CN202421786U - Device achieving one-key type starting and shutdown function of portable instrument - Google Patents

Abstract

The utility model relates to a device achieving a one-key type starting and shutdown function of a portable instrument, which comprises a magnetic latching relay, a magnetic latching relay switch setting circuit and a magnetic latching relay switch reset circuit, wherein the magnetic latching relay switch setting circuit and the magnetic latching relay switch reset circuit are respectively connected with the magnetic latching relay. The magnetic latching relay switch setting circuit is used for picking up key switch state signals and triggering movement of the magnetic latching relay to enable a movable contact of the magnetic latching relay to be in a setting state so as to achieve starting, and is further used for supplying electricity to the magnetic latching relay switch reset circuit. A counter is arranged in the magnetic latching relay switch reset circuit and calculates the odd and even key switch state signals which are picked up, and movement of the magnetic latching relay is triggered through changes in counter value of the counter so that the movable contact of the magnetic latching relay is in a reset state to achieve shutdown. The device can actually meet the technical requirements of zero power consumption in a shutdown state and has the advantages of being simple in structure, reliable in performance and low in cost.

Description

A kind of device of realizing the one-touch power on/off function of portable apparatus

Technical field

The utility model relates to electronic technology field, particularly a kind of device of realizing the one-touch power on/off function of portable apparatus.

Background technology

At electronic technology field, portable instrument and equipment are widely used, and portable apparatus or equipment generally need be considered economize on electricity, therefore power on/off function can be set inevitably.Power on/off function can be realized through several different methods and means.The simplest method adopts mechanical switch exactly; Directly switch on or off power supply; In this method equipment in early days more application is arranged, multiple reason is replaced by other on/off circuit implementation method gradually but the peak point current that mechanical switch flows through owing to outward appearance, volume, assembly technology, switch is excessive etc.Present electronic product generally adopts film key to become an integral body with the panel designs of product, considers all very meaningful from processing, assembling and angle attractive in appearance like this.Adopt the mode ratio of the two keys of open and close to be easier to realize power on/off function; Such design is also comparatively commonly used; And use singly-bound to realize relatively difficulty of power on/off function, but be the developing direction of pursuing technical progress, but existing one-touch method for start-up and shutdown when off-mode instrument or device interior partial circuit still in work and there is electric energy loss; Can't really reach the technical requirement of off-mode zero-power; And special-purpose electric power management circuit need be set usually, and generally need single-chip microcomputer to realize power on/off function through programming as programming device and needs, there is the big problem of cost height and technical difficulty.

The utility model content

The utility model still has electric energy loss to existing one-touch method for start-up and shutdown and has the problem that cost is high, technical difficulty is big under off-mode; A kind of device of the novel one-touch power on/off function of realization portable apparatus is provided; Can really reach the technical requirement of off-mode zero-power, also have simple in structure, dependable performance, advantage with low cost.

The technical scheme of the utility model is following:

A kind of device of realizing the one-touch power on/off function of portable apparatus; It is characterized in that; Magnetic latching relay switch setting circuit that comprises magnetic latching relay and link to each other with magnetic latching relay respectively and magnetic latching relay switch reset circuit; Magnetic latching relay switch setting circuit is used to pick up the keyswitch status signal and triggers the magnetic latching relay action makes its moving contact to SM set mode realize start, and magnetic latching relay switch setting circuit also is used for the power supply to magnetic latching relay switch reset circuit; In the magnetic latching relay switch reset circuit counter is set; Said counter is counted the inferior keyswitch status signal of odd even that picks up, and makes its moving contact to reset mode realize shutdown with the count value change triggers magnetic latching relay action of counter.

Said counter is a binary counter, and binary counter is counted the keyswitch status signal of the odd even of picking up time, and moves to reset mode with the contact of the odd even change triggers magnetic latching relay of the count value of binary counter and to realize shutdown.

