CN201017197Y

CN201017197Y - Water or electric intelligent control device

Info

Publication number: CN201017197Y
Application number: CNU2007201404830U
Authority: CN
Inventors: 靳保民
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-03-15
Filing date: 2007-03-15
Publication date: 2008-02-06
Anticipated expiration: 2017-03-15

Abstract

The utility model discloses a water and electricity intelligent control device, which consists of a main control box, a photoelectricity induction control box, a microswitch and an electric ball valve of cold water and hot water. The main control box is provided with a main control circuit, and an electrical source control end of the main control circuit is connected with two ends of a main switch at an inner fire wire of a power distribution box; a controlling signal output end of the main control circuit is connected with the electric ball valve of cold water and hot water. The photoelectricity induction control box is provided with a photoelectricity induction control circuit. An electrical source input end of the photoelectricity induction control circuit is connected with an electrical source output end of the main control circuit. Two ends of the microswitch are respectively connected with the signal input ends of the main control circuit and the photoelectricity induction control circuit. The utility model has the simple installation and operation and high automatization degree and can automatically control the switching of the indoor water and electricity. When people unlock the door and enter into room, the indoor water and electricity automatically switch on; when people go out and lock a security door, the indoor water and electricity automatically switch off, which effectively prevent the occurrences of water leakage and electricity leakage when nobody is at home and avoid the disasters caused by the electric fire or the water leakage of water pipe.

Description

Water, electric intelligence controlling device

Technical field

The utility model relates to a kind of domestic safety device, particularly a kind of intelligence controlling device about water, electricity.

Background technology

Before going out, people need oneself manually penstock and battery main switch to be closed, and the situation of leaking, leaking electricity when preventing in the family nobody takes place, and after going out, needs manual unlocking penstock and battery main switch again.This safeguard measure automaticity is low, and complicated operation has brought unnecessary trouble to people.If forget before going out and close penstock or battery main switch, then constantly exist potential safety hazard in the family.

What known star hotel used is card insert type control electric switch; when withdrawing from a room; card is extracted draw-in groove, pin door, just can close the general supply in the room; before entering the room; to block and insert draw-in groove, then the general supply in the room is opened, but it can only control the Guan Hekai of all power supplys in the room; and can not the water source be controlled, safety protection range is little.

The utility model content

The purpose of this utility model is to provide a kind of water, electric intelligence controlling device, and this device is the break-make of water power in the pulpit automatically, and the automaticity height is simple to operate, for people save many unnecessary troubles.

For achieving the above object, the utility model is by the following technical solutions:

A kind of water, electric intelligence controlling device, it is characterized in that: it is made up of the main control box that is installed in cubicle switch one side, the optoelectronic induction control box that is installed in the antitheft door inboard, the hot water or cold water's electrical ball valve that is installed in the microswitch in the anti-theft door frame dead bolt hole and is installed in hot water or cold water's total valve back respectively, wherein:

Described main control box is provided with main control circuit, and the master switch two ends in the power control terminal of this main control circuit and the panel box on the live wire link to each other, and the control signal output ends of this main control circuit links to each other with described hot water or cold water's electrical ball valve; Described optoelectronic induction control box is provided with the optoelectronic induction control circuit, and the power input of this optoelectronic induction control circuit links to each other with the power output end of described main control circuit; The two ends of described microswitch link to each other with the signal input part of main control circuit with the optoelectronic induction control circuit respectively.

Described main control circuit comprises power supply changeover device, ac solid relay, transformer, locking press button switch and two auxiliary reclays, wherein: an input end of power supply changeover device master switch outer end on the live wire in locking press button switch and described panel box joins, its another input end and described panel box zero line join, the moving contact of its cathode output end and first auxiliary reclay joins, one end of its cathode output end and first auxiliary reclay coil joins, the normally closed stationary contact of this first auxiliary reclay and the positive pole of ac solid relay input control end join, the negative pole input control end of this ac solid relay and the cathode output end of power supply changeover device join, the output-controlled end of this ac solid relay respectively with described panel box on the live wire master switch in, the outer end joins, the input end of primary and power supply changeover device joins, one end of transformer secondary output and the moving contact of second auxiliary reclay join, the normally closed stationary contact of the other end of transformer secondary output and second auxiliary reclay, often open stationary contact successively with cold, the common port of hot water electrical ball valve, opening end and closing end join, it is cold to be used for output control, the start stop signal of hot water electrical ball valve, the coil two ends of this second auxiliary reclay join with the cathode output end of power supply changeover device and the stationary contact of often opening of first auxiliary reclay respectively;

