CN101515172A - Control system for monitoring indoor water and electric switches by utilizing security doors and implementation method thereof - Google Patents

Abstract

The invention relates to a control system used for monitoring indoor water and electric switches, in particular to a control system for controlling indoor water and electric switches by utilizing security doors and an implementation method thereof. People always forget to switch off the water and electric switches before going out due to negligence, thus leading to disasters. The control system comprises a signal emission part arranged on the security door and a signal receiving part arranged near the water and electric switches; the signal emission part comprises an approach switch capable of sensing and generating door-lock signals, a first single chip for receiving the door-lock signals and converting the door-lock signals into control signals after analyzing and processing the door-lock signals and a wireless transmitting device for transmitting the control signals in a wireless way; the signal receiving part comprises a wireless receiving device used for receiving the control signals and a second single chip used for processing the control signals; the second single chip is connected with the water and electric switches via an electronic switch. The control system has the advantages of being convenient in use and strong in reliability, using no indoor wiring and using human oriented design, thus avoiding the potential safety hazards of water and electricity when nobody is at home.

Description

Utilization live in peace control system and its implementation of water power switch in the Control Room

One, technical field:

The present invention relates to a kind of control system that indoor water power switch is monitored, be specifically related to a kind of utilization live in peace control system and its implementation of water power switch in the Control Room.

Two, background technology:

We can it often happens that in life, and forget when owner gos out and close the water power switch, or when the people is in, run into suddenly under the situation of cutting off the water, having a power failure, and water valve is leaving, electric equipment is connected to power supply again, when owner is away from home, but forgets and close water valve and power supply.Because carelessness just is easy to floods, fire take place for the moment, bring about great losses.Do not close the product of water power switch when not having special reminds people to go out in the market because of carelessness, forget when more not leaving home and close the product that the water power switch can remote auto cuts out the water power switch because of owner.

Three, summary of the invention:

The purpose of this invention is to provide a kind of utilization live in peace control system and its implementation of water power switch in the Control Room, to solve the problem that present indoor water power switch safety practice relatively lacks.

For solving the problem that prior art exists, technical solution of the present invention is:

The live in peace control system of water power switch in the Control Room of utilization is characterized in that: this system comprises and is arranged near the signal emission part the doorframe and is arranged near the water power switch signal receive section; Described signal emission part comprise can respond to and produce the signal of locking a door near switch, receive and to lock a door signal and signal to be carried out the wireless launcher that is converted to first single-chip microcomputer of control signal after the analyzing and processing and control signal carried out wireless transmit; Described signal receive section comprises being used to receive by signal emission part to be sent the radio receiver of control signal and control signal is handled and exported the second singlechip of On/Off voltage; Described second singlechip is connected with the water power switch by electronic switch.

Said system also comprises near the manual control signal radiating portion that is arranged on the water power switch; Described manual control signal radiating portion comprises: receive manually opened/close the water power switching signal and signal carried out the wireless launcher that is converted to the 3rd single-chip microcomputer of control signal after the analyzing and processing and control signal carried out wireless transmit.

The voltage of the above-mentioned supply unit that is connected with each single-chip microcomputer and external circuits for+5V～+ DC voltage of 12V.

The live in peace implementation method of water power on-off control system in the Control Room of utilization is characterized in that its implementation comprises following operation steps:

(1) leaves home to go out as the user, during with the key back locking gate, near inductive switching and produce the signal of effectively locking a door; When owner goes home, open door lock with key, but can not lock This move, near inductive switching and produce the invalid signal of locking a door; Then judge by first single-chip microcomputer whether this signal is effective " signal of locking a door ";

(2) if invalid " signal of locking a door ", then to be judged as be the enabling signal of owner when going home to open the door to first single-chip microcomputer, and enabling signal is converted to " opening the water power switch controlling signal ", sends " opening the water power switch controlling signal " by wireless launcher;

(3) if effectively " signal of locking a door ", first single-chip microcomputer conversion of signals of will locking a door is " closing the water power switch controlling signal ", and enters the time-delay state, sends " closing the water power switch controlling signal " by wireless launcher behind the time-delay 20s;

(4) if first single-chip microcomputer continues to receive effectively " signal of locking a door " behind time-delay 20s, " closing the water power switch controlling signal " state of emitter emission is constant.