Said magnetic latching relay switch setting circuit includes button and the photoelectrical coupler that is connected successively with power supply with magnetic latching relay switch reset circuit; Said magnetic latching relay switch setting circuit also comprises first relay drive circuit; The input end of said photoelectrical coupler links to each other with the terminals of button; Another terminals of button link to each other with power supply; The output terminal of photoelectrical coupler links to each other with terminals of first relay drive circuit, and another terminals of first relay drive circuit link to each other with terminals of first control coil of magnetic latching relay; Said magnetic latching relay switch reset circuit also comprises the binary counter and second relay drive circuit; The output terminal of said photoelectrical coupler also connects an input end of binary counter; The output terminal of binary counter connects terminals of second relay drive circuit; Another terminals of second relay drive circuit link to each other with terminals of second control coil of magnetic latching relay; Another terminals of second control coil link to each other with the stationary contact of first control coil, and the stationary contact of said first control coil connects the output terminal of switching on and shutting down working power.

The output terminal of said photoelectrical coupler connects an input end of binary counter through schmidt shaping circuit; The output terminal of photoelectrical coupler links to each other with the input end of schmidt shaping circuit, and the output terminal of schmidt shaping circuit links to each other with an input end of binary counter.

Said first relay drive circuit comprises first resistance and a triode; First resistance connects the base stage of the output terminal and a triode of photoelectrical coupler respectively; The grounded emitter of a triode, collector connects terminals of first control coil of magnetic latching relay.

Said second relay drive circuit comprises second resistance and No. two triodes; Second resistance connects the base stage of the output terminal and No. two triodes of binary counter respectively; The grounded emitter of No. two triodes, collector connects terminals of second control coil of magnetic latching relay.

The stationary contact of said first control coil also connects the terminals of second control coil and is the input of a linear power supply, and the output of said linear power supply connects another input end of binary counter.

The technique effect of the utility model is following:

The device of the one-touch power on/off function of realization portable apparatus that the utility model relates to; Through magnetic latching relay switch setting circuit and the magnetic latching relay switch reset circuit that magnetic latching relay is set and links to each other with magnetic latching relay respectively; Pick up the keyswitch status signal and trigger magnetic latching relay action through magnetic latching relay switch setting circuit and make its moving contact to SM set mode realize start; Counter through being provided with in the magnetic latching relay switch reset circuit is counted the inferior keyswitch status signal of odd even that picks up, and the action of triggering magnetic latching relay makes its moving contact to reset mode realize shutdown.Because magnetic latching relay switch setting circuit also is used for the power supply to magnetic latching relay switch reset circuit; So after contact to the reset mode in magnetic latching relay switch reset circuit driven magnetic guard relay is realized shutdown; Thoroughly cut off power supply to portable apparatus; Simultaneously also cut off power supply, realized thorough power down function the components and parts such as counter that are provided with in the magnetic latching relay switch reset circuit.This device can really reach the technical requirement of off-mode zero-power; And utilize the characteristic of the counter that is provided with in the magnetic latching relay switch reset circuit and cooperate the magnetic latching relay self-characteristic to realize one-touch switching on and shutting down; Simple in structure, dependable performance need not special-purpose electric power management circuit, save programming devices such as single-chip microcomputer simultaneously; With low cost, have use value widely.

