CN105681588A - Telephone remote control device - Google Patents

Abstract

Provided is a telephone remote control device, comprising a casing, a power switch, a voltage stabilizing circuit, a first trigger circuit, a first time circuit, a second trigger circuit, a second time circuit, a time-delay circuit, a control circuit and a power socket. The power switch, the voltage stabilizing circuit, the first trigger circuit, the first time circuit, the second trigger circuit, the second time circuit, the time-delay circuit, the control circuit and the power socket are installed in the casing and are in connection through leads. In use, a user sequentially dials the mobile phone numbers of the first trigger circuit and the second trigger circuit, or sequentially sends short messages to the mobile phones of the first trigger circuit and the second trigger circuit, and then the power socket outputs or stops outputting power to the outside. For a current telephone remote control device, when a user dials the mobile phone number in a receiving terminal or sends a short message to the mobile phone in the receiving terminal, a power socket outputs power to the outside, so that the current telephone remote control device is unreliable to operate, and lacks actual application values; the problems are solved in the invention.

Description

A kind of telephone remote control device

Technical field

The present invention relates to and remotely control facility, especially within a certain period of time, user must be dialed the first triggering circuit and second in shell in order at far-end phone and trigger two cell-phone telephone numbers of circuit, or after sending note to the in shell first two mobile phones triggering circuit and the second triggering circuit in order, under associated mechanisms effect, control circuit just can make supply socket outwards export or stop output 220V alternating current power supply, reach to control in family power input at far-end with this and obtain electric work or dead electricity quits work while purpose through the household electrical appliance that supply socket inputs, decrease electrical equipment in family to delay work a kind of telephone remote control device of probability.

Background technology

At present, known telephone remote equipment, after having people to dial out the telephone number of mobile phone in a receiving terminal or send out a note to mobile phone in receiving terminal, socket in receiving terminal will outwards export 220V alternating current power supply, power supply is made to obtain electric work through the household electrical appliance that socket inputs, in practical application, after others dials the telephone number of mobile phone in (including harassing call) receiving terminal by mistake or sends out a note (including refuse messages) to mobile phone in receiving terminal, socket also can outwards export 220V alternating current power supply, household electrical appliance are made to obtain electric work in the unwanted time period, thereby result in work unreliable, there is no the using value of reality.

Summary of the invention

In order to overcome existing telephone remote equipment, after having people to dial out the telephone number of mobile phone in a receiving terminal or send out a note to mobile phone in receiving terminal, socket in receiving terminal will outwards export 220V alternating current power supply, after others dials the telephone number of mobile phone in (including harassing call) receiving terminal by mistake or sends out a note (including refuse messages) to mobile phone in receiving terminal, socket also can outwards export 220V alternating current power supply, household electrical appliance are made to obtain electric work in the unwanted time period, cause work unreliable, there is no the drawback of actual application value, the invention provides in certain time, user must be dialed the first triggering circuit and second in shell in order at far-end phone and trigger two cell-phone telephone numbers of circuit, or after sending note to the in shell first two mobile phones triggering circuit and the second triggering circuit in order, under associated mechanisms effect, control circuit just can make supply socket outwards export or stop output 220V alternating current power supply, reach to control in family power input at far-end with this and obtain electric work or dead electricity quits work while purpose through the household electrical appliance that supply socket inputs, decrease electrical equipment in family to delay work a kind of telephone remote control device of probability.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of telephone remote control device, it is characterized in that by shell, on and off switch, mu balanced circuit, first triggers circuit, very first time circuit, second triggers circuit, second time circuit, delay circuit, control circuit and supply socket are constituted, on and off switch, mu balanced circuit, first triggers circuit, very first time circuit, second triggers circuit, second time circuit, delay circuit, control circuit and supply socket are installed in the enclosure, left upper end at shell has a perforate, two perforates are had in the middle part of the right-hand end of shell, when on and off switch is installed in the enclosure, the operation handle of on and off switch is positioned at outside the perforate of shell left upper end, it is beneficial to open or close on and off switch from housing exterior, when supply socket is arranged on enclosure, two jacks of supply socket lay respectively at the rear end of two perforates in the middle part of shell right-hand end, on and off switch one end and 220V alternating current power supply one pole are connected by wire, two ac power input end wherein one end of the on and off switch other end and mu balanced circuit, the ac power input end of control circuit is connected by wire, two ac power input end other ends of another pole of 220V alternating current power supply and mu balanced circuit, supply socket one ac power input end is connected by wire, the ac power output of control circuit and another ac power input end of supply socket are connected by wire, the first cathode power supply input of circuit is triggered in first via cathode power supply output wherein one end, two ends of mu balanced circuit and first, second the first cathode power supply input triggering circuit is connected by wire, the first via cathode power supply output two ends other end and the first second cathode power supply input triggering circuit of mu balanced circuit are connected by wire, the cathode power supply input of the first cathode power supply outfan triggering circuit and very first time circuit is connected by wire, the cathode power supply outfan of very first time circuit and second triggers the second cathode power supply input of circuit, the cathode power supply input of delay circuit is connected by wire, the cathode power supply input of the second cathode power supply outfan triggering circuit and the second time circuit is connected by wire, second road cathode power supply outfan of mu balanced circuit and the cathode power supply input of control circuit, the control power input of the second time circuit is connected by wire, the triggering signal input part controlling power output end and control circuit of the second time circuit is connected by wire, delay circuit negative power supply outfan and mu balanced circuit negative pole are controlled power input and are connected by wire, the negative power supply outfan of mu balanced circuit and first triggers circuit, second triggers circuit, very first time circuit, second time circuit, delay circuit, control circuit negative power supply input passes through wired earth.

