CN206684809U - A kind of possess the automatic cloth of subregion and withdraw a garrison the safety defense monitoring system of function - Google Patents

Abstract

A kind of possess the automatic cloth of subregion and withdraw a garrison the safety defense monitoring system of function, including outdoor optical fingerprint identification module, indoor optical fingerprint identification module, door signal generation module, singlechip controller module, the first subregion sensor measuring module, the second subregion sensor measuring module, or including field operation locating module, in-house operation locating module, lock signal generator module, singlechip controller module, the first subregion sensor measuring module, the second subregion sensor measuring module；When opening under automatic cloth withdraws a garrison pattern or locking door, the subregion that can carry out safety defense monitoring system automatically is deployed troops on garrison duty and withdrawn a garrison.The automatic cloth pattern of withdrawing a garrison as the deploying troops on garrison duty of safety defense monitoring system, mode of operation of withdrawing a garrison, together with the means of withdrawing a garrison that can also be deployed troops on garrison duty with other, can realize that the artificial cloth of safety defense monitoring system is withdrawn a garrison the unification withdrawn a garrison with automatic cloth.

Description

A kind of possess the automatic cloth of subregion and withdraw a garrison the safety defense monitoring system of function

Technical field

It the utility model is related to safety monitoring apparatus field, it is especially a kind of to possess the automatic cloth of subregion and withdraw a garrison the security protection of function Monitoring system.

Background technology

Current safety defense monitoring system, anti-theft alarm system deploy troops on garrison duty when withdrawing a garrison, and particularly carry out subregion and deploy troops on garrison duty to withdraw a garrison When, mainly there is panel cloth to withdraw a garrison, the side such as wireless remote control cloth is withdrawn a garrison, place remote phone cloth is withdrawn a garrison, place remote network cloth is withdrawn a garrison Formula.Either any mode, it is withdrawn a garrison to deploy troops on garrison duty and is required to actively be carried out by people, lacks means and side that automatically deploying troop is withdrawn a garrison Method.

The content of the invention

In order to solve the above problems, the utility model, which provides, a kind of to be possessed the automatic cloth of subregion and withdraws a garrison the safety monitoring of function System, including outdoor optical fingerprint identification module, indoor optical fingerprint identification module, door signal generation module, single-chip microcomputer control Device module processed, the first subregion sensor measuring module, the second subregion sensor measuring module.

The outdoor optical fingerprint identification module is provided with outdoor fingerprint comparison correct signal output end, defeated by being electrically connected with Go out outdoor fingerprint comparison correct signal to the outdoor fingerprint comparison correct signal input interface of singlechip controller module；Room light Learn fingerprint identification module and be provided with indoor fingerprint comparison correct signal output end, it is correct by being electrically connected with the indoor fingerprint comparison of output Signal to singlechip controller module indoor fingerprint comparison correct signal input interface；Door signal generation module, which is provided with, closes the door Signal output part, by being electrically connected with output door signal to the door signal input interface of singlechip controller module；Monolithic Machine controller module is provided with the first subregion sensor measuring input/output interface, the second subregion sensor measuring input/output interface；Institute State the first subregion sensor measuring module and be electrically connected to the first subregion sensor measuring input and output of singlechip controller module and connect Mouthful, the second subregion sensor measuring input and output that the second subregion sensor measuring module is electrically connected to singlechip controller module connect Mouthful.

The door signal generation module includes a shutdown limit switch.The door signal generation module is by pulling up Resistance is composed in series with shutdown limit switch, and the attached in series point of pull-up resistor and shutdown limit switch exports for door signal End；The door signal output end is connected to door signal input interface；The other end of the pull-up resistor is connected to monolithic Machine controller modular power source end；The other end of the shutdown limit switch is connected to singlechip controller modular power source ground terminal.

Described possess the withdraw a garrison safety defense monitoring system of function of the automatic cloth of subregion and also withdrawn a garrison module including artificial cloth；It is described artificial Cloth is withdrawn a garrison and has electrical connection to be used for artificial cloth between module and singlechip controller module to withdraw a garrison the transmission of signal.

Artificial cloth module of withdrawing a garrison is push-button unit.The push-button unit includes manual/auto mode switching key, artificial Deploy troops on garrison duty/withdraw a garrison function switch key；One end of the manual/auto mode switching key is with being connected to singlechip controller modular power source End, other end are connected to the manual/auto mode switch input of singlechip controller module；It is described manually to deploy troops on garrison duty/withdraw a garrison One end of function switch key is connected to singlechip controller modular power source ground terminal, and other end is connected to singlechip controller module Artificial function switch input of deploying troops on garrison duty/withdraw a garrison.

The beneficial effects of the utility model are：, can be in the case where automatic cloth withdraws a garrison pattern certainly when opening or locking door The dynamic subregion for carrying out safety defense monitoring system is deployed troops on garrison duty and withdrawn a garrison；The automatic cloth pattern of withdrawing a garrison can be as the cloth of safety defense monitoring system Prevent, mode of operation of withdrawing a garrison, or together with other means of withdrawing a garrison of deploying troops on garrison duty, realize safety defense monitoring system artificial cloth withdraw a garrison and from The unification that dynamic cloth is withdrawn a garrison, i.e. safety defense monitoring system include that artificial cloth withdraws a garrison pattern and automatic cloth is withdrawn a garrison pattern simultaneously；Security protection is supervised Control system include simultaneously artificial cloth withdraw a garrison pattern and automatic cloth withdraw a garrison pattern when, entered by artificial cloth module of withdrawing a garrison come control system Enter or exit automatic cloth to withdraw a garrison pattern.

