CN204316071U - Electric current and voltage mixed type leakage protecting plug - Google Patents

Abstract

The utility model relates to a kind of electric current and voltage mixed type leakage protecting plug, and feature is release JL, electronic switch, first and second fault sensor circuit of comprising band three pairs of contacts; The output of electronic switch is electrically connected with the live wire L of city's alternating current by release JL; Fisrt fault sensor circuit comprises the first zero sequence current mutual inductor, and on its zero line N being set in city's alternating current and live wire L, its two ends are electrically connected with the bipod of electronic switch input respectively; Second fault sensor circuit comprises the second zero sequence current mutual inductor, voltage couples coil, change over switch and pressure limiting resistance, second zero sequence current mutual inductor is set on ground wire E, be electrically connected with ground wire E after one end serial connection pressure limiting resistance of voltage couples coil and change over switch, zero line N or the pin N of the other end and city's alternating current are electrically connected, and the two ends of the second zero sequence current mutual inductor are electrically connected with the bipod of another input of electronic switch respectively.Its advantage is: circuit structure is simple, accurately can sense ground wire electrical leakage voltage and cut off load power source immediately, can also when the zero line N of major loop and live wire L reversal connection, if run into ground wire leak current fault simultaneously, this structure can be threaded off power-off in the same old way, and can not leakage current phase effect be subject to, work more safe and reliable.

Description

Electric current and voltage mixed type leakage protecting plug

Technical field

The utility model relates to a kind of voltage transitions type leakage protecting plug, is called for short PRCD.

Background technology

Existing leakage protecting plug (being called for short PRCD) comprises a rectification circuit, two-way electronic switch, signal processing circuit, two zero sequence current mutual inductors, a transformer and is with the release of three pairs of contacts.On the zero line N that zero sequence current mutual inductor ZL1 is set in city's alternating current and live wire L, be electrically connected with the input of first via signal processing circuit; Another zero sequence current mutual inductor ZL2 is set on ground wire, is electrically connected with the input of the second road signal processing circuit; One end of primary is electrically connected with zero line N pin, the other end is connected in series a resistance and is then electrically connected with lower margin E, secondary coil one end of transformer is electrically connected with an input of the second road signal processing circuit, and the other end is electrically connected with another input of the second road signal processing circuit by a diverter switch; Be electrically connected with the control end of electronic switch after the output of two paths of signals amplification treatment circuit is connected in series isolating diode respectively, thus control electronic switch forces band three pairs of contacts release action power-off when load appliance or ground wire break down.This circuit structure is complicated, induced voltage and the electrical leakage voltage of ground wire can't be differentiated, and when zero line N and the live wire L reversal connection of major loop, if run into the fault of ground wire electric leakage simultaneously, this structure just there will be the danger of power-off of can not threading off, the electric current and voltage mixed type leakage protecting plug had in addition, its voltage induced coil adds around on the zero sequence current mutual inductor of induction major loop (LN) fault current, like this when leak current fault occurs for major loop and ground wire simultaneously, because leakage current phase place, just may occur that ground wire fault trip voltage or total residual operating current (major loop adds ground wire) exceed the bad phenomenon of GB, so security performance also has certain defect.

Utility model content

The purpose of this utility model overcomes the deficiencies in the prior art and provides a kind of circuit structure simple; the coupling transformer of induction ground wire false voltage need not be increased; can accurately sense ground wire electrical leakage voltage and can induced voltage be filtered out; the positive and negative connection of zero line N and live wire L need not be distinguished again; and can not fault current phase effect be subject to; ground wire fault trip voltage and total residual operating current (major loop adds ground wire) can both within the scope of GBs, more safe and reliable electric current and voltage mixed type leakage protecting plug.

