time the status message is received, the main control module transmits the message to the external terminal through the communication module.

And S13, when the anti-theft buckle is in any state and an instruction for checking the state of the anti-theft buckle is received, the main control module commands the first state detection module and the second state detection module to detect the state of the anti-theft buckle and transmits the messages fed back by the first state detection module and the second state detection module to an external terminal through the communication module.

Further, in the step S3, when the steps S1, S2 and S3 are repeatedly executed, a second preset time may be increased, when the time for repeatedly executing the steps S1, S2 and S3 reaches the second preset time period, the repeated execution operation is stopped, and the main control module transmits the result message to the external terminal through the communication module, and commands the alarm module to alarm, and the alarm module performs the alarm operation.

Further, in step S6, when the anti-theft buckle is closed, and the anti-theft buckle body enters the detection range of the detection device such as the anti-theft door, the communication module receives the signal (including but not limited to radio, radio frequency, etc.) of the anti-theft detection device, so that the communication module sends an alarm message to the external terminal and the main control module at the same time, and the main control module commands the alarm module to alarm. When the anti-theft buckle is in a closed state and is forced to be illegally unbuckled, the anti-theft buckle T is separated from the second state detection module, and the second state detection module is prompted to generate a second state message. When the main control module receives the second state information of the second state detection module under the condition that the tripping command is not received, the illegal tripping of the anti-theft buckle is judged, the anti-theft buckle is transmitted to an external terminal through the communication module, and the alarm module gives an alarm.

Further, in the step S9, when the steps S7, S8 and S9 are repeatedly executed, the second preset time may also be increased, when the time for repeatedly executing the steps S7, S8 and S9 reaches the second preset time period, the repeated execution operation is stopped, and the main control module transmits the result message to the external terminal through the communication module, and commands the alarm module to alarm, and the alarm module executes the alarm operation.

Further, in the step S12, when the steps S7, S8, S9, S10, S11 and S12 are repeatedly executed, the second preset time may also be increased, when the time for repeatedly executing the steps S7, S8, S9, S10, S11 and S12 reaches the second preset time period, the repeated execution operation is stopped, and the main control module transmits the result message to the external terminal through the communication module and commands the alarm module to alarm, and the alarm module executes the alarm operation.

By the scheme, the invention at least has the following advantages: the remote tripping function and the self-alarming function of the anti-theft buckle are realized, the functions which cannot be realized by the traditional anti-theft buckle, such as management and control (locking and unlocking) of the anti-theft buckle, can be realized, and the anti-theft buckle has good significance in the Internet of things.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, which should not be construed as limiting the scope, and for those skilled in the art, other related drawings may be obtained from the drawings without inventive effort.

Fig. 1 shows a schematic structural diagram of an intelligent anti-theft buckle provided by an embodiment of the invention.

Fig. 2 shows a schematic mechanical structure diagram of an intelligent anti-theft buckle provided by an embodiment of the invention.

Fig. 3 shows a side view of an intelligent anti-theft buckle provided by the embodiment of the invention.

Fig. 4 shows a reference diagram of a use state of an intelligent anti-theft buckle provided by an embodiment of the invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1-2, the intelligent anti-theft buckle of the invention comprises:

the anti-theft buckle body 1 comprises a buckle block 211 inserted into the buckle body 11, wherein a first spring 213 is sleeved at the top end of the buckle block 211, the top end of the first spring 213 abuts against a second state detection module 262 at the top of the buckle body, the other end of the first spring abuts against a buckle bead pad 214 at the middle part of the buckle block 211, a buckle bead 212 is arranged in the buckle bead pad 214, the buckle bead 212 is arranged in grooves at two sides of the buckle block 211, and the bottom end of the buckle bead pad 214 is connected with a mechanical transmission module 222;

the bead fastening pad 214 comprises an upper fastening pad and a lower fastening pad 2141, the bead fastening 212 is disposed between the upper fastening pad and the lower fastening pad 2141, the lower fastening pad 2141 is externally provided with a circular first gear 2142, the mechanical transmission module 222 is provided with an elliptical second gear 2221, and the second gear 2221 is engaged with the first gear 2142;

the second gear 2221 is engaged with one end of the latch tongue 231, and the other end of the latch tongue 231 is connected with a second spring 232, and the second spring 232 abuts against the inner wall of the buckle body 11.