Brief description of the drawings

Fig. 1 be possess the automatic cloth of subregion withdraw a garrison function safety defense monitoring system embodiment one structured flowchart；

Fig. 2 be the outdoor optical fingerprint identification module of safety defense monitoring system embodiment one, indoor optical fingerprint identification module, Door signal generation module, singlechip controller module, the specific embodiment of door-lock motor drive module；

Fig. 3 be possess the automatic cloth of subregion withdraw a garrison function safety defense monitoring system embodiment two structured flowchart；

Fig. 4 is the field operation locating module of safety defense monitoring system embodiment two, in-house operation locating module, locks signal Generation module embodiment 1；

Fig. 5 is the field operation locating module of safety defense monitoring system embodiment two, in-house operation locating module, locks signal Generation module embodiment 2；

Fig. 6 be include artificial cloth withdraw a garrison module safety defense monitoring system embodiment one structured flowchart；

Fig. 7 be include artificial cloth withdraw a garrison module safety defense monitoring system embodiment two structured flowchart；

Fig. 8 is that the first subregion sensor measuring module, the second subregion sensor measuring module, artificial cloth are withdrawn a garrison module embodiments；

Fig. 9 is that the automatic cloth of safety defense monitoring system embodiment one is withdrawn a garrison the workflow diagram of pattern；

Figure 10 is that the manual/auto cloth of safety defense monitoring system embodiment one is withdrawn a garrison the workflow diagram of double mode.

Figure 11 is that the automatic cloth of safety defense monitoring system embodiment two is withdrawn a garrison the workflow diagram of pattern；

Figure 12 is that the manual/auto cloth of safety defense monitoring system embodiment two is withdrawn a garrison the workflow diagram of double mode.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Possess the automatic cloth of subregion withdraw a garrison function safety defense monitoring system embodiment one include outdoor optical fingerprint identification module, Indoor optical fingerprint identification module, door signal generation module, singlechip controller module, the first subregion sensor measuring module, Second subregion sensor measuring module.The outdoor optical fingerprint identification module exports outdoor fingerprint comparison correct signal to single-chip microcomputer Controller module, indoor optical fingerprint identification module export indoor fingerprint comparison correct signal to singlechip controller module, closed Gate signal generation module exports door signal to singlechip controller module, singlechip controller module control the first subregion of control Sensor measuring module, the second subregion sensor measuring module carry out deploying troops on garrison duty and withdrawing a garrison for wisdom safety defense monitoring system.

Fig. 1 show the structured flowchart of safety defense monitoring system embodiment one, including outdoor optical fingerprint identification module 10, room Interior optical fingerprint identification module 20, door signal generation module 30, singlechip controller module 400, the first subregion sensor measuring Module 500, the second subregion sensor measuring module 600, in addition to the door-lock motor drive module 40 for door of unlocking, lock. Outdoor optical fingerprint identification module 10 is connected with the input/output interface IO1 of singlechip controller module 400, indoor optical finger print Identification module 20 is connected with the input/output interface IO2 of singlechip controller module 400, the mutual transmission for relevant information. 1 antitheft detection sensor is comprised at least in first subregion sensor measuring module 500, the second subregion sensor measuring module 600, Singlechip controller module 400 controls the first subregion sensing to visit by input/output interface IO5, input/output interface IO6 respectively Survey module 500, the second subregion sensor measuring module 600 is withdrawn a garrison, deployed troops on garrison duty, and receive the first subregion sensor measuring module respectively 500th, the various information of the antitheft detection sensor in the second subregion sensor measuring module 600；What input/output interface IO5 was transmitted Information J5 includes the antitheft detection information from the input of the first subregion sensor measuring module 500, it is also possible to including to the first subregion The control information that sensor measuring module 500 is withdrawn a garrison, deployed troops on garrison duty；The information J6 that input/output interface IO6 is transmitted is included from the The antitheft detection information of two subregion sensor measuring modules 600 input, it is also possible to including entering to the second subregion sensor measuring module 600 The control information that row is withdrawn a garrison, deployed troops on garrison duty.

Outdoor optical fingerprint identification module 10, indoor optical fingerprint identification module 20 can select existing various optics to refer to Line identification module, for example, selection FPM10A optical finger print modules, FPM10A optical finger prints module is using TTL logic levels UART serial communication interfaces are communicated with singlechip controller module 400；For example, the limited public affairs of the micro- positive intelligence science and technology in selection Guangzhou The MZ628 optical fingerprint identification modules of department, the module is using UART serial communication interfaces either USB communication interface and single-chip microcomputer Controller module 400 is communicated, for example, the ZFM-70 optical finger print modules of selection Hangzhou Zhian Technology Co., Ltd., ZFM- 70 optical finger print modules are controlled using the UART serial communication interfaces either USB communication interface of TTL logic levels with single-chip microcomputer Device module 400 is communicated.

Door signal generation module 30 in Fig. 1 is used to differentiate whether door closes and export corresponding signal, door lock Motor drive module 40 is used to drive door-lock motor to be unlocked, lock operation.

In Fig. 2, the control core of singlechip controller module 400 selects single-chip microcomputer 401, and concrete model is STC12C5A60S2；Outdoor optical fingerprint identification module, indoor optical fingerprint identification module are respectively optical finger print module 11, light Fingerprint module 21 is learned, model selects FPM10A optical finger print modules.1 pin of FPM10A optical finger print modules is power end, 2 pin For ground terminal, 3 pin are UART transmitting terminal TXD, and 4 pin are UART receiving terminal RXD.Optical finger print module 11, i.e. outdoor optics refer to The UART serial communication interfaces of line identification module are connected to STC12C5A60S2 UART1, i.e. P3.0, P3.1, P3.0, P3.1 is The input/output interface IO1 of singlechip controller module 400 in Fig. 1；Optical finger print module 21, i.e. indoor optics fingerprint recognition mould The UART serial communication interfaces of block are connected to STC12C5A60S2 UART 2, i.e. P1.2, P1.3, and P1.2, P1.3 are single in Fig. 1 The input/output interface IO2 of piece machine controller module 400.

