CN202997505U - Highly-sensitive earth-wire live voltage protection device - Google Patents
Highly-sensitive earth-wire live voltage protection device Download PDFInfo
- Publication number
- CN202997505U CN202997505U CN 201120358700 CN201120358700U CN202997505U CN 202997505 U CN202997505 U CN 202997505U CN 201120358700 CN201120358700 CN 201120358700 CN 201120358700 U CN201120358700 U CN 201120358700U CN 202997505 U CN202997505 U CN 202997505U
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- circuit
- voltage
- transformer
- ground wire
- voltage protection
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Abstract
Provided is a highly-sensitive earth-wire live voltage protection device. The highly-sensitive earth-wire live voltage protection device comprises three electrodes of a phase line L, a null line N and an earth wire E each having a switch, a zero-sequence current transformer passing through the phase line L and the null line N, a testing circuit, a first amplification circuit, a release, a rectification circuit, a power step-down circuit, and a silicon controlled rectifier. The highly-sensitive earth-wire live voltage protection device also comprises a transformer and a second amplification circuit. One end of a primary coil of the transformer is connected with the earth wire E, and the other end of the primary coil of the transformer is connected in series with a high-resistance current-limiting voltage-reducing circuit and then is connected with the null line N. A secondary coil of the transformer is connected with an input end of the second amplification circuit. A working power source of the second amplification circuit and a working power source of the first amplification circuit are together connected with the power step-down circuit. An output end of the second amplification circuit is connected in series with a reverse voltage isolating circuit and a trigger electrode of the silicon controlled rectifier. An output end of the first amplification circuit is also connected in series with a reverse voltage isolating circuit and then is connected with the trigger electrode of the silicon controlled rectifier. In this way, the live tripping voltage of the earth wire is guaranteed not to be greater than a safety voltage, thereby preventing false operation and false alarm.
Description
Technical