CN215056287U - Induction type electric control handle lock - Google Patents

Abstract

The utility model discloses an automatically controlled handle lock of induction type, it includes that one end is articulated each other and the other end can open and shut the body of locking and lower lock body each other, locate the magnet of lock body down, locate the body of locking and be used for the magnet inductor of response magnet position, locate down the lockhole of lock body, locate lock body and scalable and insert the lockpin of lockhole, fix locate the lockpin and along with the magnetic path of its flexible shift position, a magnetic path inductor for responding to the position of magnetic path, locate the lock body and drive the motor that the lockpin was backed down and was unblanked, the controller of all biography news connection with motor and magnet inductor and magnetic path inductor, the communication module of being connected with the controller biography, the outer inductor of being connected with the controller biography. The handle lock can realize functions of awakening close-range induction unlocking, keyless automatic locking and the like, does not need to plug and pull a key, and is convenient and simple to operate.

Description

Induction type electric control handle lock

Technical Field

The utility model relates to a handle lock technique especially relates to an automatically controlled handle lock of induction type.

Background

The handle lock is a lock for the anti-theft locking of the hand-held two-wheeled vehicle. The handle lock is provided with two sleeve holes which are respectively sleeved on a bicycle or motorcycle handle and a brake handle, and the brake handle is locked in a braking state, so that the wheels of the bicycle are prevented from rotating to realize theft prevention. The existing handle locks are mostly mechanical locks, the locks are unlocked or locked through keys, the keys are required to be prepared before unlocking and locking, the operation is inconvenient, the keys are required to be additionally arranged, small keys are easily lost when being independently placed, the management and the storage are inconvenient, and even the small keys are easy to forget to carry and need to be returned to take, so that the consumption and the time delay are caused.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide an automatically controlled handle lock of induction type that can realize closely response unblock and the keyless is automatic to be locked.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: an induction type electric control handle lock comprises an upper lock body, a lower lock body, a magnet inductor, a lock hole, a lock pin, a magnetic block, a magnet inductor, a motor, a controller, a communication module and an external inductor, wherein one end of the upper lock body and the other end of the lower lock body are hinged with each other, the other end of the upper lock body and the other end of the lower lock body can be mutually opened and closed, the magnet is arranged on the lower lock body, the magnet inductor is arranged on the upper lock body and used for inducing the position of the magnet, the lock hole is arranged on the lower lock body, the lock pin is arranged on the upper lock body and can be inserted into the lock hole in a telescopic mode, the magnetic block is fixedly arranged on the lock pin and moves along with the lock pin in a telescopic mode, the magnetic block is used for inducing the position of the magnetic block, the motor is arranged on the upper lock body and used for driving the lock pin to retreat and is unlocked, the controller is in communication connection with the magnet inductor, the magnet inductor is in communication with the controller, the communication module is connected with the controller.

As an improvement of the technical proposal of the induction type electric control handle lock of the utility model, the tail end of the lock pin is provided with an elastic pushing piece which orders about the forward movement of the lock pin.

As an improvement of the technical solution of the inductive electric control handle lock of the present invention, the lock pin is provided with two magnetic blocks side by side along the axial direction thereof.

As an improvement of the technical proposal of the induction type electric control handle lock, the upper lock body is internally provided with a locator and an alarm connected with the controller in a communication way.

As an improvement of the technical solution of the inductive electric control handle lock, the communication module is a bluetooth module capable of communicating wirelessly with an external control lock terminal.

As an improvement of the technical solution of the induction type electric control handle lock of the present invention, the outer inductor has a touch head exposed on the surface of the upper body; the outer sensor comprises an inspection sensor positioned on the inner side, a touch outer plate covering the inspection sensor, and a transparent ring surrounding the inspection sensor and supporting the touch outer plate.

As an improvement of the technical proposal of the induction type electric control handle lock of the utility model, the head parts of the upper lock body and the lower lock body are hinged with each other, and the tail parts can be opened and closed with each other; a handle groove capable of containing a handle and a brake lever groove capable of containing a brake lever are arranged between the upper lock body and the lower lock body; and a limiting stop block which can be installed in an adjustable position is arranged in the brake crank groove.

As an improvement of the technical solution of the inductive electric control handle lock of the present invention, the upper lock body includes an upper cover and a bottom shell combined as a housing capable of accommodating the device.