Door signal generation module includes a shutdown limit switch, and shutdown limit switch can select conventional door sensor Switch, or the various proximity switches of selection, it is also an option that various mechanical limit switches.When door is shut or is not shut When, door signal generation module exports corresponding signal.In Fig. 2, door signal generation module is by resistance R0, shutdown limit switch K0 is formed, and the door signal of output is sent to the input P1.6 of single-chip microcomputer 401, and resistance R0 is the pull-up resistor of door signal, The input P1.6 of single-chip microcomputer 401 is the input interface IO3 of singlechip controller module 400 in Fig. 1.Shutdown limit switch K0 is Normally closed switch, when door is in open mode, K0 closures, the door signal of door signal generation module output is invalid and is low Level；When door is closed, K0 disconnects, and the door signal of door signal generation module output is effective and is high level.K0 also may be used So that using normal open switch, now when door is in open mode, K0 disconnects, the door signal of door signal generation module output It is invalid and be high level；When door is closed, K0 closures, the door signal of door signal generation module output is effective and is low electricity It is flat.

In Fig. 2, the core door-lock motor driving chip 41 of door-lock motor drive module uses L9110, L9110 6 pin, 7 Pin is respectively door-lock motor M forward drive signal ZZ and the input for being driven reverse signal FZ；1 pin, 4 pin are motor driving output End, is connected to door-lock motor M；5 pin and 8 pin are ground terminal, and 2 pin and 3 pin are power end.L9110 working powers+V1 scope is 2.5V-12V.Door-lock motor is driven forward signal ZZ, is driven reverse signal FZ respectively from STC12C5A60S2 P1.2, P1.3 Output, P1.2, P1.3 are the output interface IO4 of singlechip controller module 400 in Fig. 1.

In Fig. 2, outdoor optical fingerprint identification module, indoor optical fingerprint identification module, single-chip microcomputer STC12C5A60S2, pass Gate signal generation module, door-lock motor drive module are altogether.

In Fig. 2, outdoor optical fingerprint identification module, indoor optical fingerprint identification module, door signal generation module and list Direct electrical connection is used between piece machine controller module, enters the transmission of row related signal.Outdoor optics fingerprint recognition mould , can be at the same time or separately between block, indoor optical fingerprint identification module, door signal generation module and singlechip controller module Through direct electrical connection, or the electrical connection through Phototube Coupling, or the electrical connection through electromagnetic isolation, Wireless transmission method is either used, or is carried out using CAN network, 485 bus network, Internet internet The transmission of coherent signal.

Possess the automatic cloth of subregion withdraw a garrison function safety defense monitoring system embodiment two include field operation locating module, room It is interior operation locating module, lock signal generator module, singlechip controller module, the first subregion sensor measuring module, second point Area's sensor measuring module.Field operation locating module output outdoor positioning signal is fixed to singlechip controller module, in-house operation Position module exports indoor positioning signal to singlechip controller module, locks signal generator module output and locks signal to single-chip microcomputer Controller module, the subregion of singlechip controller module control sensor measuring module progress safety defense monitoring system is withdrawn a garrison automatically and cloth It is anti-.

Be illustrated in figure 3 possess the automatic cloth of subregion withdraw a garrison function safety defense monitoring system embodiment two structured flowchart, Including field operation locating module 100, in-house operation locating module 200, lock signal generator module 300, singlechip controller Module 400, the first subregion sensor measuring module 500, the second subregion sensor measuring module 600.Field operation locating module 100 is defeated Go out outdoor positioning signal J1 to the input interface IN1 of singlechip controller module 400, in-house operation locating module 200 exports room Interior positioning signal J2 locks the output of signal generator module 300 and locks letter to the input interface IN2 of singlechip controller module 400 Number J3 to singlechip controller module 400 input interface IN3.First subregion sensor measuring module 500, the second subregion sensing are visited Survey in module 600 and comprise at least 1 antitheft detection sensor, singlechip controller module 400 is connect by input and output respectively Mouthful IO5, input/output interface IO6 control the first subregion sensor measuring module 500, the second subregion sensor measuring module 600 to remove Prevent, deploy troops on garrison duty, and receive the antitheft detection in the first subregion sensor measuring module 500, the second subregion sensor measuring module 600 respectively The various information of sensor；The information J5 that input/output interface IO5 is transmitted includes defeated from the first subregion sensor measuring module 500 The antitheft detection information entered, it is also possible to including the control information that the first subregion sensor measuring module 500 is withdrawn a garrison, deployed troops on garrison duty； The information J6 that input/output interface IO6 is transmitted includes the antitheft detection information from the input of the second subregion sensor measuring module 600, It is also possible that the control information that the second subregion sensor measuring module 600 is withdrawn a garrison, deployed troops on garrison duty.

Fig. 4 show field operation locating module, in-house operation locating module, locks signal generator module embodiment 1.It is real Apply in example 1, the control core of singlechip controller module 400 is single-chip microcomputer 401, the model STC12C5A60S2 of selection.Room Outer operation locating module is made up of transmitter 101, receiver 102, and in-house operation locating module is by transmitter 201, receiver 202 Composition；Field operation locating module, in-house operation locating module select Ai Lian three light beam frequency conversion infrared opposite-type detectors, Model ABE-50；Receiver 102, receiver 202 are the normally opened output of relay switch.The signal output part of receiver 102 OUT1 relay switch one end ground connection, the outdoor positioning signal J1 of other end output are sent to the input of single-chip microcomputer 401 P1.0, resistance R11 are outdoor positioning signal J1 pull-up resistor, and input P1.0 is input interface IN1；The signal of receiver 202 Output end OUT2 relay switch one end ground connection, the indoor positioning signal J2 of other end output are sent to single-chip microcomputer 401 Input P1.1, resistance R21 are indoor positioning signal J2 pull-up resistor, and input P1.1 is input interface IN2.In Fig. 4 Field operation locating module, in-house operation locating module are also an option that other single beams, two light beams, multiple beam infrared emission pass Sensor, infrared emission grating can also be selected.

Lock signal generator module and include one and lock position switch.Lock position switch installed in room door doorframe (or Person is clamshell doors) keeper or locking board at, when carry out door lock lock operation (or unlocking operation) when, lock bolt shock (or leaving) locks position switch, locks position switch action (or reset), output locks signal accordingly.Lock Position switch can also be arranged in door, when progress door lock locks operation (or unlocking operation), hitting on lock bolt Block, which hits (or leaving), locks position switch, locks position switch action (or reset), output locks letter accordingly Number.Lock position switch can also be arranged on door door lock in, when with key carries out door lock lock operation (or unlocking behaviour Make) when, rotary stopper formula locks position switch action (or reset), and output locks signal accordingly.Lock position switch For travel switch either microswitch.Operation either unlocking operation is locked in outdoor carry out door lock, refers to using key The corresponding operating of progress.Door lock is carried out indoors and locks operation either unlocking operation, refers to being carried out with key corresponding Operation, or the corresponding operating carried out without key.

In Fig. 4, lock signal generator module by resistance R1, lock position switch K1 and form, signal J3 quilts are locked in output The input P1.2 of single-chip microcomputer 401 is delivered to, resistance R1 is the pull-up resistor for locking signal J3, and input P1.2 is input interface IN3.It is normal open switch to lock position switch K1, when carry out door lock lock operation, door in lock state when, lock position K1 closures are switched, it is low level to lock signal J3；When progress door lock unlocking operation, door are not in locking state, lock Position switch K1 disconnects, and it is high level to lock signal J3.Normally closed switch can also be used by locking position switch K1, now at door When state is locked, it is high level to lock signal J3；When door is not in locking state, it is low level to lock signal J3.

Fig. 5 show the field operation locating module of embodiment two, in-house operation locating module, locks signal generator module Embodiment 2.In embodiment 2, the control core of singlechip controller module 400 still selects single-chip microcomputer 401, model STC12C5A60S2.Field operation locating module is made up of human body proximity inductive switch 103, and in-house operation locating module is by human body Formed close to inductive switch 203；Field operation locating module, in-house operation locating module select Fujian ease board microwave human body proximity Inductive switch, model MY-C8141, it is the normally opened output of relay switch.The signal output part OUT5 of inductive switch 103 after Electric switch one end is grounded, and the outdoor positioning signal J1 of other end output is sent to the input P1.0 of single-chip microcomputer 401, resistance R13 is outdoor positioning signal J1 pull-up resistor；The signal output part OUT6 of inductive switch 203 relay switch one end ground connection, The indoor positioning signal J2 of other end output is sent to the input P1.1 of single-chip microcomputer 401, and resistance R23 is outdoor positioning signal J2 pull-up resistor.Field operation locating module, in-house operation locating module in Fig. 5 are also an option that other microwave sensors Human body proximity sensor, passive infrared sensor can also be selected.

In Fig. 5, lock signal generator module by resistance R2, lock position switch K2 and form, signal J3 quilts are locked in output The input P1.2 of single-chip microcomputer 401 is delivered to, resistance R2 is the pull-up resistor for locking signal J3.Position switch K2 is locked to open to be normally closed Close, when progress door lock locks operation, door is in when locking state, locks position switch K2 disconnections, it is height to lock signal J3 Level；When progress door lock unlocking operation, door are not in locking state, position switch K2 closures are locked, lock signal J3 For low level.Similarly, locking position switch K2 and can also use normal open switch at this, now door be in and lock state When, it is low level to lock signal J3；When door is not in locking state, it is high level to lock signal J3.

In Fig. 4, Fig. 5, field operation locating module, in-house operation locating module, signal generator module and single-chip microcomputer are locked Direct electrical connection is used between controller module, enters the transmission of row related signal；Field operation locating module, indoor behaviour Make locating module, lock signal generator module between singlechip controller module, can be at the same time or separately through being directly electrically connected Relation, or the electrical connection through Phototube Coupling, or the electrical connection through electromagnetic isolation are connect, or using nothing Line transmission means, or the biography for using CAN network, 485 bus network, Internet internet to enter row related signal Pass.

Fig. 6 show including artificial cloth withdraw a garrison module safety defense monitoring system embodiment one structured flowchart, except including work( Can, optical fingerprint identification module 10 outside annexation and system shown in Figure 1 identical room, indoor optical fingerprint identification module 20, Door signal generation module 30, singlechip controller module 400, the first subregion sensor measuring module 500, the second subregion sensing are visited Survey outside module 600, in addition to artificial cloth is withdrawn a garrison module 700, the withdraw a garrison artificial cloth information J7 that withdraws a garrison of module 700 of artificial cloth delivers to list The input interface IN7 of piece machine controller module 400.Artificial cloth withdraws a garrison module 700 for controlling wisdom safety defense monitoring system in people Switching between pattern that work cloth withdraws a garrison pattern and automatic cloth is withdrawn a garrison；Artificial cloth is worked in wisdom safety defense monitoring system to withdraw a garrison pattern When, artificial cloth withdraw a garrison module 700 be additionally operable to control wisdom safety defense monitoring system manually withdrawn a garrison, deployed troops on garrison duty.

Fig. 7 show including artificial cloth withdraw a garrison module safety defense monitoring system embodiment two structured flowchart, except including work( Energy, annexation and system shown in Figure 3 identical field operation locating module 100, in-house operation locating module 200, lock letter Number generation module 300, singlechip controller module 400, the first subregion sensor measuring module 500, the second subregion sensor measuring mould Outside block 600, in addition to artificial cloth is withdrawn a garrison module 700, and the withdraw a garrison artificial cloth information J7 that withdraws a garrison of module 700 of artificial cloth delivers to single-chip microcomputer The input interface IN7 of controller module 400.Artificial cloth withdraws a garrison module 700 for controlling wisdom safety defense monitoring system in artificial cloth The switching that pattern of withdrawing a garrison and automatic cloth are withdrawn a garrison between pattern；Wisdom safety defense monitoring system work in artificial cloth withdraw a garrison pattern when, Artificial cloth module 700 of withdrawing a garrison is additionally operable to control wisdom safety defense monitoring system manually to be withdrawn a garrison, deployed troops on garrison duty.

Fig. 8 show the first subregion sensor measuring module, the second subregion sensor measuring module, artificial cloth and withdrawn a garrison the reality of module Example is applied, the control core of singlechip controller module 400 still selects single-chip microcomputer 401, model STC12C5A60S2.First point Area's sensor measuring module includes 1 antitheft detection sensor, is infrared opposite-type detector, by transmitter 501, receiver 502 Composition, selects Ai Lian three light beam frequency conversion infrared opposite-type detectors, model ABE-50, is the normally opened output of relay switch； The signal output part OUT51 of receiver 502 relay switch one end ground connection, the antitheft detectable signal J51 quilts of other end output The input P2.1 of single-chip microcomputer 401 is delivered to, resistance R51 is antitheft detectable signal J51 pull-up resistor.Second subregion sensor measuring Module includes 1 antitheft detection sensor, is human body proximity inductive switch 503, selects Fujian ease board microwave human body proximity sensing Switch, model MY-C8141, is the normally opened output of relay switch；The signal output part OUT52's of human body proximity inductive switch 503 Relay switch one end is grounded, and the antitheft detectable signal J52 of other end output is sent to the input P2.2 of single-chip microcomputer 401, Resistance R52 is antitheft detectable signal J52 pull-up resistor.

The first subregion sensor measuring module, the second subregion sensor measuring module shown in Fig. 8, artificial remove module of deploying troops on garrison duty and be used for For the moment, single-chip microcomputer STC12C5A60S2 is also needed to and outdoor optical fingerprint identification module, indoor optics fingerprint recognition mould embodiment Block, door signal generation module are electrically connected, to realize the transmission of relevant information, for example, according to realizing single-chip microcomputer shown in Fig. 2 Between STC12C5A60S2 and outdoor optical fingerprint identification module, indoor optical fingerprint identification module, door signal generation module Electrical connection.

The first subregion sensor measuring module, the second subregion sensor measuring module shown in Fig. 8, artificial remove module of deploying troops on garrison duty and be used for During embodiment two, single-chip microcomputer STC12C5A60S2 also need to field operation locating module, in-house operation locating module, lock letter Number generation module is electrically connected, to realize the transmission of relevant information, for example, realizing single-chip microcomputer according to shown in Fig. 4 or Fig. 5 Between STC12C5A60S2 and outdoor optical fingerprint identification module, indoor optical fingerprint identification module, door signal generation module Electrical connection.

In Fig. 8, artificial cloth module of withdrawing a garrison is made up of button S3, button S4, button S5, resistance R3, resistance R4, resistance R5, Button S3 realizes manual/auto pattern switching, button S4, button S5 realize respectively the first subregion, the second subregion it is artificial deploy troops on garrison duty/ Disarming state switches, and its information is respectively connecting to input P2.3, P2.4, P2.5 of single-chip microcomputer 401, input P2.3, P2.4, P2.5 is input interface IN7.Resistance R3, resistance R4, resistance R5 are respectively input P2.3, P2.4, P2.5 pull-up resistor.Press Key S3, button S4, button S5 are self-locking button, or various switches；Button S3, button S4, button S5 different conditions are cut The manual/auto pattern switching of replacement table, the first subregion are manually deployed troops on garrison duty/disarming state switching, the second subregion manually deploy troops on garrison duty/shape of withdrawing a garrison State switches, for example, 2 kinds of button S3 closure, disconnection states represent manual, automatic mode respectively.As button S3, button S4, press When key S5 is non-self-lock-ing button, S3, button S4 or button S5 are pushed button, system is cut between the pattern of the corresponding adjustment of button Change；For example, pushing button S3, system switches between manual/auto pattern；Push button S4, artificial cloth of the system in subregion Switch between anti-/ disarming state；Push button S5, system the second subregion it is artificial deploy troops on garrison duty/disarming state between switch.

In Fig. 8, in singlechip controller module and the first subregion sensor measuring module, the second subregion sensor measuring module Direct electrical connection is used between antitheft detection sensor, enters the transmission of row related signal.The singlechip controller mould Between antitheft detection sensor in block and the first subregion sensor measuring module, the second subregion sensor measuring module can simultaneously or Direct electrical connection, or the electrical connection through Phototube Coupling, or being electrically connected through electromagnetic isolation is respectively adopted Relation, or wireless transmission method are connect, or using CAN network, 485 bus network, Internet internet Enter the transmission of row related signal.In Fig. 8, artificial cloth is withdrawn a garrison to use between module and singlechip controller module and directly electrically connected Relation, enter the transmission of row related signal；The artificial cloth is withdrawn a garrison between module and singlechip controller module, can be through direct Electrical connection or the electrical connection through Phototube Coupling, or the electrical connection through electromagnetic isolation, either Related letter is carried out using wireless transmission method, or using CAN network, 485 bus network, Internet internet Number transmission.

In Fig. 2, Fig. 8 ,+VCC is power supply used by each sensor measuring module in safety defense monitoring system；+ VDD is outdoor optical Fingerprint identification module, indoor optical fingerprint identification module and singlechip controller module control core, i.e. single-chip microcomputer 401 Working power；+ V1 is the power supply of door-lock motor drive module.In Fig. 2, Fig. 8 ,+VCC power supplys and+VDD power supplys are altogether.+ VCC power supplys can not also altogether with+VDD power supplys.

In Fig. 4, Fig. 5, Fig. 8 ,+VCC is field operation locating module, in-house operation locating module and wisdom safety monitoring Power supply used by each sensor measuring module in system；+ VDD is singlechip controller module control core, i.e. single-chip microcomputer 401 Working power.The power end VDD of single-chip microcomputer 401, and one end of foregoing each pull-up resistor are connected to+VDD.Fig. 4, Fig. 5, figure In 8 ,+VCC power supplys and+VDD power supplys are altogether.+ VCC power supplys can not also altogether with+VDD power supplys.