A first state detection module 261 is arranged at one end of the bead fastening pad 214 far away from the mechanical transmission module 222;

the control device 2 comprises a closing and buckling function module 21, an unbuckling function module 22, a locking and buckling function module 23, a state detection module 26, an alarm module 27, a main control module 24 and a communication module 25;

the closing and buckling function module 21 is used for executing closing and buckling operation; the unlocking of the anti-theft buckle locking function module 23 is needed to realize the locking function, then, in the unlocking state of the anti-theft buckle, after the buckle nut 211 is manually inserted into the anti-theft buckle body 11, the concave part in the buckle nut 211 is just positioned between the buckle beads 212, and meanwhile, as the first spring 213 presses the buckle beads 212 towards the first locking direction, the buckle beads 212 firmly press the concave part in the buckle nut 211, so that the buckle nut 211 cannot be separated from the buckle body 11, and the locking is realized;

a trip function module 22, configured to execute a trip operation after receiving a trip command; the trip function module 22 controls the mechanical transmission module 222 to rotate in the first unlocking direction, and pushes the button bead pad 214 to move in the second tripping direction, so as to force the button bead 212 to leave the recess in the button nut 211, and at this time, the pressure on the button nut 211 disappears, so that the button nut 211 can be separated from the button body 11, and tripping is realized. Referring to fig. 3, a circular first gear 2142 is disposed outside the lower fastening pad 2141 of the fastening bead pad 214, an elliptical second gear 2221 is mounted on the mechanical transmission module 222, and when the closing state is shown in fig. 3, and after receiving an unlocking command, the mechanical transmission module 222 drives the second gear 2221 to rotate in a first unlocking direction, the elliptical second gear 2221 will push the lower fastening pad 2141 of the fastening bead pad 214 to move in a second unlocking direction during rotation, and when the fastening bead 212 leaves a recess in the fastening bead 211, the pressure on the fastening bead 211 disappears, so that the fastening bead 211 can be disengaged from the fastening body 11, thereby achieving the unlocking.

The locking and buckling functional module 23 is used for locking the anti-theft buckling state in the buckling state after the buckling is finished, unlocking the anti-theft buckling state after an unlocking command is received, and the locking and buckling functional module 23 is fixed below the buckling bead pad 214; the mechanical transmission module 222 drives the second gear 2221 to rotate in the first unlocking direction, the elliptical second gear 2221 will push the lower fastening pad 2141 of the fastening bead pad 214 to move in the second unlocking direction during rotation, and at this time, the fastening function module 23 will move in the first fastening direction and finally stay below the lower fastening pad 2141 of the fastening bead pad 214, so as to fix the fastening bead pad 214, prevent the fastening bead pad 214 from moving in the first fastening direction under the pressure of the first spring, so that the anti-theft fastener is locked in the unlocking state, thereby achieving the fastening. Specifically, referring to fig. 3, before the fastening pad 2141 under the fastening bead pad 214 moves in the second unlocking direction, the second spring 232 applies a pressure to the fastening tongue 231, because the resistance of the fastening pad 2141 under the fastening bead pad 214 cannot move in the first locking direction, and after the fastening pad 2141 under the fastening bead pad 214 moves in the second unlocking direction, the resistance of the fastening pad 2141 under the fastening bead pad 214 disappears, and the second spring 232 pushes the fastening tongue 231 to move in the first locking direction, and finally stays below the fastening pad 2141 under the fastening bead pad 214, thereby achieving fastening. Resulting in the effect of figure 4.

The state detection module 26 is used for detecting the state of the anti-theft buckle and sending the state information to the main control module 24;

an alarm module 27 for performing an alarm operation in a manner not limited to sound, vibration, or the like;

a communication module 25, configured to receive information sent by an external terminal and transmit the information to the main control module 24; on the other hand, the system is used for receiving the command of the main control module 24 and sending information to an external terminal;

the main control module 24 is configured to receive the information sent by the state detection module 26 and the communication module 25, perform comprehensive processing on the information, and further send related commands and information to the trip function module 22, the alarm module 27, the communication module 25, the locking function module 23, and the like.

