CN206931132U - The non-porous automatic lock control device of dual drive - Google Patents
The non-porous automatic lock control device of dual drive Download PDFInfo
- Publication number
- CN206931132U CN206931132U CN201720716648.8U CN201720716648U CN206931132U CN 206931132 U CN206931132 U CN 206931132U CN 201720716648 U CN201720716648 U CN 201720716648U CN 206931132 U CN206931132 U CN 206931132U
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- processor
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- resistance
- main control
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Abstract
A kind of non-porous automatic lock control device of dual drive, including main control part, infrared detection part, motor driving part point, microswitch part and mechanical button, main control part includes processor and the crystal oscillator, reset unit, download program unit, the clock unit that are connected to around processor;Infrared detection part is connected by lead with processor, and infrared detection part includes infrared transmitting tube and infrared receiving tube, for detecting the position of lock body;Motor driving part point is connected between motor and processor, including motor control unit, Voltage stabilizing module, rectification module;Microswitch part is connected on a processor, for detecting the position of dead bolt by lead;Described mechanical button is connected by lead with processor.For the utility model by setting the position of jogging switches measurement dead bolt, the running status of lock body being detected by infrared detection, the single-chip microcomputer to main control part provides signal, realizes to locking automatically from controlling, so as to realize the function of no key unlocking.
Description
Technical field
The utility model relates to a kind of technical field of automatic door lock control, more particularly to a kind of non-porous automatic lock of dual drive
Control device.
Background technology
In the prior art, there are various automatic locks, opened generally by the password or card of electronics,
The lockhole for being also reserved with and being opened with key is locked, often lockhole just becomes the opportunity of thief, and easily stolen steal is divided
Son is unlocked, and is had much room for improvement.
Utility model content
To solve the above problems, the purpose of this utility model is to propose a kind of non-porous automatic lock control device of dual drive.
The technical solution of the utility model is as follows:A kind of non-porous automatic lock control device of dual drive, including it is main control part, red
Outer detection part, motor driving part point, microswitch part and mechanical button, it is characterized in that:
Described main control part includes processor and the crystal oscillator, reset unit, the download program that are connected to around processor
Unit, clock unit;
Described infrared detection part is connected by lead with processor, and infrared detection part includes infrared transmitting tube and red
Outer reception pipe, for detecting the position of lock body;
Described motor driving part point is connected between motor and processor, including motor control unit, Voltage stabilizing module, whole
Flow module;
Described microswitch part is connected on a processor, for detecting the position of dead bolt by lead;
Described mechanical button is connected by lead with processor, for providing enabling signal to processor.
Preferably, the processor of described main control unit is stm32f103c8t6 processors, the pin 1 of processor, 32,
48th, 64,19 by lead connecting node M1MCU VCC nodes,
Described reset unit is connected between M1MCU VCC nodes and the NRST pins of processor including resistance R4;
Described download program unit includes 4 pin sockets, the socket
Pin 1 is connected with M1MCU VCC nodes,
Pin 2 is connected with processor pin 46,
Pin 3 is connected with processor pin 49,
Pin 4 is grounded;
Described clock unit is connected in parallel on place including electric capacity C1 and C2, resistance R1, crystal oscillator Y1, crystal oscillator Y1 and resistance R1 both ends
Between the pin 5 and pin 6 of managing device;Electric capacity C1 one end is connected to the other end on processor pin 5 and is grounded;Electric capacity C2 one end connects
The other end is grounded on processor pin 6;
Crystal oscillator Y2 is also associated between the pin 3 and 4 of processor;
Main control part also includes resistance R2, R3, electric capacity C3, C4,
Resistance R2 one end connects M1MCU VCC nodes, and the other end connects the pin 13 of processor,
Resistance R3 one end is grounded, and the other end connects the pin 12 of processor,
Electric capacity C3 one end connects M1MCU VCC nodes, and the other end is grounded,
Electric capacity C4 both ends connect the pin 12 and 13 of processor respectively,
Main control part also includes three electric capacity being in juxtaposition C6, C9, C10, and latter end is grounded three electric capacity side by side, separately
One termination M1MCU VCC nodes;
Main control part also includes the resistance R5 being connected on processor pin 60 and is connected on processor pin 28
Resistance R6, resistance R5 and R6 other end ground connection.
Preferably, described motor driving part point includes motor control unit, Voltage stabilizing module, rectification module;
Described motor control unit uses L298P chips, and described Voltage stabilizing module uses HT7550 chips.
It is of the present utility model to have the technical effect that:
The non-porous automatic lock control device of the utility model dual drive, by setting the position of jogging switches measurement dead bolt, leading to
Infrared detection is crossed to detect the running status of lock body, the single-chip microcomputer to main control part provides signal, realizes the automatic control to locking automatically
System, so as to realize the function of no key unlocking.