Singlechip controller module 400 carries out the first subregion, when deploying troops on garrison duty, withdrawing a garrison of the second subregion, can use and control respectively The power supply of antitheft detection sensor in the first subregion sensor measuring module, the second subregion sensor measuring module is made to realize, i.e. cloth When anti-, the antitheft detection sensor power supply into the first subregion sensor measuring module or the second subregion sensor measuring module, prevent Steal detection sensor and obtain electric work, normal antitheft detection information is exported to singlechip controller module 400；When withdrawing a garrison, not to The antitheft detection sensor of first subregion sensor measuring module or the second subregion sensor measuring module is powered, and each antitheft detection passes Sensor dead electricity does not work, it is impossible to exports normal antitheft detection information to singlechip controller module 400.Using first point of control The method of the power supply of antitheft detection sensor needs to increase by 2 electricity in area's sensor measuring module, the second subregion sensor measuring module The controllable module in source, while singlechip controller module 400 needs corresponding control output, its advantage is each antitheft spy when withdrawing a garrison Survey sensor not work, reduce its fault rate, can also reduce energy loss.First subregion, the second subregion are deployed troops on garrison duty, withdraw a garrison and may be used also With using antitheft detection sensor information in reception, the first subregion sensor measuring module of shielding, the second subregion sensor measuring module Method realize.For example, when the first subregion is deployed troops on garrison duty, singlechip controller module 400 normally receives the first subregion sensor measuring The antitheft detection information of each antitheft detection sensor output and handled accordingly in module；When first subregion is withdrawn a garrison, monolithic Machine controller module 400 does not receive the antitheft detection letter of each antitheft detection sensor output in the first subregion sensor measuring module Breath, or shielded after receiving the antitheft detection information of each antitheft detection sensor output, without corresponding processing.Using screen The method of antitheft detection sensor information in sensor measuring module is covered, its advantage is each antitheft detection sensor when withdrawing a garrison, deploying troops on garrison duty It is electric, without increasing the controllable module of power supply.Embodiment illustrated in fig. 8 is using antitheft detection sensor in shielding sensor measuring module The method of information is withdrawn a garrison to realize, singlechip controller module 400 need not control the power supply of antitheft detection sensor, input and output Interface IO5, IO6 only need to input antitheft detection information from antitheft detection sensor, and input P2.1, P2.2 are respectively in Fig. 8 Input/output interface IO5, input/output interface IO6；Only include in input/output interface IO5 information J5 and sensed from the first subregion The antitheft detection information that detecting module 500 inputs, only include in input/output interface IO6 information J6 to sense from the second subregion and visit Survey the antitheft detection information that module 600 inputs.

It is not anti-that in embodiment one, the working condition residing for safety defense monitoring system shares door open state, door is closed the door Lock status and door, which are closed the door, has locked three kinds of state.Fig. 9 show safety defense monitoring system embodiment one and is removed mould of deploying troops on garrison duty automatically The flow chart of formula, is comprised the concrete steps that：

Step S1, the shutdown action of door is waited, until door has shutdown action then to go to step S2；

Step S2, closed the door into door and do not lock state, go to step S3；

Step S3, receive correct fingerprint comparison signal and then go to step S4, otherwise go to step S8；

Step S4, it is currently at door and closes the door and do not lock state and then go to step S5, otherwise goes to step S7；

Step S5, closed the door into door and locked state, go to step S6；

Step S6, receive be outdoor fingerprint comparison correct signal then carry out carry out the first subregion deploy troops on garrison duty and the second subregion Deploy troops on garrison duty and go to step S3, otherwise only carry out the first subregion and deploy troops on garrison duty and go to step S3；

Step S7, closed the door into door and do not lock state, the first subregion of progress is withdrawn a garrison withdraws a garrison and go to step with the second subregion Rapid S3；

Step S8, door is opened, and goes to step S1, otherwise goes to step S3.

The foundation that door is judged in the step S1 has shutdown to act is the door signal of door signal generation module output It is changed into effective from invalid.The basis for estimation that door is opened in the step S8 is the shutdown letter of door signal generation module output It is number invalid.

In the step S3, receive correct fingerprint comparison signal and refer to only receiving outdoor optics fingerprint recognition mould The outdoor fingerprint comparison correct signal of block output, or only receive the indoor fingerprint of indoor optical fingerprint identification module output Compare correct signal.

In the step S6, it is singlechip controller to carry out the first subregion to deploy troops on garrison duty with the deploy troops on garrison duty method of use of the second subregion Module receives the antitheft spy of each antitheft detection sensor in the first subregion sensor measuring module and the second subregion sensor measuring module Measurement information is simultaneously handled accordingly；Only carrying out the deploy troops on garrison duty method of use of the first subregion is, singlechip controller module receives the The antitheft detection information of each antitheft detection sensor and handled accordingly in one subregion sensor measuring module, shield second point The antitheft detection information of each antitheft detection sensor output in area's sensor measuring module.

In the step S7, it is singlechip controller to carry out the first subregion to withdraw a garrison with the withdraw a garrison method of use of the second subregion Each antitheft detection sensor output is anti-in module shield the first subregion sensor measuring module and the second subregion sensor measuring module Steal detection information.

Figure 10 show safety defense monitoring system embodiment one and is operated in the manual/auto flow chart for removing double mode of deploying troops on garrison duty, tool Body step is：

Step A, default singlechip controller module is operated in removes deployable model automatically, into step B；

Step B, input manually removes the artificial of module of deploying troops on garrison duty and removes information of deploying troops on garrison duty；Judge whether to be operated in and remove mould of deploying troops on garrison duty automatically Formula, be operated in it is automatic remove deployable model and then go to step D, otherwise into step C；

Step C, step B is gone to after manually being deployed troops on garrison duty, withdrawn a garrison according to the artificial information for removing module of deploying troops on garrison duty of input；

Step D, the shutdown action of door is waited, until door has shutdown action then to go to step E；

Step E, closed the door into door and do not lock state, go to step F；

Step F, receive correct fingerprint comparison signal and then go to step G, otherwise go to step K；

Step G, it is currently at door and closes the door and do not lock state and then go to step H, otherwise goes to step J；

Step H, closed the door into door and locked state, go to step I；

Step I, receive be outdoor fingerprint comparison correct signal then carry out carry out the first subregion deploy troops on garrison duty and the second subregion Deploy troops on garrison duty and go to step L, otherwise only carry out the first subregion and deploy troops on garrison duty and go to step L；

Step J, closed the door into door and do not lock state, the first subregion of progress is withdrawn a garrison withdraws a garrison and go to step with the second subregion L；

Step K, door is opened, and goes to step D, otherwise goes to step L；

Step L, judge whether to be operated in and remove deployable model automatically；Be be operated in it is automatic remove deployable model and then go to step D, Otherwise step B is gone to.

