Summary of the invention
The main purpose of the utility model is to provide a kind of berth lock based on human body sensing, which is equipped with human body
Inductor, have human body close to when can know the situation and make evacuation, to achieve the goals above, the utility model uses
Following technical scheme:
A kind of berth lock based on human body sensing, the swing arm including pedestal and being rotatably installed on the pedestal, institute
State drive control mould of the berth lock equipped with detector, the driving motor of the driving swing arm rotation and the control driving motor
Block, the detector are human inductor;The human inductor and the motor control module are electrically connected.
Further, the human inductor is thermoelectric transducer and/or microwave induced sensor.
Further, the berth lock further includes controller, the drive control module and the human inductor with
The controller is electrically connected.
Further, the berth lock further includes communication module, and the communication module and the controller are electrically connected.
Further, the communication module includes an at least frequency range electromagnetic wave in response 315MHz or 433MHz, 2.4GHz
Antenna element and/or the communication module include NB-IOT communication unit.
Further, power supply module is additionally provided in the pedestal, the power supply module includes multiple power supply units, the confession
Electric unit is lithium battery or battery;Alternatively, the power supply module is the power supply interface being electrically connected with external power supply.
Further, the pedestal is equipped with the fixing axle for being fixed on the pedestal, and the driving motor is fixed to be loaded on institute
State swing arm;The output shaft of the driving motor is directly or indirectly fixedly connected with the fixing axle.
Further, the driving motor is loaded on the pedestal, and the output shaft of the driving motor is directly or indirectly
It is fixedly connected with the connecting hole of the swing arm lower end.
The utility model is equipped with human inductor based on the berth lock of human body sensing, can lean in human body especially people
The situation can be learnt when nearly berth lock, and can be made a response, such as the movement such as evacuation, swing, avoided because not noticing
Berth lock and damage.
Specific embodiment
It should be appreciated that specific embodiment described herein is only used to explain the utility model, it is not used to limit this
Utility model.
It referring to Fig.1-4, is the schematic diagram of berth lock one embodiment of the utility model based on human body sensing, the berth lock
10 include swing arm 1, pedestal 2, driving motor 3, power supply module 4, drive control module 5, communication module 6, controller 7 and detector
8。
Wherein, swing arm 1 is spliced by swing arm upper casing 11 and swing arm lower casing 12, and 1 lower end of swing arm is equipped with an accommodating cavity 13, should
Accommodating cavity 13 is spliced by the lower end of swing arm upper casing 11 and the lower end of swing arm lower casing 12.In the present embodiment, pass through screw
14 are solidly installed swing arm upper casing 11 and swing arm lower casing 12, and the lower end of swing arm 1 is arranged in screw 14, in other embodiments
In, the upper end and lower end of swing arm 1 is arranged in screw 14.The lower end of the swing arm 1 is cylindrical, 13 cylindrical cavity of accommodating cavity.
Pedestal 2 is mounted on parking stall, which includes upper casing 21 and bottom case 22, and upper casing 21 and the composition of bottom case 22 one hold
Between emptying.Upper casing 21 is equipped with accommodation groove 211 and aperture 212, which is connected to accommodation groove 211 and accommodating space;On bottom case 22
Equipped with axle sleeve 23, after upper casing 21 and the installation of bottom case 22, axle sleeve 23 is located in accommodating space.
The two sides of driving motor 3 are equipped with output shaft 31, and driving motor 3 is fixedly mounted on the accommodating cavity 13 of 1 lower end of swing arm
Interior, output shaft 31 exposes from the accommodating cavity 13.
When swing arm 1 is mounted on pedestal 2, driving motor 3 is fixedly mounted on to the lower end of swing arm 1 first, opens upper casing
21, output shaft 31 is fixedly mounted on axle sleeve 23;Upper casing 21 is loaded on bottom case 22 again.At this point, swing arm 1 is located at the appearance of upper casing 21
It sets in slot 211,1 lower end of swing arm passes through the aperture 212 of upper casing 21.In the present embodiment, defeated across being preset in by screw 231
The through-hole of 23 top half of shaft 31 and axle sleeve, output shaft 31 is fixed on axle sleeve 23.At this point, the output shaft of driving motor 3
31 rotation center is identical as the axle center of axle sleeve, when axle sleeve installs fixing axle, the rotation center of output shaft 31 and fixing axle
Rotation center is identical.