Brief description of the drawings
Fig. 1 is the main control part circuit diagram of the non-porous automatic lock control device of dual drive;
Fig. 2 is the motor driving part parallel circuit figure of the non-porous automatic lock control device of dual drive;
Fig. 3 is infrared detection part circuit diagram;
Fig. 4 is microswitch partial circuit diagram;
Fig. 5 is the circuit diagram of the mechanical button to open the door;
Fig. 6 is rectification module circuit diagram.
Embodiment
To make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing 1-5 to this practicality
New embodiment is described in further detail.
Embodiment one:Referring to Fig. 1-5, a kind of non-porous automatic lock control device of dual drive in figure, including it is main control part, infrared
Detection part, motor driving part point, microswitch part and mechanical button, it is characterized in that:
Described main control part includes processor and the crystal oscillator, reset unit, the download program that are connected to around processor
Unit, clock unit;
Described infrared detection part is connected by lead with processor, and infrared detection part includes infrared transmitting tube and red
Outer reception pipe, for detecting the position of lock body;
Described motor driving part point is connected between motor and processor, including motor control unit, Voltage stabilizing module, whole
Flow module;
Described microswitch part is connected on a processor, for detecting the position of dead bolt by lead;
Described mechanical button is connected by lead with processor, for providing enabling signal to processor.
The processor of described main control unit is stm32f103c8t6 processors, the pin 1,32,48,64,19 of processor
By lead connecting node M1MCU VCC nodes,
Described reset unit is connected between M1MCU VCC nodes and the NRST pins of processor including resistance R4;
Described download program unit includes 4 pin sockets, the socket
Pin 1 is connected with M1MCU VCC nodes,
Pin 2 is connected with processor pin 46,
Pin 3 is connected with processor pin 49,
Pin 4 is grounded;
Described clock unit is connected in parallel on place including electric capacity C1 and C2, resistance R1, crystal oscillator Y1, crystal oscillator Y1 and resistance R1 both ends
Between the pin 5 and pin 6 of managing device;Electric capacity C1 one end is connected to the other end on processor pin 5 and is grounded;Electric capacity C2 one end connects
The other end is grounded on processor pin 6;
Crystal oscillator Y2 is also associated between the pin 3 and 4 of processor;
Main control part also includes resistance R2, R3, electric capacity C3, C4,
Resistance R2 one end connects M1MCU VCC nodes, and the other end connects the pin 13 of processor,
Resistance R3 one end is grounded, and the other end connects the pin 12 of processor,
Electric capacity C3 one end connects M1MCU VCC nodes, and the other end is grounded,
Electric capacity C4 both ends connect the pin 12 and 13 of processor respectively,
Main control part also includes three electric capacity being in juxtaposition C6, C9, C10, and latter end is grounded three electric capacity side by side, separately
One termination M1MCU VCC nodes;
Main control part also includes the resistance R5 being connected on processor pin 60 and is connected on processor pin 28
Resistance R6, resistance R5 and R6 other end ground connection.
Described motor driving part point includes motor control unit, Voltage stabilizing module, rectification module;
Described motor control unit uses L298P chips, and described Voltage stabilizing module uses HT7550 chips.
The characteristics of dual drive non-porous automatic lock control device:
Lock body overall structure is sensed using two microswitches, closed the door using inclined tongue of lock fine motion sensing detection
During action, in latch bolt retraction lock body, microswitch is touched in baffle plate below, master control borad door signal is given and carries out next step
Action.
Oblique dead bolt sensing action, microswitch induced signal are sent, and at this moment motor driven latch body operates, and lock body action reaches
Position is controlled by optoelectronic switch, when lock body reaches optoelectronic switch control position, optoelectronic switch induced signal.Give master control letter
Number, the motion of controlled motor.
A whole set of lock body is divided into shutdown and two sets of actions of opening the door, motor driven latch head forward motion at closing time, main nut sleeve to
Preceding motion, when front end reaches relevant position, corresponding infrared detection part obtains signal, and gives master control partitioned signal, master control borad
Controlled motor driving stops.
When touching door open button, when either electron key or mobile phone open the door, master control borad receives enabling signal, motor belt motor
Move main nut sleeve and tapered end end motion backward.When main nut sleeve rear end reaches the position for stopping infrared detection part, action stops
Only.
Gain improvement scheme:
In order to reach Bluetooth of mobile phone door opening function, Bluetooth wireless communication module can also be internally embedded in the lock body, it is real
Existing communication connection between mobile phone and antitheft door internal wireless bluetooth communication, pass through encrypted message between mobile phone and automatic lock
Interaction and checking, password correctly just open the door.