As an improvement of the technical scheme of the induction type electric control handle lock, the upper locking body is provided with a battery electrically connected with the motor, and a charging port electrically connected with the battery.

As an improvement of the technical scheme of the induction type electric control handle lock of the utility model, the communication module is connected with an external movable lock control terminal in a communication way; the lock control terminal is an independent terminal or a mobile phone provided with an unlocking program.

The beneficial effects of the utility model reside in that: the magnetic sensor senses the position of the magnetic block by sensing the distance position of the magnetic body in the opening and closing process of the upper lock body and the lower lock body, and the position relation between the upper lock body and the lower lock body and the position of the lock pin are identified by combining the magnetic block sensor with the position of the magnetic block, and then the state of the handle lock can be judged by combining the feedback signals of the communication module and the external sensor, and the handle lock can be automatically unlocked or automatically locked according to the state of the handle lock, so that the functions of awakening short-distance induction unlocking, keyless automatic locking and the like of the handle lock can be realized, a key does not need to be inserted or pulled out, and the operation is convenient and simple.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of an inductive electric control handle lock of the present invention.

Fig. 2 is a schematic view of an exploded structure of the inductive electric control handlebar lock shown in fig. 1.

Fig. 3 is a schematic longitudinal sectional view of the inductive electric control handle lock shown in fig. 1.

Fig. 4 is a schematic view of the three-dimensional structure of the induction type electric control handle lock of the present invention in an open state.

Fig. 5 is a schematic view of a lateral structure of the inductive electric control handle lock of the present invention in an open state.

Detailed Description

The following describes the present invention with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the present invention relates to an inductive electric control handle lock, the magnetic lock comprises an upper lock body 1 and a lower lock body 2, one ends of which are hinged with each other, the other ends of which can be mutually opened and closed, a magnet 21 arranged on the lower lock body 2, a magnet inductor 12 arranged on the upper lock body 1 and used for inducing the position of the magnet 21, a lock hole 22 arranged on the lower lock body, a lock pin 11 arranged on the upper lock body and inserted into the lock hole in a telescopic way, a magnetic block 13 fixedly arranged on the lock pin and moving along with the lock pin in a telescopic way, a magnetic block inductor 14 used for inducing the position of the magnetic block, a motor 31 arranged on the upper lock body and used for driving the lock pin to retreat and unlock, a controller 32 in communication connection with the motor, the magnet inductor 12 and the magnetic block inductor 14, a communication module 33 in communication connection with the controller, and an external inductor 51 in communication connection with the controller. The magnet sensor 12 senses the position of the magnetic block 13 by the magnetic block sensor 14 through sensing the distance position of the magnet 21 in the opening and closing process of the upper lock body 1 and the lower lock body 2, so that the position relation between the upper lock body 1 and the lower lock body 2 and the positions of the lock pin 11 and the lock hole 22 are identified, and the position and the response signal of an external lock control terminal are sensed by the communication module 33 and the feedback signal of touch or other response actions received by the external sensor 51 is fed back to the controller 32. These position signals and response signals are collected in a controller (processor), and it can be determined whether the state of the handle lock is in an opening allowed state (pre-opening state) in an opening allowing mode, as shown in fig. 4 and 5 after opening, or in a locking state in a transportation mode, or in a defense state or an alarm state in a monitoring mode. The handle lock controller 32 instructs the motor 31 to start and drive the lock pin 11 to perform corresponding actions according to the state of the handle lock controller, so that the handle lock can be automatically unlocked or locked, the handle lock can be triggered and awakened, the functions of short-distance terminal inductive unlocking, keyless automatic locking and the like can be realized, a key does not need to be inserted or pulled, and the operation is convenient and simple.

As shown in fig. 1 and 3, after the upper lock body 1 and the lower lock body 2 are closed, the external sensor 51 receives an external touch or other predetermined corresponding signals within a predetermined time, for example, 6 seconds, and feeds the signals back to the controller 32 to adjust the handle lock to the arming state in the monitoring mode. In this state, when the lock control terminal (not shown) leaves a certain distance, that is, a person leaves the vehicle, the handle lock is determined to be in an alarm state if influenced by vibration or other response actions, and an alarm signal is sent out.

If no corresponding sensing signal exists within the preset time, the handle lock is kept in the transportation state and cannot be switched to the alarm mode.