In order to achieve the above object, the utility model realizes like this, it is a kind of voltage transitions type leakage protecting plug, it is characterized in that comprising the release JL of band three pairs of contacts, electronic switch, Fisrt fault sensor circuit and the second fault sensor circuit and hookup; Wherein

The output of described electronic switch is electrically connected with the live wire L of city's alternating current by release JL;

Three pairs of contacts of described release JL are connected on ground wire E, zero line N and live wire L respectively, and release JL also comprises the reset key that three pairs of contacts are resetted;

Described Fisrt fault sensor circuit comprises the first zero sequence current mutual inductor, and on the zero line N that described first zero sequence current mutual inductor is set in city's alternating current and live wire L, the two ends of described first zero sequence current mutual inductor are electrically connected with the bipod of electronic switch input respectively;

Described second fault sensor circuit comprises the second zero sequence current mutual inductor, voltage couples coil, change over switch and pressure limiting resistance, described second zero sequence current mutual inductor is set on ground wire E, the two ends of the second zero sequence current mutual inductor are electrically connected with the bipod of another input of electronic switch respectively, be electrically connected with ground wire E or grounding pin E after one end serial connection pressure limiting resistance of described voltage couples coil and change over switch, the other end of voltage couples coil is electrically connected with the zero line N of city's alternating current or pin N.

Described electronic switch comprises bridge rectifier, controllable silicon, amplification process integrated package, the first to the 5th electric capacity and current-limiting resistance, one input of wherein said bridge rectifier is electrically connected with the live wire L of city's alternating current by release JL, another input of bridge rectifier is electrically connected with the zero line N of city's alternating current, and the output of bridge rectifier is controllable silicon, amplification process integrated package provides direct-current working volts, described model of amplifying process integrated package is RT54123B (hereinafter referred to as integrated package), 8 pin of integrated package are electrically connected by the positive terminal of current-limiting resistance with bridge rectifier output, 4 pin of integrated package are electrically connected with the public negative pole end of bridge rectifier output, 1 pin and 2 pin of integrated package are electrically connected with the two ends of the first zero sequence current mutual inductor respectively, the two ends of described first filter capacitor are electrically connected with 4 pin of integrated package and 8 pin respectively, the two ends of described second electric capacity are electrically connected with 4 pin of integrated package and 7 pin respectively, the two ends of described 3rd electric capacity are electrically connected with 6 pin of integrated package and 7 pin respectively, the two ends of described 4th electric capacity are electrically connected with 4 pin of integrated package and 5 pin respectively, the two ends of described 5th electric capacity are electrically connected with 2 pin of integrated package and 4 pin respectively, described silicon controlled anode and negative electrode are connected electrically in the positive-negative output end of bridge rectifier respectively, and silicon controlled control end is electrically connected with output 7 pin of integrated package.

Described voltage couples coil adds around on the second zero sequence current mutual inductor of induction ground wire fault current.

In the technical program, also comprise the second resistance and the 6th electric capacity, the two ends after described second resistance and the 6th Capacitance parallel connection are connected electrically on the two ends of the first zero sequence current mutual inductor respectively.

In the technical program, also comprise the 3rd resistance and the 7th electric capacity, the two ends after described 3rd resistance and the 7th Capacitance parallel connection are connected electrically on two outputs of the second zero sequence current mutual inductor respectively.

Described hookup comprises Test Switchboard and test resistance, described Test Switchboard connect with test resistance after one end with pass the live wire L output of major loop instrument transformer and be electrically connected, the other end is electrically connected with zero line N input.

The utility model advantage is compared with prior art: circuit structure is simple, the coupling transformer of induction ground wire false voltage need not be increased, accurately can sense ground wire electrical leakage voltage and cut off load power source immediately, can also when the zero line N of major loop and live wire L reversal connection, if run into ground wire leak current fault simultaneously, this structure can be threaded off power-off in the same old way, and can not leakage current phase effect be subject to, total residual operating current (major loop adds ground wire), all in GB safe range, works more safe and reliable.

Accompanying drawing explanation

Fig. 1 is the utility model circuit theory diagrams.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described further.It should be noted that at this, the explanation for these execution modes understands the utility model for helping, but does not form restriction of the present utility model.In addition, if below in described each execution mode of the utility model involved technical characteristic do not form conflict each other and just can be combined with each other.

In description of the present utility model, term " first " and " the 7th " only for describing object, and can not be interpreted as instruction or hint relative importance.

As shown in Figure 1, it is a kind of voltage transitions type leakage protecting plug, comprises the release JL1 of band three pairs of contacts, electronic switch 2, Fisrt fault sensor circuit 3 and the second fault sensor circuit 4 and hookup 5; Wherein

The output of described electronic switch 2 is electrically connected with the live wire L of city's alternating current by release JL;

Three pairs of contacts of described release JL1 are connected on ground wire E, zero line N and live wire L respectively, de-

Button device JL also comprises the reset key RESET that three pairs of contacts are resetted;

Described Fisrt fault sensor circuit 3 comprises the first zero sequence current mutual inductor ZCT1, on the zero line N that first zero sequence current mutual inductor ZCT1 is set in city's alternating current and live wire L, the two ends of described first zero sequence current mutual inductor ZCT1 are electrically connected with the bipod of electronic switch 2 input respectively, its work (dropout power-off protection) principle is the same with common leakage protecting plug, and following omission does not describe;

Described second fault sensor circuit 4 comprises the second zero sequence current mutual inductor ZCT2, voltage couples coil Lv, change over switch Kv and pressure limiting resistance Rv, described second zero sequence current mutual inductor ZCT2 is set on ground wire E, be electrically connected with ground wire E or grounding pin E after one end serial connection pressure limiting resistance Rv and change over switch Kv of described voltage couples coil Lv, the other end of voltage induced coil Lv is electrically connected with the zero line N of city's alternating current or pin N, and the two ends of the second zero sequence current mutual inductor ZCT2 are electrically connected with the bipod of another input of electronic switch 2 respectively.

Described hookup 5 comprises Test Switchboard TEST and test resistance Rtest, after Test Switchboard TEST connects with test resistance Rtest, one end is electrically connected with the zero line N of city's alternating current of input, and the other end and the output live wire L namely after the first zero sequence current mutual inductor ZCT1 is electrically connected.Process of the test: press Test Switchboard TEST, the live wire L through the first zero sequence current mutual inductor ZCT1 connects input zero-power line N by test resistance Rtest, produces a test current signal, and is cut off the electricity supply by above-mentioned abnormal dropout process; The reset key RESET of release coordinates with test switch TEST, can also be used as mains switch and use.

In the present embodiment, described voltage couples coil Lv adds around on the second zero sequence current mutual inductor ZCT2 of induction ground wire fault current, the translation function that transformer-coupled circuit can realize ground wire false voltage need not be increased like this, thoroughly can also avoid ground wire false voltage and major loop fault current with bad etc. by the phase place caused by an instrument transformer.

In the present embodiment, also comprise the second resistance R2 and the 6th electric capacity C6, the two ends after described second resistance R2 is in parallel with the 6th electric capacity C6 are connected electrically on the two ends of the first zero sequence current mutual inductor ZCT1 respectively.

In the present embodiment, also comprise the 3rd resistance R3 and the 7th electric capacity C7, the two ends after described 3rd resistance R3 is in parallel with the 7th electric capacity C7 are connected electrically on the two ends of the second zero sequence current mutual inductor ZCT2 respectively.

In the present embodiment, described one end added around the voltage couples coil Lv on the second zero sequence current mutual inductor ZCT2 is electrically connected with zero line N or pin N, the other end is electrically connected with input ground wire E or grounding pin E by change over switch Kv after pressure limiting resistance Rv is electrically connected again, when change over switch Kv is in closed conducting state, the failure voltage signal of ground wire (or lower margin) is by adding around the coil Lv on the second instrument transformer ZCT1, fault-current signal together with ground wire is coupled to instrument transformer output and is sent to the input 2 amplifying process ic chip, 3 pin, and drive tripping mechanism power-off to reach the object of safeguard protection.

In the present embodiment, described electronic switch 2 comprises bridge rectifier D W, current-limiting resistance R1, filter capacitor C1, controllable silicon Q, amplifies process ic chip and the second to the 5th electric capacity C2-C5, one input of wherein said bridge rectifier D W is electrically connected with the live wire L of city's alternating current by release JL, another input of bridge rectifier D W is electrically connected with the zero line N of city's alternating current, and the positive-negative output end of bridge rectifier D W is controllable silicon Q, amplification process ic chip provides direct-current working volts, described model of amplifying process ic chip is RT54123B, 8 pin amplifying process ic chip are electrically connected with the positive terminal of bridge rectifier D W output by current-limiting resistance R1, 4 pin amplifying process ic chip are connected with the public negative electricity of bridge rectifier D W output, 1 pin and 2 pin that amplify process ic chip are electrically connected with the two ends of the first zero sequence current mutual inductor ZCT1 respectively, the two ends of described filter capacitor C1 respectively with amplify 4 pin that process ic chip and 8 pin are electrically connected, the two ends of described second electric capacity C2 respectively with amplify 4 pin that process ic chip and 7 pin are electrically connected, the two ends of described 3rd electric capacity C3 respectively with amplify 6 pin that process ic chip and 7 pin are electrically connected, the two ends of described 4th electric capacity C4 respectively with amplify 4 pin that process ic chip and 5 pin are electrically connected, the two ends of described 5th electric capacity C5 respectively with amplify 2 pin that process ic chip and 4 pin are electrically connected, the anode of described controllable silicon Q and negative electrode are connected electrically in the positive-negative output end of bridge rectifier D W respectively, and output 7 pin that control end and the amplification of controllable silicon Q process ic chip is electrically connected.