Described mu balanced circuit is by mains transformer, silicon rectifier diode, electrochemical capacitor, ceramic disc capacitor, relay and the fixing output voltage stabilizer composition of three ends, silicon rectifier diode has six, ceramic disc capacitor has four, the fixing output voltage stabilizer of three ends has two, wherein a fixing output voltage stabilizer model of three ends is 7805, the fixing output voltage stabilizer model of another three end is 7812, mains transformer secondary windings one end and first silicon rectifier diode negative pole, second silicon rectifier diode positive pole is connected by wire, the mains transformer secondary windings other end and the 3rd silicon rectifier diode negative pole, 4th silicon rectifier diode positive pole is connected by wire, second silicon rectifier diode negative pole and the 4th silicon rectifier diode negative pole, electrochemical capacitor positive pole, first ceramic disc capacitor one end, cathode power supply input 1 foot of first fixing output voltage stabilizer of three ends, cathode power supply input 1 foot of second fixing output voltage stabilizer of three ends, 3rd ceramic disc capacitor one end is connected by wire, first silicon rectifier diode positive pole and the 3rd silicon rectifier diode positive pole, electrochemical capacitor negative pole, first ceramic disc capacitor other end, second ceramic disc capacitor one end, 3rd the ceramic disc capacitor other end, 4th ceramic disc capacitor one end, negative power supply input 2 foot of first fixing output voltage stabilizer of three ends, negative power supply input 2 foot of second fixing output voltage stabilizer of three ends is by wired earth, cathode power supply outfan 3 foot of first fixing output voltage stabilizer of three ends and second ceramic disc capacitor other end, relay one normally-closed contact end, 5th silicon rectifier diode positive pole is connected by wire, 5th silicon rectifier diode negative pole and the 6th silicon rectifier diode positive pole are connected by wire, and cathode power supply outfan 3 foot and the 4th the ceramic disc capacitor other end of second fixing output voltage stabilizer of three ends are connected by wire.

Described first triggers circuit by hands machine, optocoupler, one-way SCR, resistance and relay composition, optocoupler model is 4N25, mobile phone is common key-press formula hands machine, a light emitting diode on cell phone keyboard is just, built-in with the optocoupler respectively light emitting diode of negative pole is just, negative power supply input is connected by wire, one-way SCR anode and the built-in phototriode pipe collector of optocoupler, relay one normally opened contact end is connected by wire, phototriode emitter stage that optocoupler is built-in and resistance one end, one-way SCR is controlled pole and is connected by wire, the resistance other end and one-way SCR negative electrode, relay cathode power supply input is connected by wire, mobile phone negative power supply input and relay negative power supply input pass through wired earth.

Described very first time circuit is by time-base integrated circuit, resistance, relay, transwitch diode, electrochemical capacitor and NPN audion composition, resistance has two, time-base integrated circuit model is NE555, first resistance one end and transwitch diode cathode, second resistance one end, relay cathode power supply input, relay one normally opened contact end, reset terminal 4 foot of time-base integrated circuit, cathode power supply input 8 foot of time-base integrated circuit is connected by wire, transwitch diode cathode and second resistance other end, electrochemical capacitor positive pole, triggering end 2 foot of time-base integrated circuit, threshold values end 6 foot of time-base integrated circuit is connected by wire, outfan 3 foot and the NPN transistor base of time-base integrated circuit are connected by wire, NPN transistor collector and relay negative power supply input are connected by wire, first resistance other end and electrochemical capacitor negative pole, NPN transistor emitter, negative power supply input 1 foot of time-base integrated circuit passes through wired earth.

Described second triggers circuit by hands machine, optocoupler, one-way SCR, resistance and relay composition, optocoupler model is 4N25, mobile phone is common key-press formula hands machine, a light emitting diode on cell phone keyboard is just, built-in with the optocoupler respectively light emitting diode of negative pole is just, negative power supply input is connected by wire, one-way SCR anode and the built-in phototriode pipe collector of optocoupler, relay one normally opened contact end is connected by wire, phototriode emitter stage that optocoupler is built-in and resistance one end, one-way SCR is controlled pole and is connected by wire, the resistance other end and one-way SCR negative electrode, relay cathode power supply input is connected by wire, mobile phone negative power supply input and relay negative power supply input pass through wired earth.

The second described time circuit is by time-base integrated circuit, resistance, relay, transwitch diode, electrochemical capacitor and NPN audion composition, resistance has two, time-base integrated circuit model is NE555, first resistance one end and transwitch diode cathode, second resistance one end, relay cathode power supply input, reset terminal 4 foot of time-base integrated circuit, cathode power supply input 8 foot of time-base integrated circuit is connected by wire, transwitch diode cathode and second resistance other end, electrochemical capacitor positive pole, triggering end 2 foot of time-base integrated circuit, threshold values end 6 foot of time-base integrated circuit is connected by wire, outfan 3 foot and the NPN transistor base of time-base integrated circuit are connected by wire, NPN transistor collector and relay negative power supply input are connected by wire, first resistance other end and electrochemical capacitor negative pole, NPN transistor emitter, negative power supply input 1 foot of time-base integrated circuit passes through wired earth.

Described delay circuit is made up of resistance, electrochemical capacitor and NPN audion, resistance and NPN audion are respectively arranged with two, first resistance one end and electrochemical capacitor positive pole, second resistance one end are connected by wire, second resistance other end and first NPN transistor base are connected by wire, first NPN transistor emitter and second NPN transistor base are connected by wire, first NPN transistor collector and second NPN transistor collector are connected by wire, and second NPN transistor emitter and electrochemical capacitor negative pole pass through wired earth.

Described control circuit is by double D trigger, resistance, NPN audion and relay composition, resistance has two, double D trigger model is CD4013, input end of clock 3 foot of first resistance one end and double D trigger is connected by wire, data input pin 5 foot and Inverse code output end 2 foot of double D trigger are connected by wire, true form outfan 1 foot of double D trigger and second resistance one end are connected by wire, second resistance other end and NPN transistor base are connected by wire, NPN transistor collector and relay negative power supply input are connected by wire, directreset terminal 4 foot of NPN transistor emitter and double D trigger, directset terminal 6 foot, negative power supply input 7 foot passes through wired earth.

The medicine have the advantages that in use, when in user certain time, after far-end first triggers the cell-phone telephone number of circuit with telephone call first, or after sending note to the first mobile phone triggering circuit, under very first time circuit function, second triggers circuit just can obtain and electric be in holding state, then, after user telephone call second triggers the cell-phone telephone number of circuit, or after sending note to the second mobile phone triggering circuit, under the second time circuit effect, control circuit just can make the outside out-put supply of supply socket, power input is made in family to obtain electric work or dead electricity quits work through the household electrical appliance that supply socket inputs, after user triggers circuit mobile phone dialing phone to first or sends short messages, more than 50 seconds, even if user is to the second mobile phone dialing phone triggering circuit or sends short messages, second triggers circuit without work, the cell-phone telephone number of circuit is triggered when there being people to dial the first triggering circuit or second by mistake, after sending note to the first mobile phone triggering circuit or the second triggering circuit by mistake, owing to not being in 50 seconds, trigger circuit and second to first in order trigger two mobile phone dialing phones of circuit or send short messages, so, now, supply socket also would not outside output AC power source. instant invention overcomes existing telephone remote equipment, after having people to dial out the telephone number (including harassing call) of mobile phone in a receiving terminal or send out a note (including refuse messages) to mobile phone in receiving terminal, the socket of receiving terminal will outwards export 220V alternating current power supply, household electrical appliance are made to obtain electric work in the unwanted time period, thereby result in work unreliable, it does not have the drawback of actual application value.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention will be further described.