The signaling connection is a communication transmission connection, or a signal transmission connection, which may be a wired communication connection or a wireless communication connection.

Wherein, the tail end of the lock pin 11 is provided with an ejection piece for driving the lock pin to move forward, and the lock pin is always pushed forward under the condition of no motor drive or external force drive. When the upper lock body 1 is closed with the lower lock body 2, the local position of the lower lock body can push the lock pin to retreat so as to cross the side position of the lock hole 22, and then the lock pin extends into the lock hole 22 to realize locking, and the lock can be mechanically locked without a key or even a lock control terminal in the locking process. At this time, the output end of the motor is also in a non-unlocking state, and the lock pin 11 is in a non-retraction state. In particular, the spring 36 is compressible, and one end of the spring is pressed against the upper lock body 1, and the other end of the spring is pressed against the lock pin 11 to extend forward. The ejector may also be a gas spring.

In addition, the lock pin 11 is provided with the two magnetic blocks 13 in parallel along the axial direction, the position states of the magnetic blocks 13 and the lock pin 11 are comprehensively judged by detecting the positions of the two magnetic blocks 13, and the defect that the conventional magnetic inductor often judges by mistake when the movement of the magnet and the lock pin is less than 5mm is overcome.

Further, the communication module 33 is connected to an external mobile lock control terminal (not shown) in a communication manner; the lock control terminal is carried about, and the lock close to the handle can be mutually communicated with the communication module 33 to carry out signal transmission, obtain verification or send an instruction to the controller 32, and further control the motor 31 to carry out unlocking and locking control. After a certain time, for example, 10 seconds, if there is no unlocking operation, the handle lock is controlled by the controller 32 to return to the locked state, and the controller instructs the motor 31 to generate a corresponding operation, thereby releasing the lock pin 11 or pushing the lock pin to insert into the lock hole 22, thereby achieving locking.

Furthermore, the lock control terminal is an independent terminal or a mobile phone provided with an unlocking program. The independent terminal machine can be smaller in size, and control keys with independent functions are arranged, and the independent terminal machine is embodied as an electronic key. Corresponding APP can be installed on the mobile phone, response signals received by the mobile phone are fed back to the handle lock through signal transmission, and action control and state setting of the lock are achieved. The mobile phone as a terminal can receive more types of response signals, such as unlocking or locking confirmation by clicking confirmation, inputting a password, inputting a fingerprint, performing face recognition and the like, and state setting confirmation and the like.

The upper lock body 1 is internally provided with a positioner, a map is conveniently linked through a lock control terminal, the position of the handle lock is determined, and a corresponding vehicle is conveniently found. The mobile phone is used as a lock control terminal to more conveniently inquire the position of the handle lock through a map.

An alarm connected with the controller 32 in a communication mode is arranged in the upper lock body 1, so that an alarm signal can be conveniently sent out according to an alarm instruction in an alarm state. The alarm can be a specific buzzer 39 which gives out alarm sounds with different frequencies or different times so as to play a role in frightening and reminding, and can also send an instruction to the lock control terminal to inform a user. Preferably, the alarm is a sound-light comprehensive alarm, synchronously emits light and plays a role in warning in a dark environment.

Specifically, the communication module 33 is a bluetooth module capable of wirelessly communicating with an external lock control terminal; the mobile phone APP is used as a lock control terminal, the Bluetooth is required to be opened, communication transmission is carried out between the mobile phone APP and the communication module, and a control instruction and a feedback signal are transmitted.

Specifically, the external sensor 51 has a touch head exposed on the surface of the upper lock body 1, which may be embodied as a touch screen key, and may receive a touch signal and feed back the touch signal to the controller 32. The outer sensor 51 comprises an inspection sensor 55 positioned at the inner side, a touch outer plate 52 covering the inspection sensor, and a transparent ring 53 surrounding the inspection sensor and supporting the touch outer plate, wherein the touch outer plate is also transparent, and the inspection sensor 55 is in communication connection with the controller 32; the inspection sensor 55 feeds back a signal to the controller when detecting that there is a contact object, such as a finger, on the outer surface of the outer panel 52.