Judge in the step D door have shutdown act foundation be door signal generation module output door signal from It is invalid to be changed into effective.The basis for estimation that door is opened in the step K is the door signal of door signal generation module output It is invalid.

In the step F, receive correct fingerprint comparison signal and refer to only receiving outdoor optics fingerprint recognition mould The outdoor fingerprint comparison correct signal of block output, or only receive the indoor fingerprint of indoor optical fingerprint identification module output Compare correct signal.

In the step I, it is singlechip controller mould to carry out the first subregion to deploy troops on garrison duty with the deploy troops on garrison duty method of use of the second subregion Block receives the antitheft detection of each antitheft detection sensor in the first subregion sensor measuring module and the second subregion sensor measuring module Information is simultaneously handled accordingly；It is that singlechip controller module receives first only to carry out the deploy troops on garrison duty method of use of the first subregion The antitheft detection information of each antitheft detection sensor and handled accordingly in subregion sensor measuring module, shield the second subregion The antitheft detection information of each antitheft detection sensor output in sensor measuring module.

In the step J, it is singlechip controller mould to carry out the first subregion to withdraw a garrison with the withdraw a garrison method of use of the second subregion Each antitheft detection sensor output is antitheft in block the first subregion sensor measuring module of shielding and the second subregion sensor measuring module Detection information.

The step S5 is either in step H, and safety defense monitoring system enters door and closed the door when having locked state, controls simultaneously Door-lock motor drive module driving door-lock motor carries out locking operation, locks door；In the step S7 either step J, peace Anti- monitoring system enters door and closed the door when not locking state, while controls door-lock motor drive module driving door-lock motor to unlock behaviour Make, open door lock.

Figure 11, which show safety defense monitoring system embodiment two, to carry out the automatic cloth of subregion and withdraws a garrison the flow chart of pattern, specific steps It is：

Step 1: the outer positioning signal J1 of measuring chamber, indoor positioning signal J2 and locking signal J3；

Step 2: judge whether that carrying out door unlocking or door locks operation；Not carry out door unlocking or Door locks operation, goes to step 1；Carrying out door unlocking or door locks operation, into step 3；

Step 3: judging that ongoing is to unlock or lock operation, ongoing is that unlocking operation then enters step Rapid four；Ongoing is to lock operation then to enter step 5；

Step 4: when at least one in outdoor positioning signal J1 or indoor positioning signal J2 is effective, first is carried out Subregion is withdrawn a garrison withdraws a garrison and goes to step 1 with the second subregion, otherwise passes directly to step 1；

Deploy troops on garrison duty Step 5: only carrying out the first subregion when only indoor positioning signal J2 is effective and go to step 1, otherwise Into step 6；

Deploy troops on garrison duty and go to the second subregion Step 6: carrying out the first subregion when only outdoor positioning signal J1 is effective and deploying troops on garrison duty Step 1；Otherwise step 1 is passed directly to.

Figure 12, which show safety defense monitoring system embodiment two and is operated in manual/auto cloth, to withdraw a garrison the flow chart of double mode, tool Body step is：

Step 1, default singlechip controller module are operated in automatic cloth and withdrawn a garrison pattern；

The withdraw a garrison artificial cloth of module of step 2, the artificial cloth of input is withdrawn a garrison information；

Step 3, judge whether to be operated in automatic cloth and withdraw a garrison pattern；It is to be operated in automatic cloth pattern of withdrawing a garrison then to enter step 4, Otherwise according to the artificial cloth of input withdraw a garrison module artificial cloth withdraw a garrison information manually deployed troops on garrison duty, withdraw a garrison after go to step 2；

The outer positioning signal J1 of step 4, measuring chamber, indoor positioning signal J2 and lock signal J3；

Step 5, judge whether that carrying out door unlocking or door locks operation；Door unlocking or room are not being carried out Door locks operation, goes to step 2；Carrying out door unlocking or door locks operation, into step 6；

Step 6, judge that ongoing is to unlock or lock operation, ongoing is that unlocking operation then enters step 7；Ongoing is to lock operation then to enter step 8；

Step 7, when at least one in outdoor positioning signal J1 or indoor positioning signal J2 is effective, carry out first point Area withdraws a garrison withdraws a garrison and goes to step 2 with the second subregion, otherwise passes directly to step 2；

Step 8, only carry out the first subregion when only indoor positioning signal J2 is effective and deploy troops on garrison duty and go to step 2, otherwise enter Enter step 9；

Step 9, when only outdoor positioning signal J1 is effective carry out the first subregion and deploy troops on garrison duty deploying troops on garrison duty and going to the second subregion Step 2；Otherwise step 2 is passed directly to.

In the step 2 or step 5, the method that judges whether to carry out door unlocking or door locks operation Be lock signal J3 whether be effectively changed into it is invalid or it is invalid be changed into effectively changing, be effectively changed into it is invalid either It is invalid to be changed into effectively changing, then carrying out door unlocking or door lock operation, otherwise not carry out door unlocking or Person's door locks operation.

In the step 3 or step 6, judge that ongoing is that to unlock or lock the method for operation be to lock letter Number from being effectively changed into invalid, ongoing is unlocking operation；Lock signal from it is invalid be changed into effectively it is then ongoing be anti- Lock operation.

In the step 4 or step 7, it is monolithic to carry out the first subregion to withdraw a garrison with the withdraw a garrison method of use of the second subregion Each antitheft detection sensor in machine controller module shield the first subregion sensor measuring module and the second subregion sensor measuring module The antitheft detection information of output.