Specifically, referring to fig. 2, the operator manually inserts the buckle nut 211 into the buckle body 11, presses the buckle bead 212 toward the first closing direction through the first spring 213, and then the buckle bead 212 presses the recess in the buckle nut 211, so that the buckle nut 211 cannot be separated from the buckle body 11, thereby achieving the closing.

After the anti-theft buckle is closed, referring to fig. 2, the tip of the top end of the buckle nut 211 triggers the second state detection module 262, so that the second state detection module 262 forms a first state message and sends the first state message to the main control module 24, and the main control module 24 memorizes the current state message sent by the second state detection module 262 and sends the current state message to the external terminal through the communication module 25.

After the communication module 25 receives the trip information sent by the external terminal, the communication module 25 sends a second communication message to the main control module 24, the main control module 24 sends a trip command to the trip function module 22 according to the second communication message, and the trip function module 22 executes a trip operation.

After receiving the tripping command sent by the main control function module 24, the mechanical transmission module 222 rotates in the first tripping direction, and pushes the button bead pad 214 to move in the second tripping direction, so as to force the button bead 212 to leave the recess in the button nut 211, and at this time, the pressure on the button nut 211 disappears, so that the button nut 211 can be disengaged from the button body 11, and tripping is realized. Referring to fig. 3, a circular first gear 2142 is disposed outside the lower fastening pad 2141 of the fastening bead pad 214, an elliptical second gear 2221 is mounted on the mechanical transmission module 222, and when the closing state is shown in fig. 3, and after receiving an unlocking command, the mechanical transmission module 222 drives the second gear 2221 to rotate in a first unlocking direction, the elliptical second gear 2221 will push the lower fastening pad 2141 of the fastening bead pad 214 to move in a second unlocking direction during rotation, and when the fastening bead 212 leaves a recess in the fastening bead 211, the pressure on the fastening bead 211 disappears, so that the fastening bead 211 can be disengaged from the fastening body 11, thereby achieving the unlocking.

Referring to fig. 2, after the anti-theft buckle is unlocked, the buckle nut 211 leaves the buckle body 11, and the nut tip at the top end of the buckle nut 211 leaves the second state detection module 262, so that the second state monitoring module 262 forms a second state message and sends the second state message to the main control module 24, and the main control module 24 memorizes the current state message sent by the second state detection module 262 and sends the current state a fifth communication message to the external terminal through the communication module 25; meanwhile, the state of the second state detection module 262 changes, and the main control module 24 instructs unlocking after receiving the unlocking instruction sent by the communication module 25, and the main control module 24 determines that the unlocking under the current condition is legal unlocking without alarming.

In addition, when the second status detecting module 262 sends the second status message to the main control module 24, the status changes, and the main control module 24 does not receive the unlocking instruction sent by the communication module 25, the main control module 24 determines that the unlocking under the current condition is illegal unlocking, and gives an alarm, the main control module 24 sends an alarm command to the alarm module 27, the alarm module 27 gives an alarm in a manner including, but not limited to, sound, light, and the like, and meanwhile, the main control module 24 sends a command to the communication module 25, and commands the communication module 25 to send a fourth communication message to the external terminal for alarm.

Referring to fig. 3, the mechanical transmission module 222 drives the second gear 2221 to rotate in the first unlocking direction, the elliptical second gear 2221 pushes the lower fastening pad 2141 of the fastening bead pad 214 to move in the second unlocking direction during rotation, and the fastening function module 23 moves in the first fastening direction and finally stays below the lower fastening pad 2141 of the fastening bead pad 214, so as to fix the fastening bead pad 214, and prevent the fastening bead pad 214 from moving in the first fastening direction under the pressure of the first spring, so that the anti-theft buckle is locked in the unlocking state, thereby achieving the fastening. Specifically, referring to fig. 3, before the fastening pad 2141 under the fastening bead pad 214 moves in the second unlocking direction, the second spring 232 applies a pressure to the fastening tongue 231, because the resistance of the fastening pad 2141 under the fastening bead pad 214 cannot move in the first locking direction, and after the fastening pad 2141 under the fastening bead pad 214 moves in the second unlocking direction, the resistance of the fastening pad 2141 under the fastening bead pad 214 disappears, and the second spring 232 pushes the fastening tongue 231 to move in the first locking direction, and finally stays below the fastening pad 2141 under the fastening bead pad 214, thereby achieving fastening.