Fig. 1 is present configuration schematic diagram.

Fig. 2 is the circuit diagram of on and off switch of the present invention, mu balanced circuit, the first triggering circuit, very first time circuit, the second triggering circuit, the second time circuit, delay circuit, control circuit and supply socket.

Detailed description of the invention

Shown in Fig. 1, a kind of telephone remote control device, by shell 1, on and off switch 2, mu balanced circuit 3, first triggers circuit 4, very first time circuit 5, second triggers circuit 6, second time circuit 7, delay circuit 8, control circuit 9 and supply socket 10 are constituted, on and off switch 2, mu balanced circuit 3, first triggers circuit 4, very first time circuit 5, second triggers circuit 6, second time circuit 7, delay circuit 8, control circuit 9 and supply socket 10 are arranged in shell 1, left upper end at shell 1 has a perforate, two perforates are had in the middle part of the right-hand end of shell 1, when on and off switch 2 is arranged in shell 1, the operation handle of on and off switch 2 is positioned at outside the perforate of shell 1 left upper end, it is beneficial to from shell 1 external opening or turn off the power switch 2, when supply socket 10 is arranged on shell 1 inside, two jacks of supply socket 10 lay respectively at the rear end of two perforates in the middle part of shell 1 right-hand end, on and off switch 2 one end and 220V alternating current power supply one pole are connected by wire, two ac power input end wherein one end of on and off switch 2 other end and mu balanced circuit 3, the ac power input end of control circuit 9 is connected by wire, two ac power input end other ends of another pole of 220V alternating current power supply and mu balanced circuit 3, supply socket 10 1 ac power input end is connected by wire, ac power output and another ac power input end of supply socket 10 of control circuit 9 are connected by wire, the first cathode power supply input of circuit 4 is triggered in first via cathode power supply output wherein one end, two ends of mu balanced circuit 3 and first, second the first cathode power supply input triggering circuit 6 is connected by wire, the first via cathode power supply output two ends other end and the first second cathode power supply input triggering circuit 4 of mu balanced circuit 4 are connected by wire, the cathode power supply input of the first cathode power supply outfan triggering circuit 4 and very first time circuit 5 is connected by wire, the cathode power supply outfan of very first time circuit 5 and second triggers the second cathode power supply input of circuit 6, the cathode power supply input of delay circuit 8 is connected by wire, the cathode power supply input of the second cathode power supply outfan triggering circuit 6 and the second time circuit 7 is connected by wire, second road cathode power supply outfan of mu balanced circuit 3 and the cathode power supply input of control circuit 9, the control power input of the second time circuit 7 is connected by wire, the triggering signal input part controlling power output end and control circuit 9 of the second time circuit 7 is connected by wire, delay circuit 8 negative power supply outfan and mu balanced circuit 3 negative pole are controlled power input and are connected by wire, the negative power supply outfan of mu balanced circuit 3 and first triggers circuit 4, second triggers circuit 6, very first time circuit 5, second time circuit 7, delay circuit 8, control circuit 9 negative power supply input passes through wired earth.3-1 is the power line of mu balanced circuit 3. in on and off switch 2 and mu balanced circuit 3: after on and off switch 2 is opened, 220V alternating current power supply enters mu balanced circuit 3 power input, mu balanced circuit 3 obtains electric work, mu balanced circuit 3 first via cathode power supply outfan output 5V DC source enters two cathode power supply inputs of the first triggering circuit 4 and first cathode power supply input of the second triggering circuit 6, then, first triggering 4 two cathode power supply inputs of circuit and second triggering 6 first cathode power supply inputs of circuit obtain electric, mu balanced circuit 3 second road cathode power supply outfan output 12V DC source enters the control power input of the cathode power supply input of control circuit 9, the second time circuit 7, then, the control power input of control circuit 9 cathode power supply input and the second time circuit 7 obtains electric. first triggers in circuit 4: when user is triggered the cell-phone telephone number of circuit 4 at far-end by telephone call first or sent short messages to mobile phone, after a lumination of light emitting diode on cell phone keyboard, trigger under the optocoupler of circuit 4, one-way SCR, relay effect first, first triggers circuit 4 can export 5V DC source entrance very first time circuit 5 cathode power supply input, then, very first time circuit 5 cathode power supply input obtains electric. in very first time circuit 5: after very first time circuit 5 obtains electric work, its power output end can export 50 seconds 5V DC sources and enter the cathode power supply input of second triggering second cathode power supply input of circuit 6, delay circuit 8, then, the second cathode power supply input triggering 6 second cathode power supply inputs of circuit and delay circuit 8 obtains electric. second triggers in circuit 6 and delay circuit 8: in 50 seconds, when user is triggered the cell-phone telephone number of circuit 6 at far-end by telephone call second or sent short messages to mobile phone, after a lumination of light emitting diode on cell phone keyboard, at the second optocoupler triggering circuit 6, one-way SCR, under relay effect, second triggering circuit 6 can export 5V DC source and enter the second time circuit 7 cathode power supply input, then, second time circuit 7 cathode power supply input obtains electric, if in 50 seconds, user can not correctly be dialed the cell-phone telephone number of the second triggering circuit 6 or can not correctly send short messages to mobile phone, second time circuit 7 would not obtain electric work, then, under the effect of delay circuit 8, after 50 seconds, 5 seconds, interval, whole first triggering circuit 4 and the second triggering circuit 6 can return to again original state, must in 50 seconds, user dials again the first triggering circuit 4 in order, second phone number triggering circuit 6, or after sending short messages to mobile phone, second time circuit 7 cathode power supply input just can obtain electric. in second time circuit 7 and control circuit 9, supply socket 10: the second time circuit 7 after electric work, it controls the power output end meeting out-put supply triggering signal input part to control circuit 9, then, under control circuit 9 internal circuit effect, control circuit 9 can make supply socket 10 outwards export 220V alternating current power supply, makes the household electrical appliance that in family, power input inputs through supply socket 10 obtain electric work. triggering two mobile phone dialing phones of circuit 6 when user triggers circuit 4 and second to first again in order or send short messages, under interlock circuit effect, control circuit 9 can make supply socket 10 stop outwards output 220V alternating current power supply.More than passing through, when in user certain time, first trigger the cell-phone telephone number of circuit 4 with telephone call first at far-end, or after sending note to the first mobile phone triggering circuit 4, under very first time circuit 5 acts on, second triggers circuit 6 just can obtain and electric be in holding state, then, user telephone call second triggers the cell-phone telephone number of circuit 6, or after sending note to the second mobile phone triggering circuit 6, under the second time circuit 7 effect, control circuit 9 just can make the outside out-put supply of supply socket 10, power input is made in family to obtain electric work or dead electricity quits work through the household electrical appliance that supply socket 10 inputs, after user triggers circuit 4 mobile phone dialing phone to first or sends short messages, more than 50 seconds, even if user is to the second mobile phone dialing phone triggering circuit 6 or sends short messages, second triggers circuit 6 without work, in using, if someone dials the cell-phone telephone number of the first triggering circuit 4 or the second triggering circuit 6 by mistake, after sending note to the first mobile phone triggering circuit 4 or the second triggering circuit 6 by mistake, owing to not being in 50 seconds, trigger circuit 4 and second to first in order trigger two mobile phone dialing phones of circuit 6 or send short messages, so, now, supply socket 10 also would not outside output AC power source, overcome existing telephone remote equipment, after having people to dial out the telephone number (including harassing call) of mobile phone in a receiving terminal or send out a note (including refuse messages) to mobile phone in receiving terminal, the socket of receiving terminal will outwards export 220V alternating current power supply, household electrical appliance are made to obtain electric work in the unwanted time period, thereby result in work unreliable, it does not have the drawback of actual application value.

Shown in Fig. 2, by mains transformer T, silicon rectifier diode VD1, VD2, VD3, VD4, VD5, VD6, electrochemical capacitor C1, ceramic disc capacitor C2, C3, C4, C5, relay K 6 and three ends fix output voltage stabilizer A1, A2 forms mu balanced circuit, silicon rectifier diode has six, ceramic disc capacitor has four, the fixing output voltage stabilizer of three ends has two, wherein a fixing output voltage stabilizer A1 model of three ends is 7805, the fixing output voltage stabilizer A2 model of another three end is 7812, mains transformer T secondary windings one end and first silicon rectifier diode VD1 negative pole, second silicon rectifier diode VD2 positive pole is connected by wire, the mains transformer T secondary windings other end and the 3rd silicon rectifier diode VD3 negative pole, 4th silicon rectifier diode VD4 positive pole is connected by wire, second silicon rectifier diode VD2 negative pole and the 4th silicon rectifier diode VD4 negative pole, electrochemical capacitor C1 positive pole, first ceramic disc capacitor C2 one end, cathode power supply input 1 foot of first fixing output voltage stabilizer A1 of three ends, cathode power supply input 1 foot of second fixing output voltage stabilizer A2 of three ends, 3rd ceramic disc capacitor C4 one end is connected by wire, first silicon rectifier diode VD1 positive pole and the 3rd silicon rectifier diode VD3 positive pole, electrochemical capacitor C1 negative pole, first ceramic disc capacitor C2 other end, second ceramic disc capacitor C3 one end, 3rd the ceramic disc capacitor C4 other end, 4th ceramic disc capacitor C5 one end, negative power supply input 2 foot of first fixing output voltage stabilizer A1 of three ends, negative power supply input 2 foot of second fixing output voltage stabilizer A2 of three ends is by wired earth, cathode power supply outfan 3 foot of first fixing output voltage stabilizer A1 of three ends and second ceramic disc capacitor C3 other end, relay K 6 one normally-closed contact end, 5th silicon rectifier diode VD5 positive pole is connected by wire, 5th silicon rectifier diode VD5 negative pole and the 6th silicon rectifier diode VD6 positive pole are connected by wire, and cathode power supply outfan 3 foot and the 4th the ceramic disc capacitor C5 other end of second fixing output voltage stabilizer A2 of three ends are connected by wire.By mobile phone A 3, optocoupler GO1, one-way SCR VS1, resistance R1, relay K 1 forms the first triggering circuit, optocoupler GO1 model is 4N25, mobile phone A 3 is common key-press formula hands machine, a light emitting diode VL1 on mobile phone A 3 keyboard is just, built-in with the optocoupler GO1 respectively light emitting diode of negative pole is just, negative power supply input is connected by wire, one-way SCR VS1 anode and the built-in phototriode pipe collector of optocoupler GO1, relay K 1 one normally opened contact end is connected by wire, phototriode emitter stage built-in for optocoupler GO1 and resistance R1 one end, one-way SCR VS1 is controlled pole and is connected by wire, the resistance R1 other end and one-way SCR VS1 negative electrode, relay K 1 cathode power supply input is connected by wire, mobile phone A 3 negative power supply input and relay K 1 negative power supply input pass through wired earth. by time-base integrated circuit A5, resistance R2, R3, relay K 2, transwitch diode VD7, electrochemical capacitor C6 and NPN audion VT1 form very first time circuit, and resistance has two, and time-base integrated circuit model is NE555, first resistance R2 one end and transwitch diode VD7 negative pole, second resistance R3 one end, relay K 2 cathode power supply input, relay K 2 one normally opened contact end, reset terminal 4 foot of time-base integrated circuit A5, cathode power supply input 8 foot of time-base integrated circuit A5 is connected by wire, transwitch diode VD7 positive pole and second resistance R3 other end, electrochemical capacitor C6 positive pole, triggering end 2 foot of time-base integrated circuit A5, threshold values end 6 foot of time-base integrated circuit A5 is connected by wire, outfan 3 foot and the NPN audion VT1 base stage of time-base integrated circuit A5 are connected by wire, NPN audion VT1 colelctor electrode and relay K 2 negative power supply input are connected by wire, first resistance R2 other end and electrochemical capacitor C6 negative pole, NPN audion VT1 emitter stage, negative power supply input 1 foot of time-base integrated circuit A5 passes through wired earth. by mobile phone A 4, optocoupler GO2, one-way SCR VS2, resistance R4, relay K 3 forms the second triggering circuit, optocoupler GO2 model is 4N25, mobile phone A 4 is common key-press formula hands machine, a light emitting diode VL2 on mobile phone A 4 keyboard is just, built-in with the optocoupler GO2 respectively light emitting diode of negative pole is just, negative power supply input is connected by wire, one-way SCR VS2 anode and the built-in phototriode pipe collector of optocoupler GO2, relay K 3 one normally opened contact end is connected by wire, phototriode emitter stage built-in for optocoupler GO2 and resistance R4 one end, one-way SCR VS2 is controlled pole and is connected by wire, the resistance R4 other end and one-way SCR VS2 negative electrode, relay K 3 cathode power supply input is connected by wire, mobile phone A 4 negative power supply input and relay K 3 negative power supply input pass through wired earth. by time-base integrated circuit A6, resistance R5, R6, relay K 4, transwitch diode VD8, electrochemical capacitor C7 and NPN audion VT2 forms the second time circuit, resistance has two, time-base integrated circuit A6 model is NE555, first resistance R5 one end and transwitch diode VD8 negative pole, second resistance R6 one end, relay K 4 cathode power supply input, reset terminal 4 foot of time-base integrated circuit A6, cathode power supply input 8 foot of time-base integrated circuit A6 is connected by wire, transwitch diode VD8 positive pole and second resistance R6 other end, electrochemical capacitor C7 positive pole, triggering end 2 foot of time-base integrated circuit A6, threshold values end 6 foot of time-base integrated circuit A6 is connected by wire, outfan 3 foot and the NPN audion VT2 base stage of time-base integrated circuit A6 are connected by wire, NPN audion VT2 colelctor electrode and relay K 4 negative power supply input are connected by wire, first resistance R5 other end and electrochemical capacitor C7 negative pole, NPN audion VT2 emitter stage, negative power supply input 1 foot of time-base integrated circuit A6 passes through wired earth.By resistance R9, R10, electrochemical capacitor C8 and NPN audion VT3, VT4 forms delay circuit, resistance and NPN audion are respectively arranged with two, first resistance R9 one end and electrochemical capacitor C8 positive pole, second resistance R10 one end is connected by wire, second resistance R10 other end and first NPN audion VT3 base stage are connected by wire, first NPN audion VT3 emitter stage and second NPN audion VT4 base stage are connected by wire, first NPN audion VT3 colelctor electrode and second NPN audion VT4 colelctor electrode are connected by wire, second NPN audion VT4 emitter stage and electrochemical capacitor C8 negative pole pass through wired earth. by double D trigger A7, resistance R7, R8, NPN audion VT5 and relay K 5 composition control circuit, resistance has two, double D trigger A7 model is CD4013, input end of clock 3 foot of first resistance R7 one end and double D trigger A7 is connected by wire, data input pin 5 foot and Inverse code output end 2 foot of double D trigger A7 are connected by wire, true form outfan 1 foot of double D trigger A7 and second resistance R8 one end are connected by wire, second resistance R8 other end and NPN audion VT5 base stage are connected by wire, NPN audion VT5 colelctor electrode and relay K 5 negative power supply input are connected by wire, directreset terminal 4 foot of NPN transistor emitter and double D trigger, directset terminal 6 foot, negative power supply input 7 foot passes through wired earth. on and off switch S one end and 220V alternating current power supply one pole are connected by wire, two ac power input ends wherein one end mains transformer T armature winding one end of the on and off switch S other end and mu balanced circuit, the ac power input end relay K 5 one normally opened contact end of control circuit is connected by wire, two ac power input end other end mains transformer T armature winding other ends of another pole of 220V alternating current power supply and mu balanced circuit, supply socket XZ mono-ac power input end is connected by wire, another normally opened contact end of the ac power output relay K 5 of control circuit and another ac power input end of supply socket XZ are connected by wire, first via cathode power supply output two ends wherein one end silicon rectifier diode VD6 negative pole of mu balanced circuit and first triggers the first cathode power supply input mobile phone A 3 cathode power supply input of circuit, second the first cathode power supply input mobile phone A 4 cathode power supply input triggering circuit is connected by wire, first via cathode power supply output two ends another normally-closed contact end of other end relay K 6 and the first second cathode power supply input one-way SCR VS1 anode triggering circuit of mu balanced circuit are connected by wire, 8 feet of the cathode power supply input time-base integrated circuit A5 of first another normally opened contact end of cathode power supply outfan relay K 1 triggering circuit and very first time circuit are connected by wire, another normally opened contact end of the cathode power supply outfan relay K 2 of very first time circuit and second triggers the anode of the second cathode power supply input one-way SCR VS2 of circuit, the cathode power supply input pickup resistance R9 other end of delay circuit is connected by wire, 8 feet of the cathode power supply input time-base integrated circuit A6 of second another normally opened contact end of cathode power supply outfan relay K 3 triggering circuit and the second time circuit are connected by wire, 14 feet of 3 feet of the A2 of the fixing output voltage stabilizer of the second road cathode power supply outfan three end of mu balanced circuit and the cathode power supply input double D trigger A7 of control circuit, the control power input relay K 4 one normally opened contact end of the second time circuit is connected by wire, the triggering signal input part resistance R7 other end controlling another normally opened contact end of power output end relay K 4 and control circuit of the second time circuit is connected by wire, delay circuit negative power supply outfan NPN audion VT3, the colelctor electrode of VT4 and mu balanced circuit negative pole are controlled power input relay K 6 negative power supply input and are connected by wire, the negative power supply outfan electrochemical capacitor C1 negative pole of mu balanced circuit and first triggers the negative power supply input of circuit negative power supply input mobile phone A 3, the second negative power supply input triggering circuit negative power supply input mobile phone A 4,1 foot of very first time circuit negative power supply input time-base integrated circuit A5, during the second time circuit negative power supply input, base becomes 1 foot of circuit A6, delay circuit negative power supply input electrochemical capacitor C8 negative pole, 7 feet of control circuit negative power supply input double D trigger A7 pass through wired earth.

Fig. 2, in on and off switch S and mu balanced circuit: after on and off switch S opens, mains transformer T obtains electric work, the 12V alternating current power supply of its outfan output is through silicon rectifier diode VD1, VD2, VD3, VD4 rectification, electrochemical capacitor C1 filtering is converted to DC source, and DC source enters the fixing output voltage stabilizer A1 of three ends, the fixing output voltage stabilizer A2 power input of three ends, the fixing output voltage stabilizer A1 circuit therein of three ends and peripheral cell ceramic disc capacitor C2, under C3 effect, 3rd foot exports stable 5V DC source through 6 two normally-closed contact ends outputs of relay K to the first second cathode power supply input one-way SCR VS1 anode triggering circuit, 3rd foot exports stable 5V DC source through silicon rectifier diode VD5, (silicon rectifier diode every has the voltage drop of about 0.7V in VD6 voltage drop effect, mobile phone A 3, the running voltage of A4 is 3.7V, through two silicon rectifier diode VD5, VD6 voltage drop effect, just reach mobile phone A 3, the running voltage of A4) enter the cathode power supply input of the first triggering circuit mobile phone A 3, the second cathode power supply input triggering circuit mobile phone A 4, then, first mobile phone triggering circuit and the second triggering circuit is in obtain electricity condition, now, first mobile phone A 3 triggering circuit and second are triggered the starting key of the mobile phone A 4 of circuit and press and just can make two mobile phone power-ons by user, under the fixing output voltage stabilizer A2 circuit therein of three ends and peripheral cell ceramic disc capacitor C4, C5 effect, 3rd foot exports the stable 12V DC source control power input to the cathode power supply input of control circuit, the second time circuit, then, the control power input of control circuit cathode power supply input and the second time circuit obtains electric. first triggers in circuit: when user is at the far-end telephone number by telephone call mobile phone A 3 or after sending short messages to mobile phone A 3, a light emitting diode VL1 on mobile phone A 3 keyboard can be luminous, due to, light emitting diode built-in for optocoupler GO1 is just, light emitting diode VL1 on negative power supply input and mobile phone A 3 keyboard is just, negative pole connects respectively through wire, so, now built-in for optocoupler GO1 light emitting diode can obtain electroluminescence, its effect of light sent is in phototriode sensitive surface built-in for optocoupler GO2, then, phototriode built-in for optocoupler GO2 is transferred to conducting state by cut-off state, then, one-way SCR VS1 obtains trigger current conducting, relay K 1 obtains two normally opened contact end of electric adhesive Guan Bi, due to, very first time circuit anode power input and another normally opened contact end of relay K 1 are connected by wire, so, after relay K 1 obtains electric adhesive, very first time circuit can obtain electric. in very first time circuit: after very first time circuit obtains electric work, 5V DC source charges to electrochemical capacitor C6 through resistance R3, when just starting, 2nd foot of time-base integrated circuit A5 is electronegative potential, time-base integrated circuit A5 set makes its 3rd foot output high potential, the high potential of output enters relay K 2 negative power supply input through NPN audion VT1 power amplification, paraphase, and then, relay K 2 obtains two normally opened contact end of electric adhesive Guan Bi, after spending about 50 seconds, when on electrochemical capacitor C6, terminal potential (i.e. time-base integrated circuit A5 the 6th foot current potential) rises to 2/3rds of supply voltage, time-base integrated circuit A5 is reset, its 3rd foot output electronegative potential, and then, relay K 2 dead electricity disconnects, due to, second triggers the second cathode power supply input of circuit, the cathode power supply input of delay circuit and another normally opened contact end of relay K 2 is connected by wire, so, obtaining in 50 seconds of electric adhesive in relay K 2, second triggers the input of circuit the second cathode power supply can obtain electric with delay circuit cathode power supply input.Second triggers in circuit: in 50 seconds, when user at far-end by the telephone number of telephone call mobile phone A 4 or after sending short messages to mobile phone A 4, a light emitting diode VL2 on mobile phone A 4 keyboard can be luminous, due to, light emitting diode built-in for optocoupler GO2 is just, light emitting diode VL2 on negative power supply input and mobile phone A 4 keyboard is just, negative pole connects respectively through wire, so, now built-in for optocoupler GO2 light emitting diode can obtain electroluminescence, its effect of light sent is in phototriode sensitive surface built-in for optocoupler GO2, then, phototriode built-in for optocoupler GO2 is transferred to conducting state by cut-off state, then, one-way SCR VS2 obtains trigger current conducting, relay K 3 obtains two normally opened contact end of electric adhesive Guan Bi, due to, the second time circuit cathode power supply input and another normally opened contact end of relay K 3 are connected by wire, so, after relay K 3 obtains electric adhesive, the second time circuit can obtain electric. in second time circuit, control circuit and supply socket: after the second time circuit obtains electric work, 5V DC source charges to electrochemical capacitor C7 through resistance R6, when just starting, 2nd foot of time-base integrated circuit A6 is electronegative potential, time-base integrated circuit A6 set makes its 3rd foot output high potential, the high potential of output enters relay K 4 negative power supply input through NPN audion VT2 power amplification, paraphase, and then, relay K 4 obtains two normally opened contact end of electric adhesive Guan Bi, after spending about 3 seconds, when on electrochemical capacitor C7, terminal potential (i.e. time-base integrated circuit A6 the 6th foot current potential) rises to 2/3rds of supply voltage, time-base integrated circuit A6 is reset, its 3rd foot output electronegative potential, and then, relay K 4 dead electricity disconnects, due to, another normally opened contact end of relay K 4 and the resistance R7 other end are connected by wire, so, after relay K 4 obtains electric adhesive, the high level of another normally opened contact end of relay K 4 output can trigger, through resistance R7, the bistable circuit being made up of double D trigger A7 and peripheral cell resistance R8, then, the 1 foot output high level of double D trigger A7, the high level of output enters NPN audion VT5 base stage through resistance R8 current limliting, through NPN audion VT5 power amplification, paraphase enters relay K 5 negative power supply input, then, relay K 5 obtains two normally opened contact end of electric adhesive Guan Bi, due to, another normally opened contact end of relay K 5 and another ac power input end of supply socket XZ are connected by wire, so, after relay K 5 obtains electric adhesive, supply socket XZ can outwards export 220V alternating current power supply, power input in family is made to obtain electric work through the supply socket XZ household electrical appliance inputted, when user needs that in family, power input quits work through the supply socket XZ household electrical appliance dead electricity inputted, dial the mobile phone A 3 of the first triggering circuit in order, the telephone number of the second mobile phone A 4 triggering circuit, or to the mobile phone A 3 that first triggers circuit, after second mobile phone A 4 triggering circuit is sent short messages, at very first time circuit, under second time circuit effect, the high level of another normally opened contact end of relay K 4 output triggers the bistable circuit being made up of double D trigger A7 and peripheral cell resistance R8 again through resistance R7, then, double D trigger A7 upset once stops output high level, relay K 5 dead electricity stops adhesive, so, supply socket XZ also no longer outwards exports 220V alternating current power supply, in family, power input will dead electricity quit work through the supply socket XZ household electrical appliance inputted.In delay circuit: the relay K 2 at very first time circuit obtains electric adhesive, after delay circuit work, 5V DC source can charge to electrochemical capacitor C8 through resistance R9, after spending 50 seconds, when electrochemical capacitor C8 both end voltage arrives magnitude of voltage, NPN audion VT3, VT4 successive conductive, NPN audion VT3, VT4 colelctor electrode output negative pole power supply is to the relay K 6 negative power supply input of mu balanced circuit, then, relay K 6 obtains two normally-closed contact end of electric adhesive and disconnects, due to, cathode power supply input is through the subsequent conditioning circuit of 6 two normally-closed contact end inputs of relay K, cathode power supply input is two normally-closed contact end inputs through relay K 6, so, after relay K 6 obtains the disconnection of two normally-closed contact end of electric adhesive, cathode power supply input will dead electricity quit work through the subsequent conditioning circuit of 6 two normally-closed contact end inputs of relay K, and relay K 6 may proceed to maintain NPN audion VT3 due to the voltage filled on electrochemical capacitor C8, VT4 continues conducting, relay K 6 continues to obtain electric adhesive, after time delay a period of time, when the voltage filled on electrochemical capacitor C8 can not continue to NPN audion VT3, when VT4 continues conducting, relay K 6 dead electricity can stop two normally-closed contact end of adhesive but also can close not only, cathode power supply input can obtain again through the subsequent conditioning circuit of 6 two normally-closed contact ends of relay K input and electric be in holding state. in actually used, when user is after far-end first triggers mobile phone A 3 telephone number of circuit with telephone call first, or after sending note to the first mobile phone A 3 triggering circuit, under very first time circuit function, second triggers circuit just can obtain and electric be in holding state, then, after user telephone call second triggers mobile phone A 4 telephone number of circuit, or after sending note to the second mobile phone A 4 triggering circuit, under the second time circuit effect, control circuit just can make the outside out-put supply of supply socket XZ, power input is made in family to obtain electric work or dead electricity quits work through the supply socket XZ household electrical appliance inputted, in using, if someone dials the first triggering circuit or second and triggers the cell-phone telephone number of circuit by mistake, after sending note to the first mobile phone triggering circuit or the second triggering circuit by mistake, people owing to making a phone call or sending short messages does not know the phone order of two telephone numbers, in 50 seconds, circuit can not be triggered to first in order or the second mobile phone triggering circuit is made a phone call or sends note, so existing telephone remote equipment can effectively be prevented, after having people to dial out the telephone number (including harassing call) of mobile phone in a receiving terminal or send out a note (including refuse messages) to mobile phone in receiving terminal, socket in receiving terminal will outwards export 220V alternating current power supply, household electrical appliance are made to obtain electric work in the unwanted time period, thereby result in work unreliable, there is no the drawback of actual application value.