Described optoelectronic induction control circuit comprises optoelectronic switch, controllable silicon and auxiliary reclay, wherein: the positive and negative electrode of optoelectronic switch respectively with described main control circuit in the positive and negative electrode output terminal of power supply changeover device join, the positive pole of optoelectronic switch also joins with the moving contact and the silicon controlled anode of auxiliary reclay, the coil two ends of this auxiliary reclay join with the positive pole and the output terminal of optoelectronic switch respectively, this auxiliary reclay often open stationary contact and the silicon controlled control utmost point joins;

The two ends of described microswitch respectively with silicon controlled negative electrode and described main control circuit in the other end of first auxiliary reclay coil join.

Described main control box also is provided with temperature-control circuit, this temperature-control circuit comprises temperature controller, auxiliary reclay and fan, temperature controller be connected between two input ends of described power supply changeover device after the auxiliary reclay coil is connected, a pair of normally open contact of auxiliary reclay be connected between the positive and negative electrode output terminal of described power supply changeover device after fan is connected.

Connect a voltage dependent resistor (VDR) between the output-controlled end of described ac solid relay.

The people opens master switch at home the time, presses the locking press button switch, then indoor water flowing, the "on" position of being in.When going out to lock antitheft door (still keeping the locking press button switch is closure state), optoelectronic switch induction staff, the microswitch closure, the output-controlled end of ac solid relay disconnects, the closing end of hot water or cold water's electrical ball valve and common port are in "on" position, and (electrical ball valve cuts off the power supply automatically after 45 seconds, but penstock still is in closed condition), then indoor be in cut off the water supply, off-position.When going out to return to unblank, dead bolt leaves dead bolt hole, microswitch is opened, controllable silicon ends, the output-controlled termination of ac solid relay is logical, the opening end of hot water or cold water's electrical ball valve and common port are in "on" position (electrical ball valve cuts off the power supply automatically after 45 seconds, but penstock still is in open mode), then indoor water flowing, the "on" position of being in.

The utility model installation, simple to operate, automaticity height, the break-make of water power in the pulpit automatically.When the people unblanks to enter the door, indoor automatic water flowing, energising, when the people goes out to lock antitheft door, indoor automatic shutoff, outage, the generation of the situation of leaking, leak electricity when effectively having prevented in the family nobody is avoided catching fire or disaster that water pipe is metalled run out, leaked and cause because of electric.

Description of drawings

Fig. 1 is a composition frame chart of the present utility model;

Fig. 2 is circuit theory diagrams of the present utility model.

Embodiment

As shown in Figure 1, the utility model is made up of main control box 1, optoelectronic induction control box 2, microswitch 3, cold water electrical ball valve 4 and hot water electrical ball valve 5.Main control box 1 is provided with main control circuit, and the master switch K1 two ends in the power control terminal of this main control circuit and the panel box 6 on the live wire L link to each other, and the control signal output ends of this main control circuit links to each other with hot water or cold water's

electrical ball valve

4,5; Optoelectronic induction control box 2 is provided with the optoelectronic induction control circuit, and the power input of this optoelectronic induction control circuit links to each other with the power output end of main control circuit; The two ends of microswitch 3 link to each other with the signal input part of main control circuit with the optoelectronic induction control circuit respectively.