Referring to fig. 2, after the button bead pad 214 moves in the second trip direction, the first state detection module 261 is triggered, so that the first state detection module 261 forms a third state message and sends the third state message to the main control module 24, the main control module 24 memorizes the current state message sent by the first state detection module 261 and sends the current state message to the external terminal through the communication module 25, and the locking is completed.

The first condition monitoring module 261 is mounted on the core wall slightly above the position of the bead 212 in the closed state. The sensor is used for realizing that the buckling bead pad 214 on the buckling bead 212 can contact the sensor on the first state detection module 261 after the buckling bead 212 moves to the second buckling direction after the buckling function module 22 performs the buckling or the locking function module 23 performs the locking operation; in the closed state, the bead pad 214 on the bead 212 cannot contact the sensor on the first state detection module 261, so that the sensor on the first state detection module 261 can obtain the detection result.

Thirdly, after the communication module 25 receives the unlocking information sent by the external terminal, the communication module 25 sends an eighth communication message to the main control module 24, the main control module 24 sends an unlocking command to the locking function module 23 according to the eighth communication message, and the unlocking function module 23 executes an unlocking operation.

Specifically, referring to fig. 4, the mechanical transmission module 222 drives the second gear 2221 to rotate in the second unlocking direction, the elliptical second gear 2221 pushes the locking tongue 231 to move in the second locking direction, and when the locking tongue 231 leaves the position below the locking pad 2141 below the locking ball pad 214, the locking pad 2141 below the locking ball pad 214 immediately moves in the first locking direction under the pressure of the first spring. Finally, in the state shown in fig. 3, the continuation of fastening pad 2141 under fastening bead pad 214 prevents the fastening tongue 231 from moving in the first fastening direction.

Referring to fig. 2, after the button bead pad 214 moves in the first closing direction, it leaves the first state detection module 261, so that the first state detection module 261 forms a fourth state message and sends the fourth state message to the main control module 24, the main control module 24 memorizes the current state message sent by the first state detection module 261 and sends the current state message to the external terminal through the communication module 25, and the unlocking is completed. In this state, referring to fig. 2, the bead cushion 214 moves in the first closing direction under the pressure of the first spring, thereby closing the button.

Finally, the invention provides a method for checking the state of a pilfer proof button, specifically, when the communication module 24 receives a third communication message sent by an external terminal, the third communication message is transmitted to the main control module 24, after the main control module 24 receives the third communication message, the main control module 24 commands the state checking module 26 to send a detection state message (or a state message memorized by the main control module 24), and sends the state message sent by the state checking module 26 to the communication module 25, and the communication module 25 sends a sixth communication message to the external terminal (including but not limited to a mobile phone, a computer, a server, a code scanning gun and other terminals).

The closing buckle, the releasing buckle, the locking buckle, the unlocking and the like are relative concepts, and the closing buckle indicates that the anti-theft buckle is in a closed state, so that the buckle T can be inserted and can not be pulled out, or the buckle T can be inserted and can not be pulled out; the button releasing means that the button D can be pulled out; the locking buckle means that the anti-theft buckle is always in a releasing state, and the buckle T can be pulled out after being inserted; the unlocking means unlocking state, and the button D can not be pulled out after being inserted.

The invention discloses an intelligent anti-theft buckle control method, which comprises the following steps:

s1, when the latch function module 23 receives the unlock command, the unlock operation is performed.

S2, after the first state detection module 261 executes the preset duration of the unlocking operation, detects whether the anti-theft buckle is unlocked, if so, generates a fourth state message, and if not, generates a third state message.

S3, the main control module 24 receives the status message of the first status detection module 261, and determines that the unlocking is successful according to the fourth status message; and according to the third status message, determining that the unlocking is failed, and continuing to command the locker functional module 23 to perform the unlocking operation, and repeating the steps S1, S2 and S3 until the unlocking is successful. Each time a status message is received, the main control module 24 transmits the message to the external terminal through the communication module.

In the step S3, when the steps S1, S2 and S3 are repeatedly executed, a second preset time may be increased, when the time for repeatedly executing the steps S1, S2 and S3 reaches the second preset time period, the repeated execution operation is stopped, and the main control module 24 transmits a result message to the external terminal through the communication module and commands the alarm module 27 to alarm, and the alarm module 27 performs the alarm operation.