At Fig. 2, in mu balanced circuit: T-shaped number of mains transformer is 220V/12V/3W, silicon rectifier diode VD1, VD2, VD3, VD4, VD5, VD6 model is 1N4001, electrochemical capacitor C1 model is 470UF/25V, ceramic disc capacitor C2, C4 specification is 0.33UF, ceramic disc capacitor C3, C5 specification is 0.1UF, and relay K 6 model is JRC/21F/YG4100/DC5V. First triggers in circuit: one-way SCR VS1 model is MCR100/1, and resistance R1 resistance is 1K, and relay K 1 model is JRC/21F/YG4100/DC5V. In very first time circuit: resistance R2 resistance is 2K, resistance R3 resistance is 1M, and relay K 2 model is JRC/21F/YG4100/DC5V, and transwitch diode VD7 model is 1N4148, and electrochemical capacitor C6 specification is 47UF/25V, NPN audion VT1 model is 9013.Second triggers in circuit: one-way SCR VS2 model is MCR100/1, and resistance R4 resistance is 1K, and relay K 3 model is JRC/21F/YG4100/DC5V. In delay circuit: resistance R9 resistance is 1K, resistance R10 resistance is 470K, and electrochemical capacitor C8 model is 470UF/25V, NPN audion VT3, VT4 model is 9013. In second time circuit: resistance R5 resistance is 2K, resistance R6 resistance is 1M, and relay K 4 model is JRC/21F/YG4100/DC5V, and transwitch diode VD8 model is 1N4148, and electrochemical capacitor C7 specification is 47UF/25V, NPN audion VT2 model is 9013. In control circuit: resistance R7 resistance is 4.7K, resistance R8 resistance is 2.2K, NPN audion VT5 model is 9013, and relay K 5 model is JRC/21F/YG4100/DC12V.