As shown in Figure 2, main control circuit comprises power supply changeover device 101, ac solid relay 102, transformer T, locking press button switch S B (being arranged on the casing of main control box 1) and two auxiliary reclay KA1, KA2.One input end A2 of power supply changeover device 101 master switch K1 outer end on the live wire L in locking press button switch S B and panel box 6 joins, zero line N joins in its another input end B2 and the panel box 6, the moving contact a1 of its cathode output end C2 and first auxiliary reclay KA1 (DC 5V 1A auxiliary reclay) joins, the end of the coil J1 of its cathode output end D2 and first auxiliary reclay KA1 joins, the normally closed stationary contact b1 of this first auxiliary reclay KA1 and the positive pole of ac solid relay 102 input control end A1 join, the negative pole input control end B1 of this ac solid relay 102 and the cathode output end D2 of power supply changeover device 101 join, the output-controlled end D1 of this ac solid relay 102, C1 respectively with master switch K1 in, the outer end joins, and output-controlled end C1, connect a voltage dependent resistor (VDR) Rv between the D1, the elementary input end A2 with power supply changeover device 101 of transformer T, B2 joins, one end of T level of transformer and the moving contact a2 of second auxiliary reclay KA2 (DC 5V 1A auxiliary reclay) join, the other end of T level of transformer and the normally closed stationary contact b2 of second auxiliary reclay KA2, often open stationary contact c2 successively with cold, hot water electrical ball valve F1, the common port of F2 (being shown in Figure 14 and 5), opening end and closing end join, it is cold to be used for output control, the start stop signal of hot water electrical ball valve, the coil J2 two ends of this second auxiliary reclay KA2 join with the cathode output end D2 of power supply changeover device 101 and the stationary contact c1 that often opens of first auxiliary reclay KA1 respectively.

The optoelectronic induction control circuit comprises optoelectronic switch 201, controllable silicon Vs and auxiliary reclay KA3 (DC 5V 1A auxiliary reclay).The positive and negative electrode of optoelectronic switch 201 joins with positive and negative electrode output terminal C2, the D2 of power supply changeover device 101 respectively, the positive pole of optoelectronic switch 201 also joins with the moving contact a3 of auxiliary reclay KA3 and the anode A of controllable silicon Vs, the coil J3 two ends of this auxiliary reclay KA3 join with the positive pole and the output terminal OUT of optoelectronic switch 201 respectively, and the control utmost point G that often opens stationary contact c3 and controllable silicon Vs of this auxiliary reclay KA3 joins.

The two ends of microswitch K2 (being shown in Figure 1 3) join with the other end of the coil J1 of the negative electrode K of controllable silicon Vs and first auxiliary reclay KA1 in the main control circuit respectively.

Main control box 1 also is provided with temperature-control circuit, this temperature-control circuit comprises temperature controller K, auxiliary reclay KA4 (AC 220V 1A auxiliary reclay) and fan D, temperature controller K be connected between two input end A2, the B2 of power supply changeover device 101 after the coil J4 of auxiliary reclay KA4 connects, a pair of normally open contact a4, the c4 of auxiliary reclay KA4 be connected between positive and negative electrode output terminal C2, the D2 of power supply changeover device 101 after fan D connects.

In addition, main control box is provided with five pilot lamp, green indicating lamp LED1 is connected between master switch K1 the inner and the zero line N, be used to show water, the on-state of electricity, red led LED2 is connected between master switch K1 outer end and the zero line N, be used to show "on" position of the present utility model, red led LED3 is connected cold, hot water electrical ball valve F1, between the closing end and common port of F2, be used to show the closure state of penstock, green indicating lamp LED4 is connected cold, hot water electrical ball valve F1, between the opening end and common port of F2, be used to show the opening of penstock, green indicating lamp LED5 and the two ends that are connected in parallel on fan D after resistance R is connected are used to show the start and stop state of fan.

In actual applications, main control box 1 of the present utility model is installed in a side of cubicle switch 6, optoelectronic induction control box 2 is installed in the inboard of antitheft door or door limit, optoelectronic switch 201 in it is placed on the top of safe-guard door lock, the infrared ray of launching with optoelectronic switch 201 can shine the staff of unblanking and be as the criterion, microswitch K2 is installed in the dead bolt hole of anti-theft door frame, the turnover may command microswitch K2 of dead bolt opens with closed, and hot water or cold water's electrical ball valve F1, F2 are installed in the back of hot water or cold water's total valve respectively.