And S4, after the anti-theft buckle is successfully unlocked, manually closing the buckle.

S5, after the closing operation is performed, the closing button 211 triggers the second status detecting module 262 to cause the second status detecting module 262 to generate the first status message. And after the second state is triggered for a preset time, the second state detection continuously detects whether the anti-theft buckle is closed, if so, a first state message is generated, and if not, a second state message is generated.

S6, the main control module 24 determines whether the closing is successful according to the message received from the second status detecting module 262, and transmits the message to the external terminal through the communication module, and gives an alarm through the alarm module. Wherein: if the first state information is received twice, judging that the buckling is successful; and if the first state message and the second state message are received once, the buckle closing is judged to be unsuccessful.

S601, in the closed state of the anti-theft buckle, after the anti-theft buckle body 1 enters the detection range of the detection device such as the anti-theft door, the communication module receives the signal (including but not limited to radio, radio frequency, etc.) of the anti-theft detection device, so that the communication module will simultaneously send an alarm message to the external terminal and the main control module 24, and the main control module 24 will command the alarm module to alarm.

S602, in the closed state of the anti-theft buckle, after the anti-theft buckle is forced to be unlawfully released, the anti-theft buckle t 211 is separated from the second state detection module 262, so as to prompt the second state detection module 262 to generate a second state message.

S603, the main control module 24 receives the second status message from the second status detecting module 262 when the tripping command is not received, determines that the anti-theft buckle is tripped illegally, transmits the result to the external terminal through the communication module, and gives an alarm through the alarm module 27.

S7, in the closed state, the trip function module 22 receives the trip command and then executes the trip operation.

S8, the second state detection module 262 detects whether the anti-theft buckle is tripped after the preset duration of the tripping operation is executed, if yes, generates the second state message, and if not, generates the first state message.

S9, the main control module 24 receives the status message from the second status detecting module 262, and determines that the tripping is successful according to the second status message. According to the first status message, the tripping failure is determined, and the tripping function module 22 continues to be instructed to execute the tripping operation, so as to repeat the steps S7, S8 and S9 until the tripping is successful. Each time a status message is received, the main control module 24 transmits the message to the external terminal through the communication module.

In the step S9, when the steps S7, S8 and S9 are repeatedly executed, the second preset time may also be increased, when the time for repeatedly executing the steps S7, S8 and S9 reaches the second preset time period, the repeated execution operation is stopped, and the main control module 24 transmits the result message to the external terminal through the communication module and commands the alarm module 27 to alarm, and the alarm module 27 performs the alarm operation.

S10, after the anti-pilfer lock releasing operation is performed, the locking function module 23 will automatically perform the locking operation.

S11, after the first state detection module 261 executes the predetermined time length of the tripping operation, detects whether the anti-theft buckle is locked, if so, generates a third state message, and if not, generates a fourth state message.

S12, the main control module 24 receives the status message of the first status detection module, and determines that the locking is successful according to the third status message; and judging that the locking is failed according to the fourth status message, and continuously commanding the unlocking function module to execute the unlocking operation, and repeating the steps S7, S8, S9, S10, S11 and S12 until the locking is successful. Each time a status message is received, the main control module 24 transmits the message to the external terminal through the communication module.

In the step S12, when the steps S7, S8, S9, S10, S11 and S12 are repeatedly executed, the second preset time may also be increased, when the time for repeatedly executing the steps S7, S8, S9, S10, S11 and S12 reaches the second preset time period, the repeated execution operation is stopped, and the main control module 24 transmits the result message to the external terminal through the communication module and commands the alarm module 27 to alarm, and the alarm module 27 performs the alarm operation.

S13, after receiving the command for checking the state of the dongle at any state, the main control module 24 will command the first state detection module 261 and the second state detection module 261 to detect the state of the dongle, and transmit the messages fed back by the first state detection module 261 and the second state detection module 262 to the external terminal through the communication module.