Magnetic latching relay switch setting circuit in the related device of the utility model includes button and the photoelectrical coupler that is connected successively with power supply with magnetic latching relay switch reset circuit; Magnetic latching relay switch setting circuit also comprises first relay drive circuit, and magnetic latching relay switch reset circuit also comprises the binary counter and second relay drive circuit.The utility model triggers the variation of state with button; Photoelectrical coupler through series connection is with it accomplished picking up of key-press status, and the key-press status signal that picks up is as the pulse input signal of binary counter, and key-press status signal change once can causing binary counter adds 1 counting; Button is after first relay drive circuit produces electric current in first control coil of magnetic latching relay first; This electric current produces magnetic field in first control coil, the action of driven magnetic guard relay is after button is cancelled; Because the effect of the permanent magnet in the magnetic latching relay; Magnetic latching relay will continue to keep a kind of on off state because the stationary contact of first control coil is the output terminal of switching on and shutting down working power, so the time on off state be switch SM set mode; Behind the button, alternately change takes place in the count value of binary counter between odevity, in second control coil of magnetic latching relay, produce electric current through second relay drive circuit once more; This electric current produces magnetic field in second control coil; The action of driven magnetic guard relay is after button is cancelled, because the effect of the permanent magnet in the magnetic latching relay; Magnetic latching relay remains another kind of on off state; Be the switch reset mode, this moment, the terminals physics of switching on and shutting down working power and power supply broke off, and thoroughly cut off the power supply of meeting portable apparatus; Simultaneously also cut off power supply, realized thorough power down function components and parts such as binary counter and two relay drive circuits.

An input end that connects binary counter at the output terminal of photoelectrical coupler through schmidt shaping circuit; Keyswitch status signal that schmidt shaping circuit picks up photoelectrical coupler is set carries out after the shaping input pulse signal as binary counter; Schmidt shaping circuit can be eliminated undesired signal waveforms such as sawtooth; Can eliminate the signal quality problem that factor such as key jitter causes, the magnetic latching relay work of avoiding the binary counter error count to cause is chaotic.

Description of drawings

Fig. 1 realizes the preferred structure block diagram of the device of the one-touch power on/off function of portable apparatus for the utility model.

Fig. 2 realizes the preferred electrical architecture for synoptic diagram of the device of the one-touch power on/off function of portable apparatus for the utility model.

Fig. 3 is the utility model magnetic latching relay equivalent structure synoptic diagram.

Fig. 4 is the utility model magnetic latching relay switch setting circuit fundamental diagram.

Fig. 5 is the utility model magnetic latching relay switch reset circuit fundamental diagram.

Fig. 6 is that the power up function of the utility model device is realized schematic block circuit diagram.

Fig. 7 is that the shutdown function of the utility model device realizes schematic block circuit diagram.

Each label is listed as follows among the figure:

The 1-photoelectrical coupler; The 2-schmidt shaping circuit; The 3-binary counter; 4-first relay drive circuit; 5-second relay drive circuit; The 6-magnetic latching relay; The 7-linear power supply; The 8-button; 9-magnetic latching relay switch setting circuit; 10-magnetic latching relay switch reset circuit.

Embodiment

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

The utility model discloses a kind of device of realizing the one-touch power on/off function of portable apparatus; The preferred structure block diagram of this device is as shown in Figure 1, the magnetic latching relay switch setting circuit 9 and magnetic latching relay switch reset circuit 10 that comprise magnetic latching relay and link to each other with magnetic latching relay respectively.Magnetic latching relay switch setting circuit 9 comprises button, photoelectrical coupler and first relay drive circuit that power supply connects successively; The input end of photoelectrical coupler links to each other with the terminals of button; Another terminals of button link to each other with power supply; The output terminal of photoelectrical coupler links to each other with terminals of first relay drive circuit, and another terminals of first relay drive circuit link to each other with magnetic latching relay; Magnetic latching relay switch reset circuit 10 also comprises button and the photoelectrical coupler that the power supply that comprises in the magnetic latching relay switch setting circuit connects successively; Also comprise the binary counter and second relay drive circuit; The output terminal of photoelectrical coupler connects an input end of binary counter; The output terminal of binary counter connects terminals of second relay drive circuit; Another terminals of second relay drive circuit link to each other with magnetic latching relay, and magnetic latching relay has the output terminal of switching on and shutting down working power.

The utility model realizes that the core devices of the device of the one-touch power on/off function of portable apparatus is a magnetic latching relay; Magnetic latching relay equivalent structure synoptic diagram is as shown in Figure 3; Magnetic latching relay can be equivalent for having two control coil C1 and C2, two permanent magnets and a single-pole double-throw switch (SPDT), and single-pole double-throw switch (SPDT) has moving contact 1, stationary contact 2 and stationary contact 3.Apply a suitable DC voltage when giving between terminals 1-1 and the terminals 1-2; Terminals 1-1 is anodal, and terminals 1-2 is a negative pole, will in control coil C1, produce an electric current; This electric current produces a magnetic field in control coil C1; The action of driven magnetic guard relay makes terminals 1 (or being called moving contact 1) and terminals 2 (or being called stationary contact 2) UNICOM, removes the power supply to control coil C1 this moment; Because magnetic latching relay inside has permanent magnet, terminals 1 will continue to keep UNICOM's state with terminals 2.The utility model definable terminals 1 (or being called moving contact 1) are the switch reset mode with the state that terminals 2 (or being called stationary contact 2) connect; Defining terminals 1 (or being called moving contact 1) simultaneously is switch SM set mode with the state that terminals 3 (or being called stationary contact 3) connect; Be that control coil C2 is first control coil, control coil C1 is second control coil.Apply a suitable DC voltage when giving between terminals 2-1 and the terminals 2-2, terminals 2-1 is anodal, and terminals 2-2 is a negative pole; To in control coil C2, produce an electric current, this electric current produces 1 magnetic field in control coil C2, the action of driven magnetic guard relay; Make terminals 1 and terminals 3 UNICOMs; Remove the power supply to control coil C2 this moment, because magnetic latching relay inside has permanent magnet, terminals 1 will continue to keep UNICOM's state with terminals 3.This operating characteristic of magnetic latching relay can be used to realize one-touch power on/off function.

In conjunction with Fig. 1 and Fig. 3; The terminals of first relay drive circuit link to each other with terminals of first control coil of magnetic latching relay, and magnetic latching relay switch setting circuit is used to pick up the keyswitch status signal and triggers the magnetic latching relay action makes its moving contact to SM set mode realize start; Another terminals of second relay drive circuit link to each other with terminals of second control coil of magnetic latching relay; The stationary contact of said first control coil connects the output terminal of switching on and shutting down working power; Binary counter is counted the inferior keyswitch status signal of odd even that picks up, and the action of triggering magnetic latching relay makes its moving contact to reset mode realize shutdown.Another terminals of second control coil link to each other with the stationary contact of first control coil, so that magnetic latching relay switch setting circuit is to the power supply of magnetic latching relay switch reset circuit.

Fig. 2 realizes the preferred electrical architecture for synoptic diagram of the device of the one-touch power on/off function of portable apparatus for the utility model; Wherein, Photoelectrical coupler 1 comprises illuminator and light-receiving device; Illuminator among this embodiment is a light emitting diode, and light-receiving device is a phototriode, and the output of light emitting diode links to each other with terminals of first relay drive circuit 4.This device has preferably increased schmidt shaping circuit 2; Be the input end of the output terminal of photoelectrical coupler 1 through schmidt shaping circuit 2 connection binary counters 3; The output terminal of phototriode links to each other with the input end of schmidt shaping circuit 2 in the photoelectrical coupler 1, and the output terminal of schmidt shaping circuit 2 links to each other with an input end of binary counter 3.When not having schmidt shaping circuit 2, the output terminal of the phototriode in the photoelectrical coupler 1 directly connects an input end of binary counter 3.Magnetic latching relay switch setting circuit and magnetic latching relay switch reset circuit can be realized switch set, switch reset function respectively as the peripheral circuit of magnetic latching relay.Fig. 4 is a magnetic latching relay switch setting circuit fundamental diagram; In conjunction with Fig. 2-4, concrete principle of work is explained as follows: power supply has two terminals, is respectively P+ and P-; Have voltage between terminals P+ and the P-, this voltage is the supply voltage of keeping portable apparatus work.For realizing the switch set function of magnetic latching relay; Should set up and be electrically connected as follows: supply terminals P+ is connected with the terminals S1 of button; The terminals S2 of button 8 is connected with the terminals O1 of photoelectrical coupler; The terminals O2 of photoelectrical coupler 1 is connected with the terminals D1I of first relay drive circuit 4, and the terminals D1O of first relay drive circuit 4 is connected with the terminals 2-2 of magnetic latching relay 6.The terminals 2-1 of magnetic latching relay 6 is connected with the terminals P+ of power supply.When button 8 actions first; Foregoing circuit is set up current return, and electric current is flowed out by supply terminals P+, and button terminals S1, terminals S2 flow through; Photoelectrical coupler 1 terminals O1, terminals O2 again flow through; Get into first relay drive circuit 4 by the D1I terminals again and carry out the electric current amplification, terminals D1O is connected with the terminals 2-2 of magnetic latching relay 6, and the terminals P+ of power supply is connected with the terminals 2-1 of magnetic latching relay; Under the effect of first relay drive circuit 4, enough driven magnetic guard relay 6 actions of the electric current of the control coil C2 that flows through.Electric current among the control coil C2 produces 1 magnetic field; 6 actions of driven magnetic guard relay make terminals 1 (moving contact 1) and terminals 3 (stationary contact 3) UNICOM, and this moment, button discharged; Promptly remove power supply to control coil C2; Because magnetic latching relay 6 inside have permanent magnet, terminals 1 will continue to keep UNICOM's state with terminals 3, also just accomplish magnetic latching relay 6 switch set action.The effect of photoelectrical coupler 1 is, can reflect that on the terminals O3 of photoelectrical coupler 1 level state changes according to actuation of keys and release conditions, and when actuation of keys, terminals O3 is a low level, and terminals O3 was a high level when button discharged.Simultaneously terminals O3 can become the level skip signal to the key-press status change transitions of overturning, and this level skip signal can be used as the counting pulse signal of key-press status upset.The action of button and release conditions change, and through the photoelectrical coupler transmission, cause the variation of the count value of binary counter.Fig. 5 is the utility model magnetic latching relay switch reset circuit fundamental diagram; In conjunction with Fig. 2,3,5; Concrete principle of work is explained as follows: reflect on the terminals O3 of photoelectrical coupler 1 that level state changes, when button 8 actions, terminals O3 is a low level; Terminals O3 was a high level when button discharged, and terminals O3 can become the level skip signal to the key-press status change transitions of overturning simultaneously.The signal of terminals O3 output; Through schmidt shaping circuit 2, terminals O3 is connected with the terminals SI of schmidt shaping circuit 2, behind schmidt shaping circuit 2, is exported by terminals SO earlier; After Schmidt's shaping, will eliminate factors such as key jitter and cause the signal quality problem.The signal of terminals SO output is connected with binary counter 3 through terminals CLK, and when button produces once new action, binary counter 3 will once add 1 counting.Make the output of binary counter 3 become even number by original odd number.The even number outlet terminal QE of binary counter 3 will export a trigger pip; This trigger pip passes to the terminals D2I of second relay drive circuit 5; Terminals D2O output after electric current amplifies, the control coil C1 work of driven magnetic guard relay makes terminals 1 (moving contact 1) and terminals 2 (stationary contact 2) UNICOM; Remove power supply this moment to control coil C1; Because magnetic latching relay 6 inside have permanent magnet, terminals 1 will continue to keep UNICOM's state with terminals 2, also just accomplish magnetic latching relay 6 switch homing actions.

As shown in Figure 2; First relay drive circuit 4 comprises first resistance R 1 and a triode T1; First resistance R 1 connects the base stage of the output terminal and a triode T1 of light emitting diode in the photoelectrical coupler 1 respectively; The grounded emitter of a triode T1, collector connects the terminals 2-2 of the first control coil C2 of magnetic latching relay 6; Second relay drive circuit 5 comprises second resistance R 2 and No. two triode T2; The second resistance T2 connects the base stage of the output terminal and No. two triode T2 of binary counter 3 respectively; The grounded emitter of No. two triode T2, collector connects the terminals 1-2 of the second control coil C1 of magnetic latching relay 6.The stationary contact of the first control coil C2 also connects terminals 1-1 and the input of a linear power supply 7 the most of the second control coil C1, and the output of linear power supply 7 connects another input end of binary counter 3.

Contact to the SM set mode that magnetic latching relay switch setting circuit is picked up in keyswitch status signal and the driven magnetic guard relay 6 realizes power up function; Fig. 6 is that the power up function of the utility model device is realized schematic block circuit diagram, according to magnetic latching relay 6 switch set operation, accomplishes after the set operation; The terminals 1 of magnetic latching relay are connected with terminals 3; Supply terminals P+ is connected with magnetic latching relay terminals 1, and then after accomplishing set operation, magnetic latching relay terminals 3 have just connected with supply terminals P+; The working power of portable apparatus is taken from magnetic latching relay terminals 3, has then realized power up function.Magnetic latching relay switch reset circuit is counted the inferior keyswitch status signal of odd even that picks up through binary counter; Wherein even number value will trigger the second relay drive circuit work and turn to reset mode to realize the shutdown function with the moving contact position of driven magnetic guard relay; Fig. 7 is that the shutdown function of the utility model device realizes schematic block circuit diagram; According to magnetic latching relay 6 switch reset operations, to accomplish after the reset operation, the terminals 1 of magnetic latching relay 6 are connected with terminals 2; Then after accomplishing reset operation; Magnetic latching relay terminals 3 just break off with supply terminals P+ and being connected, and have cut off the supply to the working power of portable apparatus, have then realized the shutdown function.

In the present embodiment, the small size type that the preferred plate of magnetic latching relay carries is like the TQ2-L2-5V of PANASONIC.Photoelectrical coupler can be selected TLP521-1 for use, and relay drive circuit can be made up of resistance and NPN type triode, and schmidt shaping circuit can be selected 74HC14 for use, and binary counter can be selected CD4040 for use.Wherein 74HC14, CD4040 need power supply, and VCC selects for use+the 5V power supply, and+5V power supply produces through linear power supply 78LM05 after by 3 power takings of magnetic latching relay terminals.

In conjunction with Fig. 2, the switching on and shutting down course of work of the one whole of the utility model device is following: button is pressed first, through magnetic latching relay switch setting circuit, makes the start working power to get power supply from the terminals P+ of power supply.Guarantee the operate as normal power supply of portable apparatus, guarantee that simultaneously the chip relevant with shutdown circuit such as schmidt shaping circuit 2, binary counter 3, components and parts obtain power supply, the beginning operate as normal.Binary counter 3 has carried out the automatic clear operation in the process that powers on, when the start actuation of keys finishes, counting is added 1, so when start process finished, the count value of binary counter was 1.Any moment after start process finishes pushes button once more, will start the shutdown action; In the time that button is pressed, magnetic latching relay 3 continues to keep open state, but in moment that button discharges; To cause that binary counter adds 1 counting operation once more, and make count value become 2 by 1, even number outlet terminal QE level is uprised by low; Control the 5 startup work of second relay drive circuit, make magnetic latching relay 6 carry out reset operation, behind the reset operation; The start working power can be broken off with the terminals P+ physics of power supply; Cut-out has also been cut off the power supply to chips such as schmidt shaping circuit 2, binary counter 3, components and parts simultaneously to the power supply of portable apparatus, realizes thorough power down function.

It is crucial executive component that this device of the utility model adopts components and parts such as single button, magnetic latching relay, photoelectric coupled device, binary counter; Wherein, The photoelectric effect of photoelectric coupled device produces the key-press status signal; Utilize the characteristic of binary counter to cooperate the characteristics of magnetic latching relay self to control the on off state of magnetic latching relay; Utilize strange, the inferior different conditions that causes that triggers of idol of button to realize power on/off function, wherein the odd number of button triggers the realization power up function, and even number triggers realizes the shutdown function.Because magnetic latching relay has the characteristics of complete physical property open circuit; This device can provide the start working power and will start shooting working power and the disconnection of power supply physics; Cut-out is to the power supply of portable apparatus and the power supply of cutting off parts such as binary counter; Can really realize the technical requirement of off-mode zero-power, and have that implementation method is simple, function-stable is reliable, and advantage with low cost.

Should be pointed out that the above embodiment can make those skilled in the art more fully understand the invention, but do not limit the present invention in any way creation.Therefore; Although this instructions has carried out detailed explanation with reference to accompanying drawing and embodiment to the invention,, those skilled in the art are to be understood that; Still can make amendment or be equal to replacement the invention; In a word, all do not break away from the technical scheme and the improvement thereof of the spirit and the scope of the invention, and it all should be encompassed in the middle of the protection domain of the invention patent.

Claims (7)

1. device of realizing the one-touch power on/off function of portable apparatus; It is characterized in that; Magnetic latching relay switch setting circuit that comprises magnetic latching relay and link to each other with magnetic latching relay respectively and magnetic latching relay switch reset circuit; Magnetic latching relay switch setting circuit is used to pick up the keyswitch status signal and triggers the magnetic latching relay action makes its moving contact to SM set mode realize start, and magnetic latching relay switch setting circuit also is used for the power supply to magnetic latching relay switch reset circuit; In the magnetic latching relay switch reset circuit counter is set; Said counter is counted the inferior keyswitch status signal of odd even that picks up, and makes its moving contact to reset mode realize shutdown with the count value change triggers magnetic latching relay action of counter.

2. device according to claim 1; It is characterized in that; Said counter is a binary counter; Binary counter is counted the keyswitch status signal of the odd even of picking up time, and moves to reset mode with the contact of the odd even change triggers magnetic latching relay of the count value of binary counter and to realize shutdown.

3. device according to claim 2; It is characterized in that; Said magnetic latching relay switch setting circuit includes button and the photoelectrical coupler that is connected successively with power supply with magnetic latching relay switch reset circuit; Said magnetic latching relay switch setting circuit also comprises first relay drive circuit, and the input end of said photoelectrical coupler links to each other with the terminals of button, and another terminals of button link to each other with power supply; The output terminal of photoelectrical coupler links to each other with terminals of first relay drive circuit, and another terminals of first relay drive circuit link to each other with terminals of first control coil of magnetic latching relay; Said magnetic latching relay switch reset circuit also comprises the binary counter and second relay drive circuit; The output terminal of said photoelectrical coupler also connects an input end of binary counter; The output terminal of binary counter connects terminals of second relay drive circuit; Another terminals of second relay drive circuit link to each other with terminals of second control coil of magnetic latching relay; Another terminals of second control coil link to each other with the stationary contact of first control coil, and the stationary contact of said first control coil connects the output terminal of switching on and shutting down working power.

4. device according to claim 3; It is characterized in that; The output terminal of said photoelectrical coupler connects an input end of binary counter through schmidt shaping circuit; The output terminal of photoelectrical coupler links to each other with the input end of schmidt shaping circuit, and the output terminal of schmidt shaping circuit links to each other with an input end of binary counter.

5. according to claim 3 or 4 described devices; It is characterized in that; Said first relay drive circuit comprises first resistance and a triode; First resistance connects the base stage of the output terminal and a triode of photoelectrical coupler respectively, the grounded emitter of a triode, and collector connects terminals of first control coil of magnetic latching relay.

6. according to claim 3 or 4 described devices; It is characterized in that; Said second relay drive circuit comprises second resistance and No. two triodes; Second resistance connects the base stage of the output terminal and No. two triodes of binary counter respectively, the grounded emitter of No. two triodes, and collector connects terminals of second control coil of magnetic latching relay.

7. according to claim 3 or 4 described devices, it is characterized in that the stationary contact of said first control coil also connects the terminals of second control coil and is the input of a linear power supply, the output of said linear power supply connects another input end of binary counter.

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