Describe use of the present utility model and principle of work thereof below in detail:

The people is at home the time, master switch K1 in the panel box 6 is opened, red led LED2 is bright, represent this water, the energising of electric intelligence controlling device, press locking press button switch S B, make its closure, input end A2, the B2 energising of power supply changeover device 101 (AC 220V becomes DC 5V 2A power supply changeover device), output terminal C2, D2 output direct current 5V voltage, transformer T's (AC 220V becomes AC 24V 10W transformer) is electricly elementary, secondary output AC 24V voltage.Because the people in doors, the infrared ray that the transmitting terminal of optoelectronic switch 201 is launched can't reflex to its receiving end, the output terminal OUT output high level of optoelectronic switch 201, coil J3 must not, a pair of normally closed interlock a3, the b3 of auxiliary reclay KA3 be failure to actuate (contact a3, b3 connect), the control utmost point G no signal input of controllable silicon Vs, controllable silicon Vs ends.No matter antitheft door is in the lock state of opening, cut out still (be K2 be in open with closed), coil J1 must not, a pair of normally closed interlock a1, the b1 of auxiliary reclay KA1 is failure to actuate, and (contact a1, b1 connect, contact a1, c1 disconnect), input control end A1, the B1 energising of ac solid relay 102, ac solid relay 102 work, its output-controlled end C1, D1 connect, green indicating lamp LED1 is bright, the indoor "on" position that is in.Simultaneously, coil J2 must not, a pair of normally closed interlock a2, the b2 of auxiliary reclay KA2 is failure to actuate (contact a2, b2 connect, and contact a2, c2 disconnect), the opening end of hot water or cold water's electrical ball valve F1, F2 and common port energising, green indicating lamp LED4 is bright, the penstock Unscrew, electrical ball valve cuts off the power supply automatically after 45 seconds, and green indicating lamp LED4 goes out, but penstock still is in open mode, the indoor water flowing state that is in.

When the temperature of ac solid relay 102 surpasses 45 ℃, the two ends conducting of temperature controller K, coil J4 gets, a pair of normally closed interlock a4, b4 open, a pair of normally open contact a4, c4 closure (contact a4 and c4 connect), green indicating lamp LED5 is bright, the fan D work of switching on, reduce the temperature of ac solid relay 102, hot gas is discharged from the vent port of main control box 1.After temperature was lower than 45 ℃, the two ends of temperature controller K disconnected, coil J4 dead electricity, and a pair of normally open contact a4, c4 open (contact a4 and b4 connect), and green indicating lamp LED5 goes out, and fan D outage quits work.

(still keeping locking press button switch S B is closure state when going out to lock antitheft door, power supply changeover device 101 output direct current 5V voltages, T level of transformer output AC 24V voltage), the dead bolt that enters dead bolt hole is with microswitch K2 closure, simultaneously, the infrared ray that the transmitting terminal of optoelectronic switch 201 is launched reflexes to its receiving end through staff, output terminal OUT output low level, coil J3 gets, the a pair of normally closed interlock a3 of auxiliary reclay KA3, b3 opens, normally open contact a3, the c3 closure (is contact a3, c3 connects), the control utmost point G input high level signal of controllable silicon Vs, controllable silicon Vs conducting.When hand leaves latch position, the receiving end of optoelectronic switch 201 does not have infrared ray and injects, output terminal OUT exports high level, coil J3 dead electricity, the a pair of normally closed interlock a3 of auxiliary reclay KA3, b3 closure (being that contact a3, c3 disconnect), the control utmost point G no signal input of controllable silicon Vs, but because microswitch K2 is in closure, so still conducting of controllable silicon Vs.Coil J1 gets, a pair of normally closed interlock a1, the b1 of auxiliary reclay KA1 open, normally open contact a1, c1 closure (being that contact a1, c1 connect), the input control end A1 of ac solid relay 102, B1 dead electricity, ac solid relay 102 quits work, its output-controlled end C1, D1 disconnect, and green indicating lamp LED1 goes out, the indoor off-position that is in.Simultaneously, coil J2 gets, a pair of normally closed interlock a2, the b2 of auxiliary reclay KA2 open, normally open contact a2, c2 closure (being that contact a2, c2 connect), the closing end of hot water or cold water's electrical ball valve F1, F2 and common port energising, red led LED3 is bright, the penstock rotary closing, electrical ball valve cuts off the power supply automatically after 45 seconds, and red led LED3 goes out, but penstock still is in closed condition, the indoor state of cutting off the water supply that is in.