(5) receive the control signal of sending near the wireless launcher gatekeeper that lives in peace by near the radio receiver that is positioned at the water power switch, and judge by second singlechip whether this signal is " closing the water power switch controlling signal ";

(6) if not " closing the water power switch controlling signal ", then second singlechip judges that this signal is " opening the water power switch controlling signal ", and the output cut-in voltage;

(7) electronic switch receives cut-in voltage, and connects 220V voltage, water power switch open.

(8) if " closing the water power switch controlling signal ", second singlechip enters the time-delay state, behind the time-delay 20s, voltage is closed in second singlechip output;

(9) electronic switch receives and cuts out voltage, closes 220V voltage, and the water power switch cuts out.

(10) if radio receiver continues to receive " closing the water power switch controlling signal " behind time-delay 20s, it is constant to close the water power on off state.

The live in peace implementation method of water power on-off control system in the Control Room of utilization is characterized in that its implementation comprises following operation steps:

Whether (1) manually control the water power switch as owner, be " manual-lock water power switching signal " by the 3rd single-chip microcomputer analysis;

(2) if not " manual-lock water power switching signal ", then the 3rd single-chip microcomputer judges that this signal is " opening the water power switch controlling signal " for " manually opened water power switching signal " and with this conversion of signals, sends " opening the water power switch controlling signal " by wireless launcher;

(3) if " manual-lock water power switching signal ", the 3rd single-chip microcomputer is " cutting out the water power switch controlling signal " with this conversion of signals, and enters the time-delay state, time-delay is sent " closing the water power switch controlling signal " by wireless launcher behind the 20s;

(4) if the 3rd single-chip microcomputer continues to receive " manual off switch signal " behind time-delay 20S, " closing the water power switch controlling signal " state of wireless launcher emission is constant;

(5) receive the control signal of sending near the wireless launcher water power switch by near the radio receiver that is positioned at the water power switch, and whether connect this signal by the second singlechip analysis be " closing the water power switch controlling signal ";

(6) if not " closing the water power switch controlling signal ", then second singlechip judges that this signal is " opening the water power switch controlling signal ", and the output cut-in voltage;

(7) electronic switch receives cut-in voltage, connects 220V voltage, the water power switch open.

(8) if " closing the water power switch controlling signal ", second singlechip enters the time-delay state, behind the time-delay 20s, voltage is closed in second singlechip output;

(9) electronic switch receives and cuts out voltage, closes 220V voltage, and the water power switch cuts out.

(10) if radio receiver continues to receive behind 20s " closing the water power switch controlling signal ", it is constant to close the water power on off state.

Advantage of the present invention is: easy to use, good reliability, without house wiring, design manual control water power switch is arranged, increase human oriented design, the problem of the water power potential safety hazard when having stopped in the family nobody.

Four, description of drawings:

Near Fig. 1 control system of the present invention signal emission part functional-block diagram of living in peace;

Near the signal receive section functional-block diagram electric brake of Fig. 2 control system of the present invention;

Near the signal receive section functional-block diagram water valve of Fig. 3 control system of the present invention;

Near the signal emission part functional-block diagram water valve of Fig. 4 control system of the present invention;

Near the signal emission part functional-block diagram electric brake of Fig. 5 control system of the present invention;

Near Fig. 6 control system of the present invention signal emission part program flow diagram of living in peace;

Near manual control signal radiating portion program flow diagram Fig. 7 control system water power of the present invention switch;

Near signal receive section program flow diagram Fig. 8 control system water power of the present invention switch;

Five, embodiment:

The invention will be further described below in conjunction with accompanying drawing:

The live in peace control system of water power switch in the Control Room of a kind of utilization, this system comprise and are arranged near the signal emission part the doorframe and are arranged near the water power switch signal receive section.Signal emission part comprise be arranged on the doorframe near switch, first single-chip microcomputer and wireless launcher.Signal receive section comprises radio receiver and second singlechip, and described second singlechip is connected with the water power switch by electronic switch.