Claims (6)

1. a telephone remote control device, it is characterized in that by shell, on and off switch, mu balanced circuit, first triggers circuit, very first time circuit, second triggers circuit, second time circuit, delay circuit, control circuit and supply socket are constituted, on and off switch, mu balanced circuit, first triggers circuit, very first time circuit, second triggers circuit, second time circuit, delay circuit, control circuit and supply socket are installed in the enclosure, left upper end at shell has a perforate, two perforates are had in the middle part of the right-hand end of shell, when on and off switch is installed in the enclosure, the operation handle of on and off switch is positioned at outside the perforate of shell left upper end, it is beneficial to open or close on and off switch from housing exterior, when supply socket is arranged on enclosure, two jacks of supply socket lay respectively at the rear end of two perforates in the middle part of shell right-hand end, on and off switch one end and 220V alternating current power supply one pole are connected by wire, two ac power input end wherein one end of the on and off switch other end and mu balanced circuit, the ac power input end of control circuit is connected by wire, two ac power input end other ends of another pole of 220V alternating current power supply and mu balanced circuit, supply socket one ac power input end is connected by wire, the ac power output of control circuit and another ac power input end of supply socket are connected by wire, the first cathode power supply input of circuit is triggered in first via cathode power supply output wherein one end, two ends of mu balanced circuit and first, second the first cathode power supply input triggering circuit is connected by wire, the first via cathode power supply output two ends other end and the first second cathode power supply input triggering circuit of mu balanced circuit are connected by wire, the cathode power supply input of the first cathode power supply outfan triggering circuit and very first time circuit is connected by wire, the cathode power supply outfan of very first time circuit and second triggers the second cathode power supply input of circuit, the cathode power supply input of delay circuit is connected by wire, the cathode power supply input of the second cathode power supply outfan triggering circuit and the second time circuit is connected by wire, second road cathode power supply outfan of mu balanced circuit and the cathode power supply input of control circuit, the control power input of the second time circuit is connected by wire, the triggering signal input part controlling power output end and control circuit of the second time circuit is connected by wire, delay circuit negative power supply outfan and mu balanced circuit negative pole are controlled power input and are connected by wire, the negative power supply outfan of mu balanced circuit and first triggers circuit, second triggers circuit, very first time circuit, second time circuit, delay circuit, control circuit negative power supply input passes through wired earth.

2. a kind of telephone remote control device according to claim 1, it is characterised in that mu balanced circuit is by mains transformer, silicon rectifier diode, electrochemical capacitor, ceramic disc capacitor, relay and the fixing output voltage stabilizer composition of three ends, silicon rectifier diode has six, ceramic disc capacitor has four, the fixing output voltage stabilizer of three ends has two, wherein a fixing output voltage stabilizer model of three ends is 7805, the fixing output voltage stabilizer model of another three end is 7812, mains transformer secondary windings one end and first silicon rectifier diode negative pole, second silicon rectifier diode positive pole is connected by wire, the mains transformer secondary windings other end and the 3rd silicon rectifier diode negative pole, 4th silicon rectifier diode positive pole is connected by wire, second silicon rectifier diode negative pole and the 4th silicon rectifier diode negative pole, electrochemical capacitor positive pole, first ceramic disc capacitor one end, cathode power supply input 1 foot of first fixing output voltage stabilizer of three ends, cathode power supply input 1 foot of second fixing output voltage stabilizer of three ends, 3rd ceramic disc capacitor one end is connected by wire, first silicon rectifier diode positive pole and the 3rd silicon rectifier diode positive pole, electrochemical capacitor negative pole, first ceramic disc capacitor other end, second ceramic disc capacitor one end, 3rd the ceramic disc capacitor other end, 4th ceramic disc capacitor one end, negative power supply input 2 foot of first fixing output voltage stabilizer of three ends, negative power supply input 2 foot of second fixing output voltage stabilizer of three ends is by wired earth, cathode power supply outfan 3 foot of first fixing output voltage stabilizer of three ends and second ceramic disc capacitor other end, relay one normally-closed contact end, 5th silicon rectifier diode positive pole is connected by wire, 5th silicon rectifier diode negative pole and the 6th silicon rectifier diode positive pole are connected by wire, and cathode power supply outfan 3 foot and the 4th the ceramic disc capacitor other end of second fixing output voltage stabilizer of three ends are connected by wire.

3. a kind of telephone remote control device according to claim 1, it is characterized in that the first triggering circuit is by hands machine, optocoupler, one-way SCR, resistance and relay composition, optocoupler model is 4N25, mobile phone is common key-press formula hands machine, a light emitting diode on cell phone keyboard is just, built-in with the optocoupler respectively light emitting diode of negative pole is just, negative power supply input is connected by wire, one-way SCR anode and the built-in phototriode pipe collector of optocoupler, relay one normally opened contact end is connected by wire, phototriode emitter stage that optocoupler is built-in and resistance one end, one-way SCR is controlled pole and is connected by wire, the resistance other end and one-way SCR negative electrode, relay cathode power supply input is connected by wire, mobile phone negative power supply input and relay negative power supply input pass through wired earth.

4. a kind of telephone remote control device according to claim 1, it is characterised in that the very first time, circuit was by time-base integrated circuit, resistance, relay, transwitch diode, electrochemical capacitor and NPN audion composition, resistance has two, and time-base integrated circuit model is NE555, first resistance one end and transwitch diode cathode, second resistance one end, relay cathode power supply input, relay one normally opened contact end, reset terminal 4 foot of time-base integrated circuit, cathode power supply input 8 foot of time-base integrated circuit is connected by wire, transwitch diode cathode and second resistance other end, electrochemical capacitor positive pole, triggering end 2 foot of time-base integrated circuit, threshold values end 6 foot of time-base integrated circuit is connected by wire, outfan 3 foot and the NPN transistor base of time-base integrated circuit are connected by wire, NPN transistor collector and relay negative power supply input are connected by wire, first resistance other end and electrochemical capacitor negative pole, NPN transistor emitter, negative power supply input 1 foot of time-base integrated circuit passes through wired earth.

5. a kind of telephone remote control device according to claim 1, it is characterized in that delay circuit is by resistance, electrochemical capacitor and NPN audion composition, resistance and NPN audion are respectively arranged with two, first resistance one end and electrochemical capacitor positive pole, second resistance one end is connected by wire, second resistance other end and first NPN transistor base are connected by wire, first NPN transistor emitter and second NPN transistor base are connected by wire, first NPN transistor collector and second NPN transistor collector are connected by wire, second NPN transistor emitter and electrochemical capacitor negative pole pass through wired earth.

6. a kind of telephone remote control device according to claim 1, it is characterized in that control circuit is by double D trigger, resistance, NPN audion and relay composition, resistance has two, double D trigger model is CD4013, input end of clock 3 foot of first resistance one end and double D trigger is connected by wire, data input pin 5 foot and Inverse code output end 2 foot of double D trigger are connected by wire, true form outfan 1 foot of double D trigger and second resistance one end are connected by wire, second resistance other end and NPN transistor base are connected by wire, NPN transistor collector and relay negative power supply input are connected by wire, directreset terminal 4 foot of NPN transistor emitter and double D trigger, directset terminal 6 foot, negative power supply input 7 foot passes through wired earth.