CN104880970B - A kind of door lock type water power pneumatic control method and system - Google Patents
A kind of door lock type water power pneumatic control method and system Download PDFInfo
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- CN104880970B CN104880970B CN201510249930.5A CN201510249930A CN104880970B CN 104880970 B CN104880970 B CN 104880970B CN 201510249930 A CN201510249930 A CN 201510249930A CN 104880970 B CN104880970 B CN 104880970B
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 82
- 238000000034 method Methods 0.000 title claims abstract description 35
- 239000007858 starting material Substances 0.000 claims abstract description 68
- 230000005611 electricity Effects 0.000 claims abstract description 43
- 238000012545 processing Methods 0.000 claims abstract description 36
- -1 electricity Substances 0.000 claims abstract description 19
- 230000001960 triggered effect Effects 0.000 claims abstract description 14
- 230000004913 activation Effects 0.000 claims description 13
- 230000005540 biological transmission Effects 0.000 claims 1
- 230000035945 sensitivity Effects 0.000 abstract description 5
- 239000007789 gas Substances 0.000 description 33
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical compound C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 description 10
- 239000003345 natural gas Substances 0.000 description 5
- 238000010586 diagram Methods 0.000 description 4
- 239000002699 waste material Substances 0.000 description 4
- 238000013461 design Methods 0.000 description 2
- 239000003034 coal gas Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000002474 experimental method Methods 0.000 description 1
- 238000004880 explosion Methods 0.000 description 1
- 239000002737 fuel gas Substances 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000033764 rhythmic process Effects 0.000 description 1
- 238000012795 verification Methods 0.000 description 1
Classifications
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05B—CONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
- G05B19/00—Programme-control systems
- G05B19/02—Programme-control systems electric
- G05B19/04—Programme control other than numerical control, i.e. in sequence controllers or logic controllers
- G05B19/042—Programme control other than numerical control, i.e. in sequence controllers or logic controllers using digital processors
- G05B19/0423—Input/output
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- General Physics & Mathematics (AREA)
- Engineering & Computer Science (AREA)
- Automation & Control Theory (AREA)
- Lock And Its Accessories (AREA)
- Power-Operated Mechanisms For Wings (AREA)
Abstract
The invention discloses a kind of door lock type water power pneumatic control method and system.The control method is, internal cylinder is turned i.e. from locking outdoors, internal cylinder drives starter to rotate through travelling gear, when starter goes to predeterminated position, trigger microswitch, the signal transmitting chip transmitting signal being connected with microswitch, signal processing chip control solenoid valve to close the total lock of water, electricity, gas after receiving signal;Reversely internal cylinder is turned to open the door, internal cylinder drives starter to rotate backward through travelling gear, when starter leaves predeterminated position, microswitch is triggered again, the signal transmitting chip being connected with microswitch launches signal again, and signal processing chip controls solenoid valve to open the total lock of water, electricity, gas after receiving signal.The present invention, which has, avoids consumption from wasting, and prevents security risk, and safety, energy saving, principle is simple, easy to operate, simple in structure, and cost is low and the characteristics of high sensitivity.
Description
Technical field
The present invention relates to a kind of water power pneumatic control method, particularly a kind of door lock type water power pneumatic control method and system.
Background technology
With the increasingly quickening of rhythm of life, people's pressure with it is busy synchronously rise, among allegro life, very much
People can inevitably forget to close sluice, electric brake and natural air-lock sometimes when going out.And this carelessness many times not only can
Waste is produced, can even trigger security incident when serious.Such as household electricity, idling consumption is huge under unmanned state, wastes
Seriously, arch-criminal is exactly this standby " inside thief ";Household water, pipe burst or forgets to turn off the tap, and can cause water resource
Waste the consequence of even indoor spilling water;Household fuel gas, natural gas, happen occasionally and reveal or forget the situation of turn out the gas, so that
It may cause the serious consequences such as explosion, fire;At present some smart homes can by way of automatically controlling to sluice, electric brake and
Natural air-lock is controlled, but is had the following disadvantages:For the elderly or child, smart home operation difficulty degree
It is high;Secondly, smart home is expensive.
The content of the invention
It is an object of the present invention to provide a kind of door lock type water power pneumatic control method and system.It, which has, avoids consumption wave
Take, prevent security risk, safety, energy saving, principle is simple, easy to operate, simple in structure, and cost is low and the characteristics of high sensitivity.
Technical scheme:A kind of door lock type water power pneumatic control method is to turn internal cylinder i.e. from locking outdoors, interior
Lock core drives starter to rotate through travelling gear, when starter goes to predeterminated position, microswitch is triggered, with microswitch
The signal transmitting chip transmitting signal of connection, signal processing chip control solenoid valve closing water, electricity, gas total after receiving signal
Lock;Reversely turn internal cylinder to open the door, internal cylinder drives starter to rotate backward through travelling gear, and starter is left default
During position, microswitch is triggered again, and the signal transmitting chip being connected with microswitch launches signal, signal processing chip again
Solenoid valve is controlled to open the total lock of water, electricity, gas after receiving signal.
Foregoing door lock type water power pneumatic control method is to turn the first internal cylinder in internal cylinder i.e. from locking outdoors,
Core gear in one internal cylinder drives starter to rotate through travelling gear, and when starter goes to predeterminated position, triggering is micro-
Dynamic switch, the signal transmitting chip transmitting signal being connected with microswitch, signal processing chip control electromagnetism after receiving signal
Valve closes the total lock of water, electricity, gas;Reversely turn the first internal cylinder to open the door, core gear drives starter anti-through travelling gear
To rotation, when starter leaves predeterminated position, microswitch is triggered again, and the signal transmitting chip being connected with microswitch is again
Secondary transmitting signal, signal processing chip control solenoid valve to open the total lock of water, electricity, gas after receiving signal;When turning the second internal lock
During core, microswitch will not be triggered, that is, does not turn off the total lock of water, electricity, gas.
Foregoing door lock type water power pneumatic control method is to turn the first internal cylinder in internal cylinder i.e. from locking outdoors,
Core gear in one internal cylinder drives the starter receiver of starter to rotate through travelling gear, and starter receiver drives boot disk to turn
It is dynamic, when the protrusion in boot disk goes to predeterminated position, microswitch is triggered, the signal transmitting chip transmitting being connected with microswitch
Signal, signal processing chip control solenoid valve to close the total lock of water, electricity, gas after receiving signal;Reversely turn the first internal cylinder i.e.
Open the door, core gear drives starter receiver to rotate backward through travelling gear, and drives the protrusion in boot disk to rotate backward, when convex
Rise when leaving predeterminated position, trigger microswitch again, signal transmitting chip be connected with microswitch launches signal again, believes
Number process chip controls solenoid valve to open the total lock of water, electricity, gas after receiving signal.
In foregoing door lock type water power pneumatic control method, the solenoid valve is connected with manual switch, when need not to water,
When electricity or gas are carried out at the same time control, corresponding manual switch is disconnected, i.e., total lock of corresponding water, electricity or gas will not be controlled
System;
In foregoing door lock type water power pneumatic control method, the solenoid valve is connected with feedback device, is closed in solenoid valve
Or when opening water, electricity or the total lock of gas, feedback device launches corresponding feedback signal, feedback reception device receives feedback signal
Afterwards, corresponding indicator light is lighted or extinguished, and can intuitively understand the control situation of the gentle total lock of indoor water, electricity.
System used in foregoing door lock type water power pneumatic control method, including activation system and control system;Described opens
Dynamic system includes internal cylinder, and internal cylinder is connected with travelling gear, and travelling gear is connected with starter, and starter lower part is equipped with
Microswitch, microswitch are connected with signal transmitting chip;The control system includes signal processing chip, signal processing core
The control terminal of piece is connected with solenoid valve.
In system used in foregoing door lock type water power pneumatic control method, the internal cylinder includes being arranged at outer side of door
First internal cylinder and second internal cylinder for being arranged at inner side;First internal cylinder is equipped with core gear, core gear
It is connected with travelling gear.
In system used in foregoing door lock type water power pneumatic control method, the starter includes starter receiver, opens
Boot disk is connected with the side of moving gear, boot disk is equipped with protrusion;The starter receiver is also connected with travelling gear.
In system used in foregoing door lock type water power pneumatic control method, the solenoid valve includes the first solenoid valve, the
Two solenoid valves and the 3rd solenoid valve;First solenoid valve, second solenoid valve and the 3rd solenoid valve are opened with first manual respectively
Close, the second manual switch and the connection of the 3rd manual switch;First solenoid valve, second solenoid valve and the 3rd solenoid valve with
The control terminal connection of signal processing chip.
System used in foregoing door lock type water power pneumatic control method further includes reponse system, and reponse system includes feedback and fills
Put and feedback reception device;The feedback device includes the first feedback device, the second feedback device and the 3rd feedback device;Institute
The first feedback device stated, the second feedback device and the 3rd feedback device respectively with the first solenoid valve, second solenoid valve and the 3rd
Solenoid valve connects.
Compared with prior art, the present invention sets control system, works as people in doors by setting activation system on door lock
Be away from home in when locking a door, activation system will start control system and all cut off on total road of the water, electricity and gas in family, avoid people
After leaving home because total lock for forgetting to turn off water, electricity and gas and caused by consume and waste, while prevented coal gas in family or natural gas leaking
Security risk, reaches safety, energy saving effect.The present invention is driven through travelling gear by the core gear in the first internal cylinder and opened
The starter receiver of dynamic device rotates, and starter receiver drives the raised rotation in boot disk therewith, when protrusion turns to microswitch
Springboard at (predeterminated position), trigger microswitch, make springboard by lower switch, at this time signal transmitting chip send close it is each total
The signal of lock, signal processing chip within doors receive signal and control the first solenoid valve, second solenoid valve and the 3rd solenoid valve
Close total lock of electricity, gas and water;The first internal cylinder is reversely turned after during people goes home so that raised also rotate backward leaves springboard,
Microswitch is triggered again, springboard is discharged climax, and signal transmitting chip launches signal again at this time, signal processing within doors
After chip receives signal, stop the first solenoid valve of control, second solenoid valve and the 3rd solenoid valve close the total of electricity, gas and water
Lock, that is, open each total lock, can to sum up show that the principle of the invention is simple.In the use of the present invention, only need people will when withdrawing from a room
Door is locked, so that it may is achieveed the purpose that to close each total lock within doors, when people returns, need to only be opened door, each total lock in family is just
It can automatically turn on, easy to operate, child old man can operate;If being not desired to automatically control water in family, electricity or gas, can also break
The manual switch of corresponding solenoid valve is opened, then would not close corresponding water, electricity or gas in lock so that control is more flexible.Make
Door lock with the present invention is almost identical with common door lock size, easy for installation suitable for all kinds of antitheft doors, and uses the present invention
Door lock 10-20 members only more expensive than common door lock, for smart home, its cost is low.The internal cylinder of the present invention includes the
One internal cylinder and the second internal cylinder, the first internal cylinder for being placed in outer side of door is provided with core gear, and the second internal lock on the inside of door
Core is not provided with, this structure allow for people at home counter-locking a door when do not turn off each total lock in family;Pass through reponse system at the same time
Feedback reception device intuitively can determine whether indoor water, electricity and gas is turned off;Said structure so that design more hommization.
The present invention is by the machine driving of gear, and by accurately setting the gearratio of gear, realize only when internal cylinder turn to it is pre-
If during position (internal cylinder rotates the position of two circles), microswitch can be just triggered so that stability of the present invention is strong, high sensitivity,
Avoid maloperation (normal switch door will not trigger microswitch without locking when rotating a circle).