When using the utility model, first change over switch Kv is placed in voltage turn-on gear, then the utility model is inserted on socket, press reset key RESET, three pairs of contacts of release JL are conducting state, and city's alternating current is powered to load and electrical appliance by the utility model; And supply electronic switching circuit power supply by tripping coil JL, bridge rectifier D W, current-limiting resistance R3 and filter capacitor C1; Under normal condition, major loop or ground wire are without leak current fault, the electronic switching circuit be made up of elements such as controllable silicon Q and amplification process ic chips is in static armed state, tripping coil JL is by the supply current of about 0.5mA, and its Weak magentic-field produced can not make release thread off.

When there is leak current fault in load appliance or ground wire, the electrical leakage voltage of ground wire E is by change over switch Kv, resistance Rv be added in the second zero sequence current mutual inductor ZCT2 adds around voltage couples coil Lv and zero line N between, be set in power line L, the second zero sequence current mutual inductor ZCT1 on N will sense ground wire failure voltage signal or ground wire fault-current signal immediately, and send it to the input 2 amplifying process ic chip, 3 pin, outputted to the control pole of controllable silicon Q by 7 pin after amplifying process, trigger controllable silicon Q conducting immediately by the both positive and negative polarity short circuit of bridge rectifier D W, the tripping coil two ends of release JL are made to be attempted by zero-power line N and live wire L, trip coil JL produces powerful electric current (about 750mA) immediately, the tripping operation of interlock tripping mechanism, by power firestreak, zero line and earth connection cut off simultaneously, when zero line N and the live wire L reversal connection of major loop, if ground wire also runs into the fault of electric leakage simultaneously, namely above-mentioned voltage couples circuit can lose efficacy, at this moment namely the second fault sensor circuit can play the effect of leakage current dropout power-off, compensate for the weak point of voltage transitions type, in addition because the coil of coupling ground wire false voltage adds around on the zero sequence current mutual inductor of induction ground wire fault current, so just thoroughly avoid ground wire failure voltage signal obscure with major loop fault-current signal together with cause phase place mutually superpose or offset, thus cause the bad phenomenon that ground wire fault trip voltage or total residual operating current (major loop adds ground wire) exceed standard, security performance is more reliable.

In the present embodiment, bridge rectifier D W comprises the bridge rectifier of four diodes formations and prevents this patent internal circuit from suffering the second piezo-resistance RU2 of surge voltage impact, and two ends of the second piezo-resistance RU2 are connected on the positive-negative output end of bridge rectifier.

In the present embodiment, go back between the zero line N and live wire L of city's alternating current and be connected to and prevent load appliance to be struck by lightning or the first piezo-resistance RU1 of surge voltage impact.

Below by reference to the accompanying drawings detailed description is made to execution mode of the present utility model, but the utility model is not limited to described execution mode.For the ordinary skill in the art, carry out multiple change, amendment, replacement and distortion when not departing from principle of the present utility model and aim to these execution modes still to fall within protection range of the present utility model.