In the step 5 or step 8, it is singlechip controller module only to carry out the deploy troops on garrison duty method of use of the first subregion Receive the antitheft detection information of each antitheft detection sensor in the first subregion sensor measuring module and handled accordingly, shielded The antitheft detection information of each antitheft detection sensor output in second subregion sensor measuring module.

In the step 6 or step 9, it is monolithic to carry out the first subregion to deploy troops on garrison duty with the deploy troops on garrison duty method of use of the second subregion Machine controller module receives each antitheft detection sensing in the first subregion sensor measuring module 500 and the second subregion sensor measuring module The antitheft detection information of device is simultaneously handled accordingly.

Automatic cloth is withdrawn a garrison under pattern, when carrying out locking operation and indoor positioning signal J2 and outdoor positioning signal J1 are same Shi Youxiao, or when carrying out locking operation and indoor positioning signal J2 and outdoor positioning signal J1 simultaneously invalid, monolithic Machine controller module was both deployed troops on garrison duty without the first subregion, was also deployed troops on garrison duty without the second subregion, but maintained wisdom safety monitoring system Unite it is original deploy troops on garrison duty, disarming state it is constant.

Each antitheft detection sensing in foregoing reception the first subregion sensor measuring module and the second subregion sensor measuring module The antitheft detection information of device is simultaneously handled accordingly, or is received each antitheft detection in the first subregion sensor measuring module and passed The antitheft detection information of sensor is simultaneously handled accordingly, is referred to for example, having sent invasion when checking sensor measuring module Information, when safety defense monitoring system has warning device, alarmed；Either, when check sensor measuring module sent into During the information invaded, safety defense monitoring system is sent information is invaded to the upper location supervisory of networking (such as cell monitoring center)；Or Person is, when checking sensor measuring module and sending the information of invasion, safety defense monitoring system is sent information is invaded to networking Master cellular phone；Etc..

The outdoor positioning signal J1, indoor positioning signal J2 are level signal；J1, J2 can be with simultaneous selection high level Effectively, or simultaneous selection low level is effective, or selects different significant levels respectively.When field operation locating module When detecting someone at outdoor door, the outdoor positioning signal J1 of output is effective；When field operation locating module detects outdoor At door nobody when, the outdoor positioning signal J1 of output is invalid；When in-house operation locating module detects someone at indoor door When, the indoor positioning signal J2 of output is effective；When at in-house operation locating module detects indoor door nobody when, the room of output Interior positioning signal J2 is invalid.

In the utility model, communicated as requested with ancillary equipment with utensil using single-chip microcomputer, measure antitheft detection letter The various input information such as breath, corresponding information processing, judgement are carried out, control safety defense monitoring system is withdrawn a garrison, deployed troops on garrison duty, and is realized anti- Monitoring, etc. is stolen, is the routine techniques that those skilled in the art are grasped.

Claims (5)

1. Possess the automatic cloth of subregion 1. a kind of and withdraw a garrison the safety defense monitoring system of function, it is characterised in that：Know including outdoor optical finger print Other module, indoor optical fingerprint identification module, door signal generation module, singlechip controller module, the first subregion sensing are visited Survey module, the second subregion sensor measuring module；

   The outdoor optical fingerprint identification module is provided with outdoor fingerprint comparison correct signal output end, and room is exported by being electrically connected with Outer fingerprint comparison correct signal to singlechip controller module outdoor fingerprint comparison correct signal input interface；Indoor optics refers to Line identification module is provided with indoor fingerprint comparison correct signal output end, and indoor fingerprint comparison correct signal is exported by being electrically connected with To the indoor fingerprint comparison correct signal input interface of singlechip controller module；Door signal generation module is provided with door signal Output end, by being electrically connected with output door signal to the door signal input interface of singlechip controller module；Single-chip microcomputer control Device module processed is provided with the first subregion sensor measuring input/output interface, the second subregion sensor measuring input/output interface；Described One subregion sensor measuring module is electrically connected to the first subregion sensor measuring input/output interface of singlechip controller module, the Two subregion sensor measuring modules are electrically connected to the second subregion sensor measuring input/output interface of singlechip controller module.
2. Possess the automatic cloth of subregion 2. according to claim 1 and withdraw a garrison the safety defense monitoring system of function, it is characterised in that：It is described Door signal generation module is composed in series by pull-up resistor and shutdown limit switch, and pull-up resistor is connected with shutdown limit switch Point of contact is door signal output end；The door signal output end is connected to door signal input interface；The pull-up resistor Other end be connected to singlechip controller modular power source end；The other end of the shutdown limit switch is connected to single-chip microcomputer Controller module power supply ground terminal.
3. Possess the automatic cloth of subregion 3. according to claim 1 and withdraw a garrison the safety defense monitoring system of function, it is characterised in that：Also wrap Artificial cloth is included to withdraw a garrison module；The artificial cloth is withdrawn a garrison between module and singlechip controller module and has electrical connection to be used for manually Cloth is withdrawn a garrison the transmission of signal.
4. Possess the automatic cloth of subregion 4. according to claim 3 and withdraw a garrison the safety defense monitoring system of function, it is characterised in that：It is described Artificial cloth module of withdrawing a garrison is push-button unit.
5. Possess the automatic cloth of subregion 5. according to claim 4 and withdraw a garrison the safety defense monitoring system of function, it is characterised in that：It is described Push-button unit includes manual/auto mode switching key, function switch key of manually deploying troops on garrison duty/withdraw a garrison；The manual/auto pattern switching One end of key is connected to singlechip controller modular power source ground terminal, other end be connected to singlechip controller module it is manual/ Automatic pattern switching input；Described one end for manually deploying troops on garrison duty/withdrawing a garrison function switch key is connected to singlechip controller module electricity Source ground terminal, other end are connected to the artificial function switch input of deploying troops on garrison duty/withdraw a garrison of singlechip controller module.