Sensitivity and stability of the inventor by the following experimental verification present invention:
Experiment method:LED light is connected with signal processing chip, the first internal cylinder is recorded respectively and rotates 1 circle and 2 circles
When LED light it is bright, go out number.Experimental data is shown in Table 1.
Table 1
Conclusion:As seen from the above table, in normal circumstances, gear-driven rate of accuracy reached has arrived absolutely, remote control switch
Sensitivity it is very high, the success rate of each switch of remote control has reached absolutely.
Brief description of the drawings
Fig. 1 is the structure diagram of activation system;
Fig. 2 is the structure diagram of control system and reponse system;
Fig. 3 is the structure diagram of internal cylinder;
Fig. 4 is the structure diagram of starter.
Mark in attached drawing for:1- activation systems, 2- control systems, 3- internal cylinders, 4- travelling gears, 5- starters,
6- microswitches, 7- signal transmitting chips, 8- signal processing chips, the first solenoid valves of 9-, 10- second solenoid valves, the electricity of 11- the 3rd
Magnet valve, the first internal cylinders of 12-, the second internal cylinders of 13-, 14- core gears, 15- starter receivers, 16- boot disk, 17- is raised,
18- springboards, 19- switch, 20- first manuals switch, the second manual switches of 21-, the 3rd manual switches of 22-, 23- feedback receptions
Device, the first feedback devices of 24-, the second feedback devices of 25-, the 3rd feedback devices of 26-.
Embodiment
The present invention is further illustrated with reference to the accompanying drawings and examples, but be not intended as to the present invention limit according to
According to.
Embodiment 1.A kind of system used in door lock type water power pneumatic control method, is formed as shown in Figs 1-4, including starts system
System 1 and control system 2;The activation system 1 includes internal cylinder 3, and internal cylinder 3 is connected with travelling gear 4, travelling gear 4 with
Starter 5 connects, and 5 lower part of starter is equipped with microswitch 6, and microswitch 6 is connected with signal transmitting chip 7;Described
Control system 2 includes signal processing chip 8, and the control terminal of signal processing chip 8 is connected with solenoid valve.Including 1 He of activation system
Control system 2, activation system 1 are arranged on door lock, and control system 2 is set in doors;The activation system 1 includes internal cylinder
3, internal cylinder 3 is connected with travelling gear 4, and travelling gear 4 is connected with starter 5, and 5 lower part of starter is equipped with microswitch 6,
Microswitch 6 is connected with signal transmitting chip 7;The control system 2 includes signal processing chip 8, signal processing chip 8
Control terminal is connected with solenoid valve.
Foregoing door lock type water power pneumatic control method is to turn internal cylinder 3 i.e. from locking outdoors, and internal cylinder 3 is through driving cog
The drive of wheel 4 starter 5 rotates, and when starter 5 goes to predeterminated position, triggers microswitch 6, is connected with microswitch 6
Signal transmitting chip 7 launches signal, and signal processing chip 8 controls solenoid valve to close the total lock of water, electricity, gas after receiving signal;Instead
Open the door to internal cylinder 3 is turned, internal cylinder 3 drives starter 5 to rotate backward through travelling gear 4, and starter 5 is left default
During position, microswitch 6 is triggered again, and the signal transmitting chip 7 being connected with microswitch 6 launches signal, signal processing again
Chip 8 controls solenoid valve to open the total lock of water, electricity, gas after receiving signal.
Foregoing door lock type water power pneumatic control method is to turn the first internal cylinder 12 in internal cylinder 3 i.e. from locking outdoors,
Core gear 14 in first internal cylinder 12 drives starter 5 to rotate through travelling gear 4, and starter 5 goes to predeterminated position
When, microswitch 6 is triggered, the signal transmitting chip 7 being connected with microswitch 6 launches signal, and signal processing chip 8 receives letter
Solenoid valve is controlled to close the total lock of water, electricity, gas after number;Reversely turn the first internal cylinder 12 to open the door, core gear 14 is through driving cog
The drive of wheel 4 starter 5 rotates backward, and when starter 5 leaves predeterminated position, microswitch 6 is triggered again, with microswitch
The signal transmitting chips 7 of 6 connections launch signal again, signal processing chip 8 receive control after signal solenoid valve open water,
Electricity, the total lock of gas;When turning the second internal cylinder 13, microswitch 6 will not be triggered, that is, does not turn off the total lock of water, electricity, gas.
Foregoing door lock type water power pneumatic control method is to turn the first internal cylinder 12 in internal cylinder 3 i.e. from locking outdoors,
Core gear 14 in first internal cylinder 12 drives the starter receiver 15 of starter 5 to rotate through travelling gear 4, starter receiver 15
Drive boot disk 16 to rotate, when the protrusion 17 in boot disk 16 goes to predeterminated position, trigger microswitch 6, connect with microswitch 6
The signal transmitting chip 7 connect launches signal, and signal processing chip 8 controls solenoid valve closing water, electricity, gas total after receiving signal
Lock;Reversely the first internal cylinder 12 being turned to open the door, core gear 14 drives starter receiver 15 to rotate backward through travelling gear 4, and
Protrusion 17 in boot disk 16 is driven to rotate backward, when protrusion 17 leaves predeterminated position, triggering microswitch 6, and micro- again
The signal transmitting chip 7 of the dynamic connection of switch 6 launches signal again, and control solenoid valve is opened after signal processing chip 8 receives signal
Open the total lock of water, electricity, gas.
Foregoing solenoid valve is connected with manual switch, when that need not be carried out at the same time control to water, electricity or gas, is disconnected corresponding
Manual switch, i.e., total lock of corresponding water, electricity or gas will not be controlled.
Foregoing solenoid valve is connected with feedback device, when solenoid valve turns off or on water, electricity or the total lock of gas, feedback device
Launch corresponding feedback signal, after feedback reception device 23 receives feedback signal, corresponding indicator light is lighted or extinguished, can
The control situation directly perceived for understanding the gentle total lock of indoor water, electricity.
Embodiment 2.A kind of system used in door lock type water power pneumatic control method, is formed as shown in Figs 1-4, including starts system
System 1 and control system 2, activation system 1 are arranged on door lock, and control system 2 is set in doors;The activation system 1 includes
Internal cylinder 3, internal cylinder 3 are connected with travelling gear 4, and travelling gear 4 is connected with starter 5, and 5 lower part of starter is equipped with fine motion
Switch 6, microswitch 6 is connected with signal transmitting chip 7;The control system 2 includes signal processing chip 8, signal processing
The control terminal of chip 8 is connected with solenoid valve.
Foregoing internal cylinder 3 includes the first internal cylinder 12 for being arranged at outer side of door and is arranged at second internal cylinder of inner side
13;First internal cylinder 12 is equipped with core gear 14, and core gear 14 is connected with travelling gear 4.By the structure, when
Outside room during counter-locking a door, the first internal cylinder 12 is turned, lock core gear 14 drives starter 5 to rotate, that is, closes through travelling gear 4
Each total lock in family;When counter-locking a door in doors, the second internal cylinder 13 is turned, because the second internal cylinder 13 is not provided with core gear
14, so when turning the second internal cylinder 13, starter 5 will not be driven to rotate, that is, not turn off each total lock in family.Together
When, pass through the gearratio between careful design gear so that interior first internal cylinder 12 is when rotating a circle, the protrusion in boot disk 16
17 fail to reach predeterminated position, and when the first internal cylinder 12, which rotates two circles, is locked outside room, protrusion 17 can just reach default
Simultaneously trigger microswitch 6 in position.By the structure, avoid triggering microswitch 6 during normal switch door (not locking state).
Foregoing starter 5 includes starter receiver 15, and boot disk 16, boot disk are connected with the side of starter receiver 15
16 are equipped with protrusion 17;The starter receiver 15 is also connected with travelling gear 4.By the structure, opened when travelling gear 4 drives
When moving gear 15 rotates, boot disk 16 rotates therewith, and when the protrusion 17 in boot disk 16 turns to predeterminated position, starts fine motion and opens
Close 6 so that signal transmitting chip 7 sends signal;When 4 backwards rotation of travelling gear is to predeterminated position, protrusion 17 is also reverse to be turned
It is dynamic, while discharge microswitch 6 so that signal transmitting chip 7 sends corresponding signal again.
Foregoing solenoid valve is connected with manual switch;The solenoid valve includes the first solenoid valve 9,10 He of second solenoid valve
3rd solenoid valve 11;The manual switch includes first manual switch 20, the second manual switch 21 and the 3rd manual switch 22;
First solenoid valve 9,10 and the 3rd solenoid valve 11 of second solenoid valve switch 20 with first manual respectively, the second manual switch
21 and the 3rd manual switch 22 connect;First solenoid valve 9,10 and the 3rd solenoid valve 11 of second solenoid valve with signal
Manage the control terminal connection of chip 8.Such as it is not desired to be controlled corresponding water, electricity or gas, corresponding manual switch can be disconnected.
In system used in foregoing door lock type water power pneumatic control method, first solenoid valve 9 is located at main water pipeline
On;The second solenoid valve 10 is located on circuit main line;3rd solenoid valve 11 is located on natural gas main pipeline.
System used in foregoing door lock type water power pneumatic control method further includes reponse system, and reponse system includes feedback and fills
Put and feedback reception device 23;The feedback device includes the first feedback device 24, the second feedback device 25 and the 3rd feedback
Device 26;First feedback device 24, the second feedback device 25 and the 3rd feedback device 26 respectively with the first solenoid valve 9,
10 and the 3rd solenoid valve 11 of second solenoid valve connects.Above-mentioned feedback reception device 23 is arranged on door;Will by feedback device
Corresponding feedback signal is transmitted to feedback reception device 23, and corresponding indicator light will be lighted or extinguished on feedback reception device 23,
Resident family can know whether indoor water, electricity and gas is turned off by indicator light.
Foregoing door lock type water power pneumatic control method is, when people leaves home, people by the first internal cylinder 12 from turning two outdoors
Circle (i.e. from lock outdoors), starter receiver of the lock core gear 14 through the drive starter 5 of travelling gear 4 in the first internal cylinder 12
15 rotate, and starter receiver 15 drives boot disk 16 to rotate, and the protrusion 17 in boot disk 16 turns to predeterminated position, and pressure fine motion is opened
The springboard 18 of pass 6, triggers microswitch 6, makes the pressure switch of springboard 18 19, at this time, it is each total that signal transmitting chip 7 sends closing
Lock infrared signal, after the signal processing chip 8 of control system 2 receives infrared signal, the first solenoid valve 9 of control closes water main
Road;Second solenoid valve 10 closes circuit main line, cuts off general supply;3rd solenoid valve 11 closes natural gas main pipeline.When people returns to
During family, the first internal cylinder 12 is reversely turned so that protrusion 17 leaves predeterminated position, and protrusion 17 discharges springboard 18 at this time, touches again
Microswitch 6 is sent out, springboard 18 is discharged climax 19, signal transmitting chip 7 launches signal again, and signal processing chip 8 receives
To after infrared signal, each total lock of phase down, i.e., at this time, the first solenoid valve 9 open main water pipeline;Second solenoid valve 10 opens electricity
Road main line, opens general supply;3rd solenoid valve 11 opens natural gas main pipeline.When people at home from internal counter-locking a door when, turn
Second internal cylinder 13, because the second internal cylinder 13 is not provided with lock core gear 14, will not have drive connection with travelling gear 4, will not touch
Send out microswitch 6.It is electric with the first solenoid valve 9, second solenoid valve 10 and the 3rd respectively while progress water, electricity and gas automatically controls
The first feedback device 24 that magnet valve 11 connects, the second feedback device 25 and the 3rd feedback device 26 can launch corresponding signal, be located at
After feedback reception device 23 on door receives corresponding signal, light or extinguish corresponding indicator light, you can intuitively understand indoor water
Electric control situation, the indicator light of such as corresponding water light, then illustrate that indoor main water pipeline is turned off.Resident family also can be according to need
Selectively to control indoor water, electricity and gas;Such as it is not desired to close main water pipeline after locking a door, you can first manual switch 20 is disconnected,
At this time, the indicator light of 23 corresponding water of feedback reception device is not bright after locking a door, that is, is not turned off main water pipeline after locking a door;It is electric, gas
Control is also such.
Above-mentioned signal transmitting chip 7 uses PT2262-IR models, and signal processing chip 8 uses PT2272 models.
Claims (6)
- A kind of 1. door lock type water power pneumatic control method, it is characterised in that:The control method is to turn in internal cylinder (3) I.e. from locking outdoors, the core gear (14) in the first internal cylinder (12) drives and opens first internal cylinder (12) through travelling gear (4) Dynamic device (5) rotates, and when starter (5) goes to predeterminated position, triggers microswitch (6), the letter being connected with microswitch (6) Number transmitting chip (7) transmitting signal, signal processing chip (8) control solenoid valve to close the total lock of water, electricity, gas after receiving signal; Reversely turn the first internal cylinder (12) to open the door, core gear (14) drives starter (5) reversely to turn through travelling gear (4) It is dynamic, when starter (5) leaves predeterminated position, microswitch (6) is triggered again, the signal transmitting being connected with microswitch (6) Chip (7) launches signal again, and signal processing chip (8) controls solenoid valve to open the total lock of water, electricity, gas after receiving signal;Institute The internal cylinder (3) stated includes being arranged at the first internal cylinder (12) of outer side of door and is arranged at second internal cylinder (13) for inner side; Core gear (14) is not provided with second internal cylinder (13);When counter-locking a door in doors, the second internal cylinder (13) is turned, Starter (5) will not be driven to rotate, that is, do not turn off each total lock in family;The default position that the starter (5) is gone to Put the position that i.e. the first internal cylinder (12) rotates two circles.
- 2. door lock type water power pneumatic control method as claimed in claim 1, it is characterised in that:The control method is to turn The first internal cylinder (12) in internal cylinder (3) i.e. from locking outdoors, and the core gear (14) in the first internal cylinder (12) is through transmission Gear (4) drives the starter receiver (15) of starter (5) to rotate, and starter receiver (15) drives boot disk (16) to rotate, and starts When protrusion (17) on disk (16) goes to predeterminated position, microswitch (6) is triggered, the signal transmitting being connected with microswitch (6) Chip (7) launches signal, and signal processing chip (8) controls solenoid valve to close the total lock of water, electricity, gas after receiving signal;Reversely twist Dynamic first internal cylinder (12) is opened the door, and core gear (14) drives starter receiver (15) to rotate backward through travelling gear (4), and band Protrusion (17) in dynamic boot disk (16) rotates backward, and when protrusion (17) leaves predeterminated position, triggers microswitch again (6), the signal transmitting chip (7) being connected with microswitch (6) launches signal again, and signal processing chip (8) receives signal Solenoid valve is controlled to open the total lock of water, electricity, gas afterwards.
- 3. door lock type water power pneumatic control method as claimed in claim 1 or 2, it is characterised in that:The solenoid valve and feedback Device connects, and when solenoid valve turns off or on water, electricity or the total lock of gas, feedback device launches corresponding feedback signal, and feedback connects After receiving apparatus (23) receives feedback signal, corresponding indicator light is lighted or extinguished.
- 4. the system used in door lock type water power pneumatic control method as claimed in claim 3, it is characterised in that:Including activation system (1) and control system (2);The activation system (1) includes internal cylinder (3), and internal cylinder (3) includes being arranged at the of outer side of door One internal cylinder (12) and second internal cylinder (13) for being arranged at inner side;First internal cylinder (12) is equipped with core gear (14), core gear (14) is connected with travelling gear (4);The starter (5) includes starter receiver (15), starter receiver (15) boot disk (16) is connected with side, boot disk (16) is equipped with raised (17);The starter receiver (15) also with Travelling gear (4) connects;Starter (5) lower part is equipped with microswitch (6), and microswitch (6) connects with signal transmitting chip (7) Connect;The control system (2) includes signal processing chip (8), and the control terminal of signal processing chip (8) is connected with solenoid valve; The system also includes springboard (18) and switch (19), one end of the springboard (18) is connected with microswitch (6), is started Device (5) is arranged on the side of springboard (18) and is contradicted with springboard (18), switch sub (19) be arranged on springboard (18) opposite side and One end of switch (19) is contradicted with springboard (18), and the other end for switching sub (19) is connected with microswitch (6) so that in first When lock core (12) rotates two circles, raised (17) can just reach predeterminated position, and pressure springboard (18), triggering microswitch (6), makes Springboard (18) pressure switch is sub (19), and each total lock within doors is closed in control;Core tooth is not provided with second internal cylinder (13) Take turns (14);When counter-locking a door in doors, the second internal cylinder (13) is turned, starter (5) will not be driven to rotate, that is, do not turned off Each total lock in family.
- 5. the system used in door lock type water power pneumatic control method as claimed in claim 4, it is characterised in that:The solenoid valve Including the first solenoid valve (9), second solenoid valve (10) and the 3rd solenoid valve (11);First solenoid valve (9), the second electromagnetism Valve (10) and the 3rd solenoid valve (11) switch (20) with first manual respectively, the second manual switch (21) and the 3rd manual switch (22) connect;First solenoid valve (9), second solenoid valve (10) and the 3rd solenoid valve (11) are and signal processing chip (8) control terminal connection.
- 6. the system used in door lock type water power pneumatic control method according to claim 4, it is characterised in that:Further include feedback System, reponse system include feedback device and feedback reception device (23);The feedback device includes the first feedback device (24), the second feedback device (25) and the 3rd feedback device (26);First feedback device (24), the second feedback device (25) connected respectively with the first solenoid valve (9), second solenoid valve (10) and the 3rd solenoid valve (11) with the 3rd feedback device (26).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510249930.5A CN104880970B (en) | 2015-05-15 | 2015-05-15 | A kind of door lock type water power pneumatic control method and system |
Applications Claiming Priority (1)
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CN114099744A (en) * | 2021-11-15 | 2022-03-01 | 上海妙可蓝多生物技术研发有限公司 | Dust-free sterilization and disinfection device |
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CN101368460A (en) * | 2008-07-29 | 2009-02-18 | 李雄信 | Anti-theft lock and key apparatus |
CN101701500A (en) * | 2009-11-13 | 2010-05-05 | 李健令 | Mortise lock and key thereof |
CN203742274U (en) * | 2014-03-07 | 2014-07-30 | 何代禹 | Anti-theft door lock cylinder |
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US4101886A (en) * | 1977-05-16 | 1978-07-18 | Grimes Johnny C | Apparatus for conserving energy in electrical appliances |
NO143356C (en) * | 1979-07-05 | 1981-04-01 | Elkem Spigerverket As | LAST DEVICE. |
JPH08210882A (en) * | 1995-02-06 | 1996-08-20 | Mitsubishi Denki Bill Techno Service Kk | In-house facility monitoring device |
CN202975738U (en) * | 2012-11-20 | 2013-06-05 | 张华奎 | Door lock-type integrated control system of service water, electricity and gas |
CN204166314U (en) * | 2014-08-12 | 2015-02-18 | 徐洪志 | Water, electricity and gas control system |
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CN101368460A (en) * | 2008-07-29 | 2009-02-18 | 李雄信 | Anti-theft lock and key apparatus |
CN101701500A (en) * | 2009-11-13 | 2010-05-05 | 李健令 | Mortise lock and key thereof |
CN203742274U (en) * | 2014-03-07 | 2014-07-30 | 何代禹 | Anti-theft door lock cylinder |
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