The alarm process in the detection range that the theftproof is detained under the state of detaining closed: when the anti-theft buckle communication module 25 receives a signal of an anti-theft detection device such as an anti-theft door, a tenth communication message is sent to the main control module 24, the main control module 24 sends an alarm command to the alarm module 27 after receiving the message, the alarm module 27 gives an alarm in a mode including but not limited to sound, light and the like, meanwhile, the main control module 24 sends a command to the communication module 25, and the communication module 25 is instructed to send a fourth communication message to an external terminal;

the alarm process that the anti-theft buckle is illegally forced to be unlocked under the condition that the unlocking command is not received: firstly, when detecting that the anti-theft buckle state is the closed buckle state, the state detection module 26 sends first state information to the main control module 24, and when the anti-theft buckle is forcibly unlocked, the state detection module 26 detects that the anti-theft buckle state is the unlocked state and sends second state information to the main control module 24;

the main control module 24 determines that the current state is illegal and forced tripping according to that the communication module 25 does not send the second communication message and the state detection module 26 changes the first state message into the second state message, the main control module 24 sends an alarm command to the alarm module 27, the alarm module 27 gives an alarm, the alarm mode includes but is not limited to sound, light and the like, and meanwhile, the main control module sends a command to the communication module, and the communication module is instructed to send a fourth communication message to an external terminal;

the tripping process of the anti-theft buckle in the closed buckle state comprises the following steps: in a closed state, when the communication module 25 receives a second communication message sent by an external terminal, the second communication message is sent to the main control module 24, after the main control module 24 receives the second communication message sent by the communication module 25, a tripping command is sent to the tripping function module 22, the tripping function module 22 executes the tripping command, the anti-theft tripping state changes, the state detection module 26 sends a second state message to the main control module 24, after the main control module 24 receives the second state message, the command is sent to the communication module 25, and the communication module 25 is instructed to send a fifth communication message to the external terminal, so that tripping is completed;

and (3) checking the state of the anti-theft buckle: when the communication module 25 receives a third communication message which is sent by an external terminal and requires to check the state of the anti-theft buckle, the third communication message is transmitted to the main control module 24, after the main control module 24 receives the third communication message, the state message sent by the state detection module 26 is sent to the communication module 25, and the communication module 25 sends a sixth communication message to the external terminal;

locking and unlocking processes: firstly, after the tripping function module 22 finishes the anti-theft tripping action, the locking function module 23 automatically locks the anti-theft tripping state, and meanwhile, the state detection module 26 detects the locking state, the state detection module 26 sends a third state message to the main control module 24, after receiving the third state message, the main control module 24 sends a command to the communication module 25, and commands the communication module 25 to send a seventh communication message to an external terminal (including but not limited to a mobile phone, a computer, a server, a code scanning gun and other terminals), so that the locking is finished;

in the locking state, when the communication module 25 receives an eighth communication message requiring unlocking sent by an external terminal (including but not limited to a mobile phone, a computer, a server, a code scanning gun and other terminals), the eighth communication message is sent to the main control module 24, after the main control module 24 receives the eighth communication message sent by the communication module 25, an unlocking command is sent to the locking function module 23, the locking function module 23 executes the unlocking command, and the state of the anti-theft lock changes, the state detection module 26 sends a fourth state message which is unlocked to the main control module 24, after the main control module 24 receives the fourth state message, the command is sent to the communication module 25, and the command communication module 25 sends a ninth communication message to the external terminal (including but not limited to a mobile phone, a computer, a server, a code scanning gun and other terminals), so that unlocking is completed.

It should be noted that: first, the state detection module in the embodiment of the present invention may use two active and passive modes to detect states of the anti-theft buckle, such as tripping, closing, unlocking, and locking, or may use one of the two active and passive modes to detect the state of the anti-theft buckle. The passive mode requires the status detection module 26 to perform the detection after the main control module 24 sends a command to the status detection module 26. The active mode sends a status message to the master control module 24 after the status detection module 26 changes status. Secondly, the terminal device mentioned in the embodiment of the present invention may be a mobile phone, a tablet computer, a notebook computer, or other terminal devices, without limitation, and the terminal devices have corresponding APPs, which can feed back different contents to the user according to the received message, and generate corresponding instructions according to the user's requirements, thereby facilitating the user's control of the embodiment of the present invention. Thirdly, the acquisition of the unlocking and unlocking instructions can be obtained by the following methods: firstly, the user acquires locking information in the code scanning through modes such as WeChat code scanning and the like, and generates a locking instruction according to the locking information, secondly, the user can trigger a locking instruction generated by a long-press lock-off key on an APP (Application) in the terminal equipment corresponding to the control device 2, and thirdly, the locking instruction can be triggered through a handheld controller matched with the intelligent vehicle lock. Fourthly, in order to implement the communication between the embodiment of the present invention and the terminal device, the terminal device should also include a communication module, and the communication module in the embodiment of the present invention and the communication module in the terminal device may be implemented by bluetooth, wifi (wireless fidelity), network, or the like. Fifthly, the intelligent anti-theft buckle provided by the embodiment of the invention supplies power through the power module. The power module can be an independent storage battery, a solar battery or other power modules with power supply functions. Sixth, the alarm module 27 in the embodiment of the present invention may be configured to alarm in a manner including, but not limited to, sound, vibration, light, etc., and is not limited thereto. Seventh, the aforementioned first locking direction, second unlocking direction, first unlocking direction, second unlocking direction, first locking direction, second locking direction, and the like are relative directions, where the first locking direction is opposite to the second unlocking direction, the first unlocking direction is opposite to the second unlocking direction, and the first locking direction is opposite to the second locking direction.