In other embodiments, fixed on axle sleeve 23 that fixing axle is housed, output shaft is fixedly connected with fixing axle.Or
Person is equipped with the shell for accommodating the driving motor in the outside of driving motor, is equipped with the speed reducer cooperated with output shaft in the shell
The output end of structure, the deceleration mechanism is fixedly connected with fixing axle;When the side of driving motor is equipped with output shaft, it is arranged in the side
Deceleration mechanism, the hull outside setting axis in the other side perhaps the corresponding axle sleeve 23 with the side in hole or are packed in the side axle
The fixing axle of set 23 is rotatably coupled, i.e. the mode of connection, the contact of the shell Yu axle sleeve or fixing axle of the other side
Inhibition is not generated to the rotation of driving motor.
Power supply module 4 provides electric energy for berth lock work, which can be in the accommodating space loaded on pedestal 2
Lithium battery or battery are also possible to the power supply interface being electrically connected with external power supply.When implementing, lithium battery or battery energy
The direct current of 12V is enough provided, external power supply is the DC power supply for being capable of providing 12V;Or the direct currents such as other voltages such as 6V, 5V
Electricity.
Drive control module 5 achievees the purpose that controlling swing arm 1 rotates to control the rotation of driving motor 3.Communication
Module 6 includes an at least antenna element 61, when implementing, mutiple antennas unit can be set in communication module 6, respond respectively
315MHz or 433MHz, 2.4GHz, 5.8GHz frequency range electromagnetic wave, to realize wireless remotecontrol and WLAN remote control, communication
Module 6 can also further add NB-IOT communication unit, to pass through NB-IOT communication network transmission data.Drive control module
5 and communication module 6 be respectively positioned in the accommodating space of pedestal 2.
Controller 7 is microprocessor, such as MCU.Detector 8 is human inductor 85, and human body inductor 85 is thermoelectricity
Formula sensor and/or microwave induced sensor, human body close to when, thermoelectric transducer, microwave induced sensor can all issue
Corresponding signal.Human body inductor 85 is mounted on swing arm 1 or pedestal 2, to incude to human body.
When implementing, power supply module 4 and driving motor 3, drive control module 5, communication module 6, controller 7 and ground magnetic strength
Device 83 is answered directly or indirectly to be electrically connected to provide electric energy.Driving motor 3 and drive control module 5 are electrically connected, driving
Control module 5, communication module 6 and human inductor 85 are electrically connected with controller 7.
After communication module 6 receives control signal, it is output to controller 7, control signal is generated after the processing of via controller 7 and is passed
It is defeated by drive control module 5, drive control module 5 is rotated according to control signal control driving motor 3.
When driving motor 3 rotates, the output shaft rotation of driving motor 3, since output shaft 31 is fixedly mounted on axle sleeve 23,
So that driving motor 3 generates the rotation relative to output shaft 31, and then swing arm 1 is driven to rotate, realizes swing arm 1 relative to pedestal 2
Rotation, i.e. realization swing arm 1 are rotatably installed on pedestal 2.
When implementing, after communication module 6 receives control signal, it is output to drive control module 5, drive control module 5
It is rotated according to control signal control driving motor 3, and then swing arm 1 is driven to rotate, realize that the limit on parking stall is conciliate in swing arm 1
Except limit.Human inductor 85 incude human body it is whether close, sensed human body close to when, human inductor 85 generates accordingly
Signal into controller 7, so that controller 7 is controlled swing arm 1 and the movement such as avoided, swung, when implementing, human inductor 85
Sense the close direction of human body, human inductor 85 will be transferred to control close to the signal of information comprising direction information and human body
In device 7 processed, controller 7 completes corresponding movement according to the signal.
In other embodiments, pedestal is fixedly mounted on parking stall, and swing arm 1 is rotatably installed on pedestal, swing arm 1
Lower end be equipped with connecting hole, pedestal is equipped with axle sleeve and connecting shaft, and connecting shaft is rotatably loaded on axle sleeve, and connecting shaft is fixedly mounted
In connecting hole.When connecting shaft rotates in axle sleeve, it is able to drive swing arm synchronous rotation.Pedestal and the material of swing arm 1 preferentially select
Light weight, firm material are made, such as aluminium, magnesium alloy, rigid plastics etc..
Loaded in pedestal, which is directly or indirectly fixedly connected driving motor 3 with connecting shaft, is driving
When motor 3 rotates, it is able to drive the underdrive of connecting shaft synchronous rotation or equal proportion, and then swing arm 1 is driven to rotate.Driving
Control module 5 and driving motor 3 are electrically connected, and to control the rotation of the driving motor 3, drive control module 5 is electric to driving
Machine 3 exports the instruction of rotation direction and angle, and then driving motor 3 drives swing arm to complete corresponding rotation.
The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model,
Equivalent structure or equivalent flow shift made by using the description of the utility model and the drawings, is directly or indirectly transported
Used in other related technical areas, it is also included in the patent protection scope of the utility model.