As shown in fig. 1, 4 and 5, the heads of the upper lock body 1 and the lower lock body 2 are hinged to each other, and the tails thereof can be opened and closed to each other, and the two combined lock bodies can be taken down after the two combined lock bodies are opened; a handle groove 10 capable of containing a handle and a brake lever groove 20 capable of containing a brake lever are arranged between the upper lock body 1 and the lower lock body 2, so that the position between the handle and the brake lever can be locked when the upper lock body 1 and the lower lock body 2 are closed. The inside of the brake crank groove 20 is provided with a limit stop 23 which can be installed in an adjustable position, and the position of the limit stop is adjusted according to different distances between the brake crank of different vehicle types and the handle during braking and locking, so that the universality of the handle lock can be improved.

Specifically, the upper lock body 1 includes an upper cover 15 and a bottom case 16 combined as a case that can accommodate the devices; the lower lock body 2 comprises a face shell 26 and a lower cover 25 which are combined into a whole, the lower lock body 2 is provided with a lock hole 22 and a guide-in inclined plane which is positioned beside the lock hole and close to one side of the upper lock body 1, the front end face of the lock pin is guided to slide, and the lock pin is extruded to retreat when being closed.

The upper lock body 1 is provided with a battery 35 electrically connected with the motor 31 and a charging port 19 electrically connected with the battery, so that power can be supplied to the motor and internal components of the handlebar lock conveniently.

Or the upper lock body is provided with an electric plug interface which is electrically connected with the motor and the controller and is butted with an external power supply, the handle lock can be operated by connecting the external power supply, and the external power supply can be a power supply of the electric vehicle and is connected to the handle lock in a shunting way.

An induction type handle lock opening and closing operation method is characterized in that in the electric control handle lock, the operation method comprises the following steps:

A. the upper lock body and the lower lock body are completely closed, the lock pin exits the lock hole, the magnet sensor feeds back a signal to the controller, the handle lock is confirmed to be in an opening allowing mode allowing to be opened, and a signal of a pre-opening state is sent out through the communication module; at the moment, the lock control terminal can display the prompt of the pre-opening state (or the unlocking state), and the handle lock can be opened at will.

B. When the upper lock body and the lower lock body of the handle lock are folded to exceed a limited angle, the lock pin crosses the side part of the lock hole of the lower lock body, the upper lock body and the lower lock body are completely closed, and the lock pin extends into the lock hole. At this time, the magnetic sensor feeds back a signal to the controller, and if no external sensor feeds back a sensing signal within a time limit, the controller (processor) confirms that the handle lock is in a transportation mode and sends a locking state signal through the communication module. The lock control terminal can display the prompt of the locked state, and the handle lock cannot give an alarm under the condition of vibration or touch influence.

C. The upper lock body and the lower lock body are completely closed, the lock pin extends into the lock hole, the magnetic block sensor feeds back signals to the controller, no external sensor feeds back sensing signals within a limited time, the handle lock is confirmed to be in a monitoring mode, and a signal of a fortification state is sent out through the communication module. The lock control terminal can display the prompt of the defense setting state, the handle lock can enter the alarm state and send out an alarm signal under the condition of vibration or touch influence, and the prompt of the alarm state can also appear at the lock control terminal.

Specifically, after the external sensor receives the induction and is awakened, the controller automatically searches for the external lock control terminal through the communication module, and after receiving a feedback signal under the condition that the external sensor is connected with the lock control terminal, the controller can start the motor to automatically unlock, namely the motor pushes the lock pin to retreat to the lock hole, so that the locking of the upper lock body and the lower lock body is released.

Under the condition that the handle lock is unlocked by misoperation, namely under the transportation mode or the monitoring mode, the outer sensor of the handle lock receives induction to successfully unlock, the upper lock body and the lower lock body are not separated within the time limit, the upper lock body and the lower lock body can be automatically re-locked to return to the previous mode, and the phenomenon that the handle lock is mistakenly unlocked and loses the locking function is avoided.

Preferably, the lock control terminal can be set to an automatic unlocking mode and a confirmation unlocking mode. In the automatic unlocking mode, the lock can be unlocked by simply touching the external inductor; and in the unlocking confirmation mode, the user needs to click to confirm or input a password or input a fingerprint or perform face recognition on the lock control terminal, so that the confidentiality and the unlocking difficulty can be improved, the locking effect of the lock is improved, the misoperation of unlocking is avoided, and the condition that the handle lock is unlocked by other people in an effective distance by the lock control terminal is also avoided.