1.2 blue Tooth remote controllers open the door
For the user of no mobile phone, opened the door by the key of Bluetooth remote control key one and a key is locked, it is simple to operate, it is convenient to use
Family uses.After remote control is lost, password can be changed, the key of loss is failed.
1.3 enabling record queries
Further be internally embedded wireless WiFi communication module in antitheft door, open the door each time, automatically record opening time,
Enabling people identity, door-opening mode information, and Cloud Server is uploaded to, user is opened the door by mobile phones enquiring and recorded.
1.4 Pickproof alarm
When antitheft door is by unauthorised broken, non-porous door system automatic start WiFi module, by warning message real time propelling movement
Onto user mobile phone, user is allowed to control the situation of antitheft door in real time.Intelligent Nonporous burglar-proof door uses the design method without keyhole,
The situation that thief opens antitheft door by machine tools such as steel hooks is effectively prevented, has allowed thief to have no way of doing it.
Claims (3)
1. a kind of non-porous automatic lock control device of dual drive, including main control part, infrared detection part, motor driving part divide, are micro-
Dynamic switch sections and mechanical button, it is characterized in that:
Described main control part include processor and be connected to around processor crystal oscillator, reset unit, download program unit,
Clock unit;
Described infrared detection part is connected by lead with processor, and infrared detection part includes infrared transmitting tube and infrared connect
Closed tube, for detecting the position of lock body;
Described motor driving part point is connected between motor and processor, including motor control unit, Voltage stabilizing module, rectification mould
Block;
Described microswitch part is connected on a processor, for detecting the position of dead bolt by lead;
Described mechanical button is connected by lead with processor, for providing enabling signal to processor.
2. the non-porous automatic lock control device of dual drive according to claim 1, it is characterized in that:The place of described main control unit
Reason device is stm32f103c8t6 processors, and the pin 1,32,48,64,19 of processor passes through lead connecting node M1MCU VCC
Node,
Described reset unit is connected between M1MCU VCC nodes and the NRST pins of processor including resistance R4;
Described download program unit includes 4 pin sockets, the socket
Pin 1 is connected with M1MCU VCC nodes,
Pin 2 is connected with processor pin 46,
Pin 3 is connected with processor pin 49,
Pin 4 is grounded;
Described clock unit is connected in parallel on processor including electric capacity C1 and C2, resistance R1, crystal oscillator Y1, crystal oscillator Y1 and resistance R1 both ends
Pin 5 and pin 6 between;Electric capacity C1 one end is connected to the other end on processor pin 5 and is grounded;Electric capacity C2 one end is connected to place
Manage other end ground connection on device pin 6;
Crystal oscillator Y2 is also associated between the pin 3 and 4 of processor;
Main control part also includes resistance R2, R3, electric capacity C3, C4,
Resistance R2 one end connects M1MCU VCC nodes, and the other end connects the pin 13 of processor,
Resistance R3 one end is grounded, and the other end connects the pin 12 of processor,
Electric capacity C3 one end connects M1MCU VCC nodes, and the other end is grounded,
Electric capacity C4 both ends connect the pin 12 and 13 of processor respectively,
Main control part also includes three electric capacity being in juxtaposition C6, C9, C10, and latter end is grounded three electric capacity side by side, the other end
Connect M1MCU VCC nodes;
Main control part also includes the resistance R5 being connected on processor pin 60 and the resistance being connected on processor pin 28
R6, resistance R5 and R6 other end ground connection.
3. the non-porous automatic lock control device of dual drive according to claim 1, it is characterized in that:Described motor driving part point
Including motor control unit, Voltage stabilizing module, rectification module;
Described motor control unit uses L298P chips, and described Voltage stabilizing module uses HT7550 chips.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720716648.8U CN206931132U (en) | 2017-06-20 | 2017-06-20 | The non-porous automatic lock control device of dual drive |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720716648.8U CN206931132U (en) | 2017-06-20 | 2017-06-20 | The non-porous automatic lock control device of dual drive |
Publications (1)
Publication Number | Publication Date |
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CN206931132U true CN206931132U (en) | 2018-01-26 |
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ID=61345504
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CN201720716648.8U Expired - Fee Related CN206931132U (en) | 2017-06-20 | 2017-06-20 | The non-porous automatic lock control device of dual drive |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109243019A (en) * | 2018-08-23 | 2019-01-18 | 郑州云海信息技术有限公司 | A kind of Cycle park system with automatic car locking function based on server |
-
2017
- 2017-06-20 CN CN201720716648.8U patent/CN206931132U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109243019A (en) * | 2018-08-23 | 2019-01-18 | 郑州云海信息技术有限公司 | A kind of Cycle park system with automatic car locking function based on server |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180126 Termination date: 20180620 |