Claims (6)

1. an electric current and voltage mixed type leakage protecting plug, is characterized in that comprising the release JL (1) of band three pairs of contacts, electronic switch (2), Fisrt fault sensor circuit (3) and the second fault sensor circuit (4); Wherein

The output of described electronic switch (2) is electrically connected with the live wire L of city's alternating current by release JL (1);

Three pairs of contacts of described release JL (1) are connected on ground wire E, zero line N and live wire L respectively, and release JL (1) also comprises the reset key (RESET) that three pairs of contacts are resetted;

Described Fisrt fault sensor circuit (3) comprises the first zero sequence current mutual inductor (ZCT1), on the zero line N that described first zero sequence current mutual inductor is set in city's alternating current and live wire L, the two ends of described first zero sequence current mutual inductor (ZCT1) are electrically connected with the bipod of electronic switch (2) input respectively;

Described second fault sensor circuit (4) comprises the second zero sequence current mutual inductor (ZCT2), voltage couples coil (Lv), change over switch (Kv) and pressure limiting resistance (Rv), described second zero sequence current mutual inductor (ZCT2) is set on ground wire E, one end serial connection pressure limiting resistance (Rv) of described voltage couples coil (Lv) and change over switch (Kv) are electrically connected with ground wire E or grounding pin E afterwards, the other end of voltage induced coil (Lv) is electrically connected with the zero line N of city's alternating current or pin N, the two ends of the second zero sequence current mutual inductor (ZCT2) are electrically connected with the bipod of electronic switch (2) another input respectively.

2. voltage transitions type leakage protecting plug according to claim 1, is characterized in that described electronic switch (2) comprises bridge rectifier (DW), controllable silicon (Q), amplifies process integrated package (IC), the first to the 5th electric capacity (C1-C5) and current-limiting resistance (R1); One input of wherein said bridge rectifier (DW) is electrically connected with the live wire L of city's alternating current by release JL (1), another input of bridge rectifier (DW) is electrically connected with the zero line N of city's alternating current, and the output of bridge rectifier (DW) is the controllable silicon (Q) of electronic switching circuit, amplification process integrated package (IC) provides direct-current working volts; described model of amplifying process integrated package (IC) is RT54123B, 8 pin amplifying process integrated package (IC) are electrically connected with the positive terminal of bridge rectifier (DW) output by current-limiting resistance (R1), 4 pin amplifying process integrated package (IC) are electrically connected with the public negative pole end of bridge rectifier (DW) output, 1 pin and 2 pin that amplify process integrated package (IC) are electrically connected with the two ends of the first zero sequence current mutual inductor (ZCT1) respectively, the two ends of described first power filtering capacitor (C1) respectively with amplify 4 pin that process integrated package (IC) and 8 pin are electrically connected, the two ends of described second electric capacity (C2) respectively with amplify 4 pin that process integrated package (IC) and 7 pin are electrically connected, the two ends of described 3rd electric capacity (C3) respectively with amplify 6 pin that process integrated package (IC) and 7 pin are electrically connected, the two ends of described 4th electric capacity (C4) respectively with amplify 4 pin that process integrated package (IC) and 5 pin are electrically connected, the two ends of described 5th electric capacity (C5) respectively with amplify 2 pin that process integrated package (IC) and 4 pin are electrically connected, the anode of described controllable silicon (Q) and negative electrode are connected electrically in two positive-negative output ends of bridge rectifier (DW) respectively, and output 7 pin that control end and the amplification of controllable silicon (Q) process integrated package (IC) is electrically connected.

3. voltage transitions type leakage protecting plug according to claim 1, is characterized in that described voltage couples coil (Lv) adds around on the second zero sequence current mutual inductor ZCT2 of induction ground wire (E) fault current.

4. voltage transitions type leakage protecting plug according to claim 1; characterized by further comprising the second resistance (R2) and the 6th electric capacity (C6), the two ends after described second resistance (R2) is in parallel with the 6th electric capacity (C6) are connected electrically on the two ends of the first zero sequence current mutual inductor (ZCT1) respectively.

5. voltage transitions type leakage protecting plug according to claim 1; characterized by further comprising the 3rd resistance (R3) and the 7th electric capacity (C7), the two ends after described 3rd resistance (R3) is in parallel with the 7th electric capacity (C7) are connected electrically on two outputs of the second zero sequence current mutual inductor (ZCT2) respectively.

6. voltage transitions type leakage protecting plug according to claim 1; it is characterized in that described hookup (5) comprises Test Switchboard (TEST) and test resistance (Rtest); described Test Switchboard (TEST) connect with test resistance (Rtest) after one end with pass the live wire L output of major loop instrument transformer and be electrically connected, the other end is electrically connected with zero line N input.