In the embodiments provided in the present invention, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, 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 provided by 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 functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus once an item is defined in one figure, it need not be further defined and explained in subsequent figures, and moreover, the terms "first", "second", "third", etc. are used merely to distinguish one description from another and are not to be construed as indicating or implying relative importance.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, which are used for illustrating the technical solutions of the present invention and not for limiting the same, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the present invention in its spirit and scope. Are intended to be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides an intelligence theftproof is detained, its characterized in that includes:

the anti-theft buckle body comprises a buckle T inserted into the buckle body, wherein a first spring is sleeved at the top end of the buckle T, the top end of the first spring abuts against the second state detection module at the top of the buckle body, the other end of the first spring abuts against a buckle bead pad in the middle of the buckle T, a buckle bead is arranged in the buckle bead pad and is arranged in a groove in the buckle T, and the bottom end of the buckle bead pad is connected with the mechanical transmission module;

the control device comprises a closing and buckling function module, an unbuckling function module, a locking function module, a state detection module, an alarm module, a main control module and a communication module;

the closing function module is used for executing closing operation;

the tripping function module is used for executing tripping operation after receiving a tripping command;

the locking and buckling functional module is used for locking the anti-theft buckling state in the buckling state after the buckling is finished, unlocking the state after an unlocking command is received, and is fixed below the buckling bead cushion;

the state detection module is used for detecting the state of the anti-theft buckle and sending the state information to the main control module; the alarm module is used for executing alarm operation in a mode not limited to sound and vibration;

the communication module is used for receiving information sent by an external terminal and transmitting the information to the main control module; on the other hand, the system is used for receiving the command of the main control module and sending information to the external terminal;

the main control module is used for receiving the information sent by the state detection module and the communication module, comprehensively processing the information and further sending related information to the tripping function module, the alarm module, the communication module and the locking function module;

the bead buckling pad comprises an upper buckling pad and a lower buckling pad, the beads are arranged between the upper buckling pad and the lower buckling pad, a circular first gear is arranged outside the lower buckling pad, an oval second gear is arranged on the mechanical transmission module, and the second gear is in meshed connection with the first gear;

the second gear is meshed with one end of the lock catch tongue, the other end of the lock catch tongue is connected with a second spring, and the second spring abuts against the inner wall of the buckle body;

a first state detection module is arranged at one end of the bead buckling pad, which is far away from the mechanical transmission module;

the control method of the intelligent anti-theft buckle comprises the following steps:

s1, when the lock catch function module receives the unlocking command, the unlocking operation is executed;

s2, after the first state detection module executes the preset duration of the unlocking operation, detecting whether the anti-theft buckle is unlocked, if so, generating a fourth state message, and if not, generating a third state message;

s3, the main control module receives the state information of the first state detection module and judges that the unlocking is successful according to the fourth state information; according to the third status message, judging that the unlocking is failed, and continuing to command the lock function module to execute the unlocking operation, and repeating the steps S1, S2 and S3 until the unlocking is successful; each time the state information is received, the main control module transmits the information to the external terminal through the communication module;

s4, after the anti-theft buckle is successfully unlocked, manual buckle closing operation can be performed;

s5, after the closing operation is executed, the closing button D triggers the second state detection module to prompt the second state detection module to generate a first state message; after the second state is triggered for a preset time, the second state detection continuously detects whether the anti-theft buckle is closed, if so, a first state message is generated, and if not, a second state message is generated;