When going out to return to unblank, dead bolt leaves dead bolt hole, microswitch K2 opens (201 couples of controllable silicon Vs are inoperative for optoelectronic switch this moment), controllable silicon Vs ends, coil J1 dead electricity, a pair of normally open contact a1, the c1 of auxiliary reclay KA1 open, a pair of normally closed interlock a1, b1 closure (being that contact a1, b1 connect), input control end A1, the B1 energising of ac solid relay 102, ac solid relay 102 work, its output-controlled end C1, D1 connect, and green indicating lamp LED1 is bright, the indoor "on" position that is in.Simultaneously, coil J2 dead electricity, the a pair of normally closed interlock a2 of auxiliary reclay KA2, b2 closure, a pair of normally open contact a2, c2 open (being that contact a2, b2 connect), the opening end of hot water or cold water's electrical ball valve F1, F2 and common port energising, green indicating lamp LED4 is bright, the penstock Unscrew, electrical ball valve cuts off the power supply automatically after 45 seconds, and green indicating lamp LED4 goes out, but penstock still is in open mode, the indoor water flowing state that is in.After in people's inlet chamber antitheft door being shut or locks, because controllable silicon Vs ends, so coil J1 still must not, a pair of normally open contact a1, c1 still are open mode, ac solid relay 102 energisings, output-controlled end C1, D1 connect, the indoor "on" position that is in, simultaneously, a pair of normally open contact a2, c2 still are open mode, and the opening end of hot water or cold water's electrical ball valve F1, F2 and common port energising (the penstock Unscrew, electrical ball valve cuts off the power supply automatically after 45 seconds, but penstock still is in open mode), the indoor water flowing state that is in.

Need the problem of permanent energising for solving some electrical equipment in the family (as refrigerator, fishing gear electrical appliance), can in panel box 6, draw a live wire L1 in the master switch K1 outer end on the live wire L, this live wire L1 and zero line N constitute a power source special socket, the electrical equipment that inserts this power source special socket is not subjected to the control of the utility model circuit, the work of can always switching on.

If do not want to use the utility model, then press locking press button switch S B, it is opened, again master switch K1 closure is got final product.

Claims

1. a water, electric intelligence controlling device, it is characterized in that: it is made up of the main control box that is installed in cubicle switch one side, the optoelectronic induction control box that is installed in the antitheft door inboard, the hot water or cold water's electrical ball valve that is installed in the microswitch in the anti-theft door frame dead bolt hole and is installed in hot water or cold water's total valve back respectively, wherein:

Described main control box is provided with main control circuit, and the master switch two ends in the power control terminal of this main control circuit and the panel box on the live wire link to each other, and the control signal output ends of this main control circuit links to each other with described hot water or cold water's electrical ball valve;

Described optoelectronic induction control box is provided with the optoelectronic induction control circuit, and the power input of this optoelectronic induction control circuit links to each other with the power output end of described main control circuit;

The two ends of described microswitch link to each other with the signal input part of main control circuit with the optoelectronic induction control circuit respectively.

2. water according to claim 1, electric intelligence controlling device is characterized in that:

3. water according to claim 2, electric intelligence controlling device is characterized in that:

4. according to claim 2 or 3 described water, electric intelligence controlling device, it is characterized in that: