CN201689800U - Contact bridge sampling and arc extinguishing control device - Google Patents

Abstract

The utility model relates to a contact bridge sampling and arc extinguishing control device belonging to the field of electric switches, in particular to a contact bridge sampling and arc extinguishing control device which is suitable for being applied in electronic arc extinguishing circuits of various bridging contact structures and mechanical contacts of similar structure. A sampling circuit is connected between a mechanical contact and bridge and a fixed contact end or between the mechanical contact bridge and a contact bridge, and an output signal at the output end of the sampling circuit is used as an arc extinguishing control signal. During the conduction and disconnection process of the mechanical contact, according to the potential difference change existing the contact bridge relative to the fixed contact ends at both ends or the contact bridge relative to another contact bridge, the voltage drives the input end of the sampling circuit, and then the output end of the sampling circuit outputs the arc extinguishing control signal. The output signal of the device is used as the arc extinguishing signal of the electronic arc extinguishing circuit, thus being capable of enabling the electronic arc extinguishing circuit to achieve accurate and reliable arc extinguishing effect by using the minimum conduction time, and further greatly improving the reliability and economy of the electronic arc extinguishing for mechanical contacts.

Description

Touch the bridge sampling and arc extinguishing control device

Technical field

The utility model touches the bridge sampling and arc extinguishing control device and belongs to the electric switch field, and particularly a kind of being suitable for used in the electronics arc-suppression circuit of various bridging contact structures and similar structures mechanical contact.

Background technology

At present in electric control system, be extensive use of mechanical contact disjunction control is connected in load, but because standard machinery structure arc-chute arc quenching effect is poor, electric arc is big during the break-make load, there is the easy scaling loss in contact, the shortcoming that electric life is short, occurred on the market adopting the no electric arc mechanical switch of electronics arc extinguishing (as non-arc contactor for this reason, combination switch etc.), its operation principle is to utilize power semiconductor (as triode, IGBT, field effect transistor, controllable silicon etc.) in parallel with mechanical contact, before connecting, mechanical contact provides the conducting of a control signal power controlling semiconductor device earlier by control circuit, mechanical contact closure then, the electric arc when having avoided mechanical contact to connect load; During the mechanical contact disjunction, earlier provide the conducting of a control signal power controlling semiconductor device by control circuit, mechanical contact separates then, mechanical contact separates back time delayed turn-off power semiconductor control signal, finish no electric arc breaking course, but this mechanical contact provides control signal before connecting in advance, the have no progeny control mode arc extinguishing of hysteresis closing control signal of mechanical contact branch, will certainly increase the unnecessary unnecessary conducting operating time of electronics arc-suppression circuit power semiconductor, cause the power semiconductor power utilization low, uneconomical, the caloric value height, overload capacity is poor, the shortcoming of reliability decrease.

Summary of the invention

The purpose of this utility model be to avoid the weak point of existing electronics arc-suppression circuit control mode and provide that a kind of circuit is simple, volume is little, cost is low, real-time convenient use in the mechanical contact electronics arc-suppression circuit of various bridging contact structures and similar structures, use touch the bridge sampling and arc extinguishing control device, by the arc extinguishing control signal of this device output arc extinguishing control signal, make the electronics arc-suppression circuit can reach arc extinguishing accurately and reliably with the ON time of minimum as the electronics arc-suppression circuit.

Realize that the purpose of this utility model reaches by the following technical programs: touch between bridge and the fixed contact end or mechanical contact touches bridge and touches between the bridge at mechanical contact, the connection sampling loop, the sampling loop output is exported the arc extinguishing control signal.

Its operation principle: mechanical contact is connected in the course of work of disjunction, when having electric arc between the contact by touching bridge with respect to two ends fixed contact end or touch bridge and touch the potential difference that exists between the bridge relatively and change, driven sampling loop input is exported the arc extinguishing control signal by the sampling loop output more thus.

Touch the bridge sampling and arc extinguishing control device, its feature is connected with current-limiting resistance R1 by photoelectric coupling circuit OPT1 input, and the series loop two ends are connected to mechanical contact respectively and touch bridge SW1 and fixed contact end, photoelectric coupling circuit OPT1 output output arc extinguishing control signal.

Touch the bridge sampling and arc extinguishing control device, its feature is by photoelectric coupling circuit OPT1 input and photoelectric coupling circuit OPT2 input reverse parallel connection, connect with current-limiting resistance R1 again, the series loop two ends are connected to mechanical contact respectively and touch bridge SW1 and fixed contact end, photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

Touch the bridge sampling and arc extinguishing control device, its feature is linked to each other by photoelectric coupling circuit OPT1, OPT2 input light-emitting diodes tube anode, be connected to by current-limiting resistance R1 again and touch bridge SW1, photoelectric coupling circuit OPT1, OPT2 input light-emitting diodes tube cathode link to each other with anti-reverse voltage diode D1, D2 anode respectively, anti-reverse voltage diode D1, D2 negative electrode are connected to fixed contact J2, J1 end respectively, photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

Touch the bridge sampling and arc extinguishing control device, its feature is connected with current-limiting resistance R1 by transistor Q1 input, and series loop is connected to mechanical contact and touches bridge SW1 and fixed contact end, transistor Q1 output output arc extinguishing control signal.

Touch the bridge sampling and arc extinguishing control device, its feature is in parallel with transistor Q2 input by transistor Q1 input, connects with current-limiting resistance R1 again, and series loop is connected to mechanical contact and touches bridge SW1 and fixed contact end, transistor Q1, Q2 output output arc extinguishing control signal.

Touch the bridge sampling and arc extinguishing control device, its feature is connected with current-limiting resistance R1 by photoelectric coupling circuit OPT1 input, and series loop is connected to mechanical contact and touches bridge SW1 and touch bridge SW2 end, photoelectric coupling circuit OPT1 output output arc extinguishing control signal.

Touch the bridge sampling and arc extinguishing control device, its feature is by photoelectric coupling circuit OPT1 input and photoelectric coupling circuit OPT2 input reverse parallel connection, current-limiting resistance R1 series connection again, series loop is connected to mechanical contact and touches bridge SW1 and touch bridge SW2 end, photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

Touch the bridge sampling and arc extinguishing control device, its feature is by photoelectric coupling circuit OPT1, OPT2, each reverse parallel connection diode D1 of OPT3 input, D2, D3, diode D1, D2, D3 negative pole end are connected with current-limiting resistance R1, R2, R3 respectively again, series loop diode cathode end links together, the series loop resistance terminal is connected to mechanical contact respectively and touches bridge SW1, SW2, SW3 end, photoelectric coupling circuit OPT1, OPT2, OPT3 output output arc extinguishing control signal.

The utility model is reasonable in design, by the arc extinguishing control signal of this device output signal as mechanical contact electronics arc-suppression circuit, not conducting of electronics arc-suppression circuit when the mechanical contact break-make can accomplish that there is not electric arc in the contact, just conducting when having electric arc, electronics arc-suppression circuit arc extinguishing conducting required time is extremely short, when electronics arc-suppression circuit power semiconductor adopted controllable silicon as the arc extinguishing device, ON time can accomplish to be no more than half ripple; When electronics arc-suppression circuit power semiconductor adopts controlled shutoff device (as IGBT, field effect transistor), arc extinguishing process power semiconductor ON time only needs the microsecond level, can accomplish the purpose of arc extinguishing accurately and reliably, this has greatly improved electronics arc-suppression circuit power semiconductor utilance, and has improved reliability, the economy of mechanical contact electronics arc-suppression circuit.

Description of drawings

Accompanying drawing 1 is one of embodiment of the present utility model circuit diagram.

Accompanying drawing 2 is two circuit diagrams of embodiment of the present utility model.

Accompanying drawing 3 is three-circuit schematic diagrames of embodiment of the present utility model.

Accompanying drawing 4 is four circuit diagrams of embodiment of the present utility model.

Accompanying drawing 5 is five circuit diagrams of embodiment of the present utility model.

Accompanying drawing 6 is six circuit diagrams of embodiment of the present utility model.

Accompanying drawing 7 is seven circuit diagrams of embodiment of the present utility model.

Accompanying drawing 8 is eight circuit diagrams of embodiment of the present utility model.

Accompanying drawing 9 is two application schematic diagrames in exchanging mechanical contact electronics arc quenching system of the utility model embodiment.

Accompanying drawing 10 is four application schematic diagrames in direct current mechanical contact electronics arc quenching system of the utility model embodiment.

Accompanying drawing 11 is eight application schematic diagrames in three-phase alternating current mechanical contact electronics arc quenching system of embodiment of the present utility model.

Embodiment

As shown in Figure 1, J1 is the positive input mouth of direct current mechanical contact, J2 is the output port of mechanical contact, the anode pin of the input light-emitting diode of photoelectric coupling circuit OPT1 is connected to mechanical contact and touches bridge SW1, negative electrode connects resistance R 1, resistance R 1 another pin is connected to fixed contact J2 end, and (annotate: resistance one end also can be connected to fixed contact J1 end, connect with resistance as long as change the anode of the input light-emitting diode of photoelectric coupling circuit OPT1 this moment into, the negative electrode pin of the input light-emitting diode of photoelectric coupling circuit OPT1 is connected to mechanical contact and touches bridge SW1, operation principle is identical), by the output output arc extinguishing control signal of photoelectric coupling circuit OPT1.

In the mechanical contact make and break process: mechanical contact touches the moment of bridge SW1 break-make, when having electric arc between the contact, touch bridge SW1 and will form the positive electricity potential difference end points J2, voltage drives photoelectric coupling circuit OPT1 through current-limiting resistance R1 current limliting thus, and photoelectric coupling circuit OPT1 exports conducting, output arc extinguishing control signal, electric arc disappears when between the contact, touch bridge SW1 end points J2 potential difference is disappeared, photoelectric coupling circuit OPT1 output ends, and closes output arc extinguishing control signal.

As shown in Figure 2, its feature is by photoelectric coupling circuit OPT1 input and photoelectric coupling circuit OPT2 input reverse parallel connection, connect with current-limiting resistance R1 again, series loop photoelectric coupling circuit input is connected to mechanical contact and touches bridge SW1, resistance terminal is connected with fixed contact J2 end, and (annotate: resistance terminal also can be connected to fixed contact J1 end, operation principle is identical), photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

In the mechanical contact make and break process: mechanical contact touches the moment of bridge SW1 break-make, when fixed contact port J1 is a positive potential with respect to fixed contact port J2, and when having electric arc between the contact, touch bridge SW1 and will form the positive electricity potential difference end points J2, voltage drives photoelectric coupling circuit OPT1 through current-limiting resistance R1 current limliting thus, photoelectric coupling circuit OPT1 exports conducting, output arc extinguishing control signal; Electric arc disappears when between the contact, touches bridge SW1 end points J2 potential difference is disappeared, and photoelectric coupling circuit OPT1 output ends, and closes output arc extinguishing control signal.When fixed contact port J2 is positive potential with respect to fixed contact port J1, when there is electric arc in the contact, end points J2 will form the positive electricity potential difference to touching bridge SW1, and voltage drives photoelectric coupling circuit OPT2 through current-limiting resistance R1 current limliting thus, photoelectric coupling circuit OPT2 exports conducting, output arc extinguishing control signal; Electric arc disappears when between the contact, and end points J2 disappears to touching bridge SW1 potential difference, and photoelectric coupling circuit OPT2 output ends, and closes output arc extinguishing control signal.

As shown in Figure 3, its feature is linked to each other by photoelectric coupling circuit OPT1, OPT2 input light-emitting diodes tube anode, be connected to by current-limiting resistance R1 again and touch bridge SW1, photoelectric coupling circuit OPT1, OPT2 input light-emitting diodes tube cathode link to each other with anti-reverse voltage diode D1, D2 anode respectively, anti-reverse voltage diode D1, D2 negative electrode are connected to fixed contact J2, J1 end respectively, photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

In the mechanical contact make and break process: mechanical contact touches the moment of bridge SW1 break-make, is positive potential at fixed contact port J1 with respect to fixed contact port J2, and when having electric arc between the contact, touch bridge SW1 and will form the positive electricity potential difference end points J2, voltage is through current-limiting resistance R1 current limliting, anti-reverse voltage diode D1 thus, drive photoelectric coupling circuit OPT1, photoelectric coupling circuit OPT1 exports conducting, output arc extinguishing control signal; When electric arc between the contact disappears, to touch bridge SW1 end points J2 potential difference is disappeared simultaneously, photoelectric coupling circuit OPT1 output ends, and closes output arc extinguishing control signal.Is positive potential at fixed contact port J2 with respect to fixed contact port J1, when there is electric arc in the contact, end points touches bridge SW1 will form the positive electricity potential difference to J1, voltage is through current-limiting resistance R1 current limliting, anti-reverse voltage diode D2 thus, drive photoelectric coupling circuit OPT2, photoelectric coupling circuit OPT2 exports conducting, output arc extinguishing control signal; When contact electric arc disappeared, end points touched bridge SW1 the J1 potential difference is disappeared simultaneously, and photoelectric coupling circuit OPT2 output ends, and closed output arc extinguishing control signal.

As shown in Figure 4, J1 is the positive input mouth of direct current mechanical contact, J2 is the output port of mechanical contact, the input base stage of transistor Q1 is connected to mechanical contact by current-limiting resistance R1 and touches bridge SW1, the emitter of transistor Q1 is connected to fixed contact J2 end, by the output collector electrode output arc extinguishing control signal of transistor Q1.(annotate: transistor Q1 also can manage with PNP, at this moment as long as J2 is changed into the positive input mouth of direct current mechanical contact)

In the mechanical contact make and break process: mechanical contact touches the moment of bridge SW1 break-make, when having electric arc between the contact, electric current must be arranged by touching bridge, touch bridge SW1 and will form the positive electricity potential difference to end points J2, voltage is through current-limiting resistance R1 current limliting driving transistors Q1 thus, transistor Q1 exports conducting, output arc extinguishing control signal, electric arc disappears when between the contact, touches bridge SW1 end points J2 potential difference is disappeared, transistor Q1 output ends, and closes output arc extinguishing control signal.

As shown in Figure 5, J1, J2 are mechanical contact fixed contact port, transistor Q1 input base stage is in parallel with transistor Q2 input base stage, be connected to mechanical contact by current-limiting resistance R1 again and touch bridge SW1, the emitter of Q1, Q2 and fixed contact J2 end is connected (annotate: the emitter of Q1, the Q2 operation principle that also can be connected with fixed contact J1 end is the same), transistor Q1, Q2 output collector electrode output arc extinguishing control signal.

In the mechanical contact make and break process: mechanical contact touches the moment of bridge SW1 break-make, when fixed contact port J1 is a positive potential with respect to fixed contact port J2, and when having electric arc between the contact, touch bridge SW1 and will form the positive electricity potential difference end points J2, voltage is through current-limiting resistance R1 current limliting driving transistors Q1 thus, transistor Q1 exports conducting, output arc extinguishing control signal; Electric arc disappears when between the contact, touches bridge SW1 end points J2 potential difference is disappeared, and transistor Q1 output ends, and closes output arc extinguishing control signal.When fixed contact port J2 is positive potential with respect to fixed contact port J1, when there is electric arc in the contact, end points J2 will form the positive electricity potential difference to touching bridge SW1, and voltage is through current-limiting resistance R1 current limliting driving transistors Q2 thus, transistor Q2 exports conducting, output arc extinguishing control signal; Electric arc disappears when between the contact, and end points J2 disappears to touching bridge SW1 potential difference, and transistor Q2 output ends, and closes output arc extinguishing control signal.

As shown in Figure 6, J1, J2 are the input port (wherein J2 is a positive input) of direct current mechanical contact, J3, J4 are the output port of mechanical contact, the input of photoelectric coupling circuit OPT1 is connected with current-limiting resistance R1, series loop is connected to mechanical contact and touches bridge SW1, SW2, the output output arc extinguishing control signal of photoelectric coupling circuit.

In the mechanical contact make and break process: mechanical contact touches the moment that bridge joint leads to, when having electric arc between the contact, electric current must be arranged by touching bridge, touch bridge SW1 and will touch bridge SW2 end formation potential difference the mechanical contact in same loop, voltage drives photoelectric coupling circuit through current-limiting resistance R1 current limliting thus, the conducting of photoelectric coupling circuit output, output arc extinguishing control signal (signal controlling is connected in parallel on the arc-suppression circuit conducting at mechanical contact fixed contact two ends thus), the mechanical contact closure (is annotated: though photoelectric coupling circuit output Continuity signal still can exist after the mechanical contact closure, but because mechanical contact is closed, arc-suppression circuit is ended voluntarily by bypass); Mechanical contact touches the moment of bridge disjunction, and when having electric arc as mechanical contact, output arc extinguishing control signal will exist, as long as electronics arc-suppression circuit one conducting of its control, electric arc disappears at once, and output arc extinguishing control signal is closed.

As shown in Figure 7, J1, J2 are the input port of mechanical contact, J3, J4 are the output port of mechanical contact, the input reverse parallel connection of the input of photoelectric coupling circuit OPT1 and photoelectric coupling circuit OPT2, connect with current-limiting resistance R1 again, series loop is connected to mechanical contact and touches bridge SW1, SW2 end, the output output arc extinguishing control signal of photoelectric coupling circuit.

In the mechanical contact make and break process: mechanical contact touches the moment that bridge joint leads to, when having electric arc between the contact, electric current must be arranged by touching bridge, touch bridge SW1 and will touch bridge SW2 end formation potential difference the mechanical contact in same loop, voltage drives photoelectric coupling circuit through current-limiting resistance R1 current limliting thus, the conducting of photoelectric coupling circuit output, output arc extinguishing control signal (signal controlling is connected in parallel on the arc-suppression circuit conducting at mechanical contact fixed contact two ends thus), the mechanical contact closure (is annotated: though photoelectric coupling circuit output Continuity signal still can exist after the mechanical contact closure, but because mechanical contact is closed, arc-suppression circuit is ended voluntarily by bypass); Mechanical contact touches the moment of bridge disjunction, and when having electric arc as mechanical contact, output arc extinguishing control signal will exist, as long as electronics arc-suppression circuit one conducting of its control, electric arc disappears at once, and output arc extinguishing control signal is closed.

As shown in Figure 8, J1, J2, J3 are the input port of three-phase mechanical contact, J4, J5, J6 are the output port of mechanical contact, photoelectric coupling circuit OPT1, OPT2, each reverse parallel connection of OPT3 input diode D1, a D2, D3, diode D1, D2, D3 negative pole end are connected with current-limiting resistance R1, R2, R3 respectively again, series loop diode cathode end links together, the series loop resistance terminal is connected to mechanical contact respectively and touches bridge SW1, SW2, SW3 end, photoelectric coupling circuit output output arc extinguishing control signal.

In the mechanical contact make and break process: mechanical contact touches the moment that bridge joint leads to, when having electric arc between arbitrary mechanical contact, electric current must be arranged by touching bridge, this touch bridge must be with respect to same loop other touch and form potential difference between the bridge, voltage drives corresponding photoelectric coupling circuit through the current-limiting resistance current limliting thus, the conducting of photoelectric coupling circuit output, output arc extinguishing control signal (signal controlling is connected in parallel on the arc-suppression circuit conducting at mechanical contact fixed contact two ends thus), the mechanical contact closure (is annotated: though photoelectric coupling circuit output Continuity signal still can exist after the mechanical contact closure, but because mechanical contact is closed, arc-suppression circuit is ended voluntarily by bypass); Mechanical contact touches the moment of bridge disjunction, and when having electric arc as mechanical contact, output arc extinguishing control signal will exist, as long as electronics arc-suppression circuit one conducting of its control, electric arc disappears at once, and output arc extinguishing control signal is closed.

Shown in the accompanying drawing 9, be two the application schematic diagrames in exchanging mechanical contact electronics arc quenching system of the utility model embodiment, electronics arc-suppression circuit A is connected in parallel on mechanical contact fixed contact J1, J2 two ends, and the utility model device photoelectric coupling circuit OPT1, OPT2 output are connected to electronics arc-suppression circuit A control input end as arc-suppression circuit conducting control signal.

In the mechanical contact make and break process: the moment of touching bridge SW1 break-make at mechanical contact, as J1 is the positive input of mechanical contact, when there is electric arc in the contact, touch bridge SW1 and will form the positive electricity potential difference end points J2, voltage drives photoelectric coupling circuit OPT1 through current-limiting resistance R1 current limliting thus, photoelectric coupling circuit OPT1 exports conducting, control electronics arc-suppression circuit A conducting, main circuit current through electronics arc-suppression circuit A bypass → contact electric arc disappear at once → touch bridge SW1 to end points J2 potential difference disappear at once → photoelectric coupling circuit OPT1 output ends by → electronics arc-suppression circuit A, finishes the arc extinguishing process; As J2 is the positive input of mechanical contact, touch the moment of bridge SW1 break-make at mechanical contact, when there is electric arc in the contact, touch bridge SW1 and will form the negative electricity potential difference end points J2, voltage drives photoelectric coupling circuit OPT2 through current-limiting resistance R1 current limliting thus, photoelectric coupling circuit OPT2 exports conducting, control electronics arc-suppression circuit A conducting, main circuit current through electronics arc-suppression circuit A bypass → contact electric arc disappear at once → touch bridge SW1 to end points J2 potential difference disappear at once → photoelectric coupling circuit OPT2 output ends by → electronics arc-suppression circuit A, finishes the arc extinguishing process.

As shown in Figure 10; be four the application schematic diagrames in direct current mechanical contact electronics arc quenching system of the utility model embodiment; arc-suppression circuit A is connected in parallel on mechanical contact fixed contact J1; J2 two ends (wherein the J1 end is the positive input of mechanical contact); the utility model device transistor Q1 output is connected to the arc extinguishing control signal that arc-suppression circuit A control input end provides arc-suppression circuit; the too fast self-induction overvoltage damage arc-suppression circuit that causes of arc-suppression circuit cutout was provided with when pressure-sensitive device Z1 was used to prevent mechanical contact switching inductive load; R4 is that current-limiting resistance (is annotated: Z1; R4 can select for use according to loading condition; the withstand voltage of Z1 is greater than the mechanical contact both end voltage; less than the arc-suppression circuit puncture voltage; when arc-suppression circuit stops as existing too high voltages can make arc-suppression circuit conducting again; energy is released in the load; prevent the arc-suppression circuit punch through damage); pressure-sensitive device RV1 is used to absorb major loop overvoltage protection arc-suppression circuit; D1 causes that for the bypass reverse voltage prevents reverse voltage arc-suppression circuit damages; J3 is a field effect transistor Q3 turn-on bias voltage positive input port, and the bias voltage negative input end is connected to the J2 end.

In the mechanical contact make and break process: the moment of touching bridge SW1 break-make at mechanical contact, when having electric arc between the contact, touch bridge SW1 and will form the positive electricity potential difference end points J2, thus voltage electric arc through between current-limiting resistance R1 current limliting driving transistors Q1 → transistor Q1 output conducting → transistor Q2 conducting → field effect transistor Q3 saturation conduction (main circuit current is through arc-suppression circuit Q3 bypass) → contact disappear → touch bridge SW1 to end points J2 potential difference disappear at once → transistor Q1 output ends by → field effect transistor Q3 by → transistor Q2 output, finishes the arc extinguishing process.(annotating: also can be applied to the alternating current circuit arc extinguishing when using) with two these circuit differential concatenations of cover

As shown in Figure 11, eight of the utility model embodiment uses schematic diagram in the three-phase alternating current arc-suppression circuit, arc-suppression circuit controllable silicon TR1, TR2, TR3 are connected in parallel on three-phase mechanical contact two ends respectively, the silicon controlled control utmost point is connected to arc-suppression circuit trigger control circuit A, the output that touches the bridge sampling and arc extinguishing control device of the present utility model is connected to the trigger control circuit A of arc-suppression circuit, as the arc extinguishing control signal of electronics arc-suppression circuit.

In the mechanical contact make and break process: mechanical contact touches the moment that bridge joint leads to, when having electric arc between arbitrary mechanical contact, this touches bridge, and other touch and form potential difference between the bridge with respect to same loop, voltage drives corresponding photoelectric coupling circuit through the current-limiting resistance current limliting thus, the conducting of photoelectric coupling circuit output, and output arc extinguishing control signal is given circuits for triggering A, circuit A triggers controllable silicon TR1, TR2, TR3 conducting, the mechanical contact closure, the arc-suppression circuit controllable silicon is ended voluntarily by bypass; Mechanical contact touches the moment of bridge disjunction, when having electric arc as mechanical contact, output arc extinguishing control signal will exist, circuit A triggers TR1, TR2, TR3 conducting, electric arc disappears, and touches bridge sampling and arc extinguishing control device output arc extinguishing control signal and closes, and circuit A stops to trigger, controllable silicon is not having under the situation of triggering signal, and current over-zero turn-offs voluntarily.

Annotate: photoelectric coupling circuit can also can be used luminescent device with the light lotus root product of encapsulation one as P521PC817 etc., adds the sensor devices self manufacture.

Claims (9)

1. touch the bridge sampling and arc extinguishing control device, its feature is touched between bridge and the fixed contact end or mechanical contact touches bridge and touches between the bridge at mechanical contact, connects sampling loop, sampling loop output output arc extinguishing control signal.

2. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is connected with current-limiting resistance R1 by photoelectric coupling circuit OPT1 input, the series loop two ends are connected to mechanical contact respectively and touch bridge SW1 and fixed contact end, photoelectric coupling circuit OPT1 output output arc extinguishing control signal.

3. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is by photoelectric coupling circuit OPT1 input and photoelectric coupling circuit OPT2 input reverse parallel connection, connect with current-limiting resistance R1 again, the series loop two ends are connected to mechanical contact respectively and touch bridge SW1 and fixed contact end, photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

4. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is linked to each other by photoelectric coupling circuit OPT1, OPT2 input light-emitting diodes tube anode, be connected to by current-limiting resistance R1 again and touch bridge SW1, photoelectric coupling circuit OPT1, OPT2 input light-emitting diodes tube cathode link to each other with anti-reverse voltage diode D1, D2 anode respectively, anti-reverse voltage diode D1, D2 negative electrode are connected to fixed contact J2, J1 end respectively, photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

5. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is connected with current-limiting resistance R1 by transistor Q1 input, and series loop is connected to mechanical contact and touches bridge SW1 and fixed contact end, transistor Q1 output output arc extinguishing control signal.

6. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is in parallel with transistor Q2 input by transistor Q1 input, connect with current-limiting resistance R1 again, series loop is connected to mechanical contact and touches bridge SW1 and fixed contact end, transistor Q1, Q2 output output arc extinguishing control signal.

7. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is connected with current-limiting resistance R1 by photoelectric coupling circuit OPT1 input, series loop is connected to mechanical contact and touches bridge SW1 and touch bridge SW2 end, photoelectric coupling circuit OPT1 output output arc extinguishing control signal.

8. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is by photoelectric coupling circuit OPT1 input and photoelectric coupling circuit OPT2 input reverse parallel connection, current-limiting resistance R1 series connection again, series loop is connected to mechanical contact and touches bridge SW1 and touch bridge SW2 end, photoelectric coupling circuit OPT1, OPT2 output output arc extinguishing control signal.

9. the bridge sampling and arc extinguishing control device that touches according to claim 1, its feature is by photoelectric coupling circuit OPT1, OPT2, each reverse parallel connection diode D1 of OPT3 input, D2, D3, the negative pole end of diode D1, D2, D3 is connected with current-limiting resistance R1, R2, R3 respectively again, series loop diode cathode end links together, the series loop resistance terminal is connected to mechanical contact respectively and touches bridge SW1, SW2, SW3 end, photoelectric coupling circuit OPT1, OPT2, OPT3 output output arc extinguishing control signal.

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