Be provided with 2 near switch in the general doorframe, the signal that produces near switch is arranged near the doorframe lockhole.When the user leaves home to go out, during with the key back locking gate, near inductive switching to and the generation signal of effectively locking a door; When owner goes home, open door lock with key, but can not lock This move, near inductive switching to and produce the invalid signal of locking a door.As shown in Figure 1: when owner leaves home to go out when locking the gate, two near inductive switching and produce the signal of effectively locking a door.When owner went home to open the door, two near the invalid signal of locking a door of switch generation.First single-chip microcomputer receives from the signal of locking a door near switch, and whether analyze this " signal of locking a door " effective, and is converted into " control signal of closing/opening the water power switch ", and this control signal is again through the wireless launcher wireless transmit.As shown in Figures 2 and 3: receive " control signal of closing/opening the water power switch " by the radio receiver that is positioned near the signal receive section the water power switch, after the analyzing and processing of second singlechip, reach control water power switching purposes again by electronic switch.Whole process realized, when owner gos out when locking a door, system's control water power switch cuts out; When owner goes home to open the door, system's control water power switch open.Described electronic switch can adopt electronic components such as solid-state relay, mechanical contact-type relay, separate type electronic component, controllable silicon.

Shown in Figure 4 and 5, this system also comprises near the manual control signal radiating portion that is arranged on the water power switch, and this part comprises: the 3rd single-chip microcomputer and wireless launcher.Can utilize manual control water power switch at ordinary times, increase human oriented design, such as near the water power switch, shift knob being set.When the people manually controls the water power switch, as press shift knob, the 3rd single-chip microcomputer receives and is converted to " control signal of cutting out/opening the water power switch " after manually opened/shutdown signal is handled by analysis, again by the sender unit wireless transmit; At this moment, be arranged near the radio receiver of water power switch and receive " control signal of closing/opening the water power switch ", after the analyzing and processing of second singlechip, reach control water power switching purposes again by electronic switch.

The supply unit that is connected with each single-chip microcomputer and external circuits is by carrying out voltage transformation with 220V voltage by the power-switching circuit device, again through the mu balanced circuit device, become voltage for+5V～+ DC voltage of 12V, supply with each single-chip microcomputer and external circuits and use.

As Fig. 6 and shown in Figure 8: when near the sender unit being positioned at the door of living in peace sent control signal control water power switch, this system realized according to following operation steps:

(1) go out when locking a door as owner, 2 near inductive switching and produce effectively " signal of locking a door "; When owner goes home to open the door, near inductive switching and produce invalid " signal of locking a door "; Whether be effective " signal of locking a door " by the signal that produces near switch then by the first single-chip microcomputer analysis; Wherein arbitrary " signal of locking a door " near the switch generation is effective, and then first single-chip microcomputer thinks that this " signal of locking a door " is effective; If 2 " signals of locking a door " that produce near switch are all invalid, then first single-chip microcomputer thinks that this " signal of locking a door " is invalid;

(2) if invalid " signal of locking a door ", then to be judged as be the enabling signal of owner when going home to first single-chip microcomputer, and enabling signal is converted to " opening the water power switch controlling signal ", sends " opening the water power switch controlling signal " by wireless launcher;

(3) if effectively " signal of locking a door ", first single-chip microcomputer conversion of signals of will locking a door is " closing the water power switch controlling signal ", and enters the time-delay state, sends " closing the water power switch controlling signal " by wireless launcher behind the time-delay 20s;

(4) if first single-chip microcomputer continues to receive effectively " signal of locking a door " behind time-delay 20s, " closing the water power switch controlling signal " state of wireless launcher emission is constant.

(5) receive the control signal of sending near the wireless launcher gatekeeper that lives in peace by near the radio receiver that is positioned at the water power switch, and whether analyze this signal by second singlechip be " closing the water power switch controlling signal ";

(6) if not " closing the water power switch controlling signal ", then second singlechip judges that this signal is " opening the water power switch controlling signal ", and the output cut-in voltage;

(7) electronic switch receives cut-in voltage, and connects 220V voltage, water power switch open.

(8) if " closing the water power switch controlling signal ", second singlechip enters the time-delay state, behind the time-delay 20s, voltage is closed in second singlechip output;

(9) electronic switch receives and cuts out voltage, closes 220V voltage, and the water power switch cuts out.

(10) if radio receiver continues to receive behind 20s " closing the water power switch controlling signal ", it is constant then to close the water power on off state.

As Fig. 7 and Fig. 8: when near the manual control signal radiating portion being positioned at the water power switch sends control signal control water power switch, realize according to following operation steps:

(1), whether be " manual-lock water power switching signal " by the 3rd single-chip microcomputer analysis when owner's manual water electric switch button;

(2) if not " manual-lock water power switching signal ", then the 3rd single-chip microcomputer judges that this signal is " opening the water power switch controlling signal " for " manually opened water power switching signal " and with this conversion of signals, sends " opening the water power switch controlling signal " by wireless launcher;

(3) if " manual-lock water power switching signal ", the 3rd single-chip microcomputer is " cutting out the water power switch controlling signal " with this conversion of signals, and enters the time-delay state, time-delay is sent " closing the water power switch controlling signal " by wireless launcher behind the 20s;

(4) if the 3rd single-chip microcomputer continues to receive " manual-lock water power switching signal " behind time-delay 20S, wireless launcher emission " closing the water power switch controlling signal " state is constant;

(5) receive the control signal of sending near the wireless launcher water power switch by near the radio receiver that is positioned at the water power switch, and whether connect this signal by the second singlechip analysis be " closing the water power switch controlling signal ";

(6) if not " closing the water power switch controlling signal ", then second singlechip judges that this signal is " opening the water power switch controlling signal ", output cut-in voltage;

(7) electronic switch receives cut-in voltage, connects 220V voltage, the water power switch open.

(8) if " closing the water power switch controlling signal ", second singlechip enters the time-delay state, behind the time-delay 20s, voltage is closed in second singlechip output;

(9) electronic switch receives and cuts out voltage, closes 220V voltage, and the water power switch cuts out.

(10) if radio receiver continues to receive " closing the water power switch controlling signal " behind time-delay 20s, it is constant then to close the water power on off state.

The purpose of time-delay is to avoid frequent switch gate or manual water electric switch constantly to produce the frequent operation that signal causes control water power switch.

The present invention guarantees in time to close the water power switch after owner leaves home by " signal of locking a door " control water power switch, the water power potential safety hazard when having stopped in the family nobody.System opened total water valve and master on off automatically after owner went home, and human oriented design is simple and easy to use.

Claims (5)

1. utilize the control system of water power switch in the Control Room of living in peace, it is characterized in that: this system comprises and is arranged near the signal emission part the doorframe and is arranged near the water power switch signal receive section;

Described signal emission part comprise can respond to and produce the signal of locking a door near switch, receive and to lock a door signal and signal to be carried out the wireless launcher that is converted to first single-chip microcomputer of control signal after the analyzing and processing and control signal carried out wireless transmit;

Described signal receive section comprises being used to receive by signal emission part to be sent the radio receiver of control signal and control signal is handled and exported the second singlechip of On/Off voltage; Described second singlechip is connected with the water power switch by electronic switch.

2. the live in peace control system of water power switch in the Control Room of utilization according to claim 1 is characterized in that: this system also comprises near the manual control signal radiating portion that is arranged on the water power switch; Described manual control signal radiating portion comprises: receive manually opened/close the water power switching signal and signal carried out the wireless launcher that is converted to the 3rd single-chip microcomputer of control signal after the analyzing and processing and control signal carried out wireless transmit.