s6, the main control module judges whether the closing is successful according to the received message of the second state detection module, transmits the message to an external terminal through the communication module, and gives an alarm through the alarm module; wherein: if the first state information is received twice, judging that the buckling is successful; if the first state message and the second state message are received once, the buckle closing is judged to be unsuccessful;

s7, in the buckled state, the unbuckling function module executes unbuckling operation after receiving an unbuckling command;

s8, after the second state detection module executes the preset time length of the tripping operation, whether the anti-theft buckle is tripped or not is detected, if yes, a second state message is generated, and if not, a first state message is generated;

s9, the main control module receives the state information of the second state detection module and judges that the tripping is successful according to the second state information; judging the tripping failure according to the first status message, continuing to command the tripping function module to execute the tripping operation, and repeating the steps S7, S8 and S9 until the tripping is successful; each time the state information is received, the main control module transmits the information to the external terminal through the communication module;

s10, after the anti-theft buckle releasing operation is executed, the locking function module can automatically perform locking operation, the mechanical transmission module drives the second gear to rotate towards the first unlocking direction, the oval second gear can push the lower locking pad of the locking bead pad to move towards the second releasing direction in the rotation process, and the locking function module moves towards the first locking direction and finally stays below the lower locking pad of the locking bead pad to lock the anti-theft buckle in the releasing state to realize locking;

s11, after the first state detection module executes the preset time length of the tripping operation, whether the anti-theft buckle is locked is detected, if yes, a third state message is generated, and if not, a fourth state message is generated;

s12, the main control module receives the state information of the first state detection module and judges that the locking is successful according to the third state information; judging the locking failure according to the fourth status message, continuing to command the unlocking function module to execute the unlocking operation, and repeating the steps S7, S8, S9, S10, S11 and S12 until the locking is successful; each time the state information is received, the main control module transmits the information to the external terminal through the communication module;

and S13, when the anti-theft buckle is in any state and an instruction for checking the state of the anti-theft buckle is received, the main control module commands the first state detection module and the second state detection module to detect the state of the anti-theft buckle and transmits the messages fed back by the first state detection module and the second state detection module to an external terminal through the communication module.

2. The intelligent anti-theft clasp control method according to claim 1, wherein in the step S3, when the steps S1, S2 and S3 are repeatedly executed, a second preset time may be increased, when the time for repeatedly executing the steps S1, S2 and S3 reaches the second preset time, the repeated execution operation is stopped, and the main control module transmits the result message to the external terminal through the communication module and commands the alarm module to alarm, and the alarm module performs the alarm operation.

3. The intelligent anti-theft buckle control method according to claim 1, wherein in step S6:

when the anti-theft buckle is in a closed state, the anti-theft buckle body enters the detection range of the anti-theft door detection device, the communication module receives a signal of the anti-theft detection device, so that the communication module simultaneously sends an alarm message to an external terminal and the main control module, and the main control module commands the alarm module to alarm;

when the anti-theft buckle is in a closed state and is forced to be illegally unbuckled, the anti-theft buckle is separated from the second state detection module, and the second state detection module is prompted to generate a second state message;

when the main control module receives the second state information of the second state detection module under the condition that the tripping command is not received, the illegal tripping of the anti-theft buckle is judged, the anti-theft buckle is transmitted to an external terminal through the communication module, and the alarm module gives an alarm.

4. The intelligent anti-theft clasp control method according to claim 1, wherein in the step S9, when the steps S7, S8 and S9 are repeatedly executed, a second preset time is also increased, when the time for repeatedly executing the steps S7, S8 and S9 reaches the second preset time, the repeated execution operation is stopped, and the main control module transmits the result message to the external terminal through the communication module and commands the alarm module to alarm, and the alarm module performs the alarm operation.

5. The intelligent anti-theft clasp control method according to claim 1, wherein in the step S12, when the steps S7, S8, S9, S10, S11 and S12 are repeatedly executed, a second preset time is also increased, when the time for repeatedly executing the steps S7, S8, S9, S10, S11 and S12 reaches the second preset time period, the repeated execution operation is stopped, and the main control module transmits the result message to the external terminal through the communication module and commands the alarm module to alarm, and the alarm module executes the alarm operation.

Images