Further, the alarm process of the alarm mode is as follows. The outer sensor wakes up the handle lock after receiving the induction, for example, the lock is vibrated when not being connected with the lock control terminal, and a prepared warning sound is sent out when the lock control terminal exceeds a preset distance, if the prepared warning sound still has waking action or vibration within a preset interval time, a formal warning sound lasting for a certain time is sent out, the handle lock is changed into a warning state at the same time, and the lock control terminal correspondingly displays the warning state.

The handle lock is awakened when being vibrated in a transportation mode, but is not prompted and does not give an alarm; when the external sensor is touched, namely the button is touched, the handle lock is awakened and gives out prompt sound. After the bluetooth handle lock entered into the transportation mode, the blue lamp was bright, and cell-phone (accuse lock terminal) sent "clattering" the sound of locking, and APP position icon is blue.

In the monitoring mode, the mobile phone (lock control terminal) displays a lock state diagram as a fortification state icon. After the vibration awakens, the handle lock can automatically search for the mobile phone (lock control terminal). The mobile phone can send out two dropping sounds under the condition that the mobile phone is connected; the alarm device can emit a 'tic-tic' five-sound alarm sound under the condition of no mobile phone, if the alarm sound still has key touch action or vibration within a short time (for example, 5 seconds/6 seconds) after the alarm sound, the alarm sound lasts for 12 seconds is emitted, the handle lock is changed into an alarm state at the same time, and the APP correspondingly displays the alarm state; for example, the lock state diagram is a swing alarm state.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. An automatically controlled handle lock of induction type which characterized in that: the lock comprises an upper lock body and a lower lock body, wherein one end of the upper lock body and the other end of the lower lock body are hinged with each other, a magnet is arranged on the lower lock body, the magnet is arranged on the upper lock body, the magnet is used for sensing the position of the magnet, a lock hole is arranged on the lower lock body, a lock pin is arranged on the upper lock body and can stretch out and draw back to be inserted into the lock hole, a magnetic block is fixedly arranged on the lock pin and can move along with the lock pin, a magnetic block sensor is used for sensing the position of the magnetic block, a motor is arranged on the upper lock body to drive the lock pin to retreat to be unlocked, a controller is in communication connection with the motor, the magnet sensor and the magnetic block sensor, a communication module is in communication connection with the controller, and an external sensor is in communication connection with the controller.

2. The electrically controlled inductive handlebar lock of claim 1, wherein: and the tail end of the lock pin is provided with an ejection piece for driving the lock pin to move forwards.

3. The electrically controlled inductive handlebar lock of claim 1, wherein: the lock pin is provided with two magnetic blocks in parallel along the axial direction of the lock pin.

4. The electrically controlled inductive handlebar lock of claim 1, wherein: the inside of the upper lock body is provided with a locator and an alarm connected with the controller in a communication way.

5. The electrically controlled inductive handlebar lock of claim 1, wherein: the communication module is a Bluetooth module capable of wirelessly communicating with an external lock control terminal.

6. The electrically controlled inductive handlebar lock of claim 1, wherein: the outer sensor has a touch head exposed to the upper body surface; the outer sensor comprises an inspection sensor positioned on the inner side, a touch outer plate covering the inspection sensor, and a transparent ring surrounding the inspection sensor and supporting the touch outer plate.

7. The electrically controlled inductive handlebar lock of claim 1, wherein: the head parts of the upper lock body and the lower lock body are hinged with each other, and the tail parts of the upper lock body and the lower lock body can be opened and closed with each other; a handle groove capable of containing a handle and a brake lever groove capable of containing a brake lever are arranged between the upper lock body and the lower lock body; and a limiting stop block which can be installed in an adjustable position is arranged in the brake crank groove.

8. The electrically controlled inductive handlebar lock of claim 1, wherein: the upper lock body includes an upper cover and a bottom case combined as a housing that can accommodate the device.

9. The electrically controlled inductive handlebar lock of claim 1, wherein: the upper lock body is provided with a battery electrically connected with the motor and a charging port electrically connected with the battery.

10. The electrically controlled inductive handlebar lock of claim 1, wherein: the communication module is in signal transmission connection with an external movable lock control terminal; the lock control terminal is an independent terminal.

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