3. the live in peace control system of water power switch in the Control Room of utilization according to claim 1 and 2 is characterized in that: the voltage of the described supply unit that is connected with each single-chip microcomputer and external circuits is+5V～+ DC voltage of 12V.

4. utilize the implementation method of water power on-off control system in the Control Room of living in peace, it is characterized in that its implementation comprises following operation steps:

(1) leaves home to go out as the user, during with the key back locking gate, near inductive switching and produce the signal of effectively locking a door; When owner goes home, open door lock with key, but can not lock This move, near inductive switching and produce the invalid signal of locking a door; Then judge by first single-chip microcomputer whether this signal is effective " signal of locking a door ";

(2) if invalid " signal of locking a door ", then to be judged as be the enabling signal of owner when going home to open the door to first single-chip microcomputer, and enabling signal is converted to " opening the water power switch controlling signal ", sends " opening the water power switch controlling signal " by wireless launcher;

(3) if effectively " signal of locking a door ", first single-chip microcomputer conversion of signals of will locking a door is " closing the water power switch controlling signal ", and enters the time-delay state, sends " closing the water power switch controlling signal " by wireless launcher behind the time-delay 20s;

(4) if first single-chip microcomputer continues to receive effectively " signal of locking a door " behind time-delay 20s, " closing the water power switch controlling signal " state of emitter emission is constant.

(5) receive the control signal of sending near the wireless launcher gatekeeper that lives in peace by near the radio receiver that is positioned at the water power switch, and judge by second singlechip whether this signal is " closing the water power switch controlling signal ";

(6) if not " closing the water power switch controlling signal ", then second singlechip judges that this signal is " opening the water power switch controlling signal ", and the output cut-in voltage;

(7) electronic switch receives cut-in voltage, and connects 220V voltage, water power switch open.

(8) if " closing the water power switch controlling signal ", second singlechip enters the time-delay state, behind the time-delay 20s, voltage is closed in second singlechip output;

(9) electronic switch receives and cuts out voltage, closes 220V voltage, and the water power switch cuts out.

(10) if radio receiver continues to receive " closing the water power switch controlling signal " behind time-delay 20s, it is constant to close the water power on off state.

5. utilize the implementation method of water power on-off control system in the Control Room of living in peace, it is characterized in that its implementation comprises following operation steps:

Whether (1) manually control the water power switch as owner, be " manual-lock water power switching signal " by the 3rd single-chip microcomputer analysis;

(2) if not " manual-lock water power switching signal ", then the 3rd single-chip microcomputer judges that this signal is " opening the water power switch controlling signal " for " manually opened water power switching signal " and with this conversion of signals, sends " opening the water power switch controlling signal " by wireless launcher;

(3) if " manual-lock water power switching signal ", the 3rd single-chip microcomputer is " cutting out the water power switch controlling signal " with this conversion of signals, and enters the time-delay state, time-delay is sent " closing the water power switch controlling signal " by wireless launcher behind the 20s;

(4) if the 3rd single-chip microcomputer continues to receive " manual off switch signal " behind time-delay 20S, " closing the water power switch controlling signal " state of wireless launcher emission is constant;

(5) receive the control signal of sending near the wireless launcher water power switch by near the radio receiver that is positioned at the water power switch, and whether connect this signal by the second singlechip analysis be " closing the water power switch controlling signal ";

(6) if not " closing the water power switch controlling signal ", then second singlechip judges that this signal is " opening the water power switch controlling signal ", and the output cut-in voltage;

(7) electronic switch receives cut-in voltage, connects 220V voltage, the water power switch open.

(8) if " closing the water power switch controlling signal ", second singlechip enters the time-delay state, behind the time-delay 20s, voltage is closed in second singlechip output;

(9) electronic switch receives and cuts out voltage, closes 220V voltage, and the water power switch cuts out.

(10) if radio receiver continues to receive behind 20s " closing the water power switch controlling signal ", it is constant to close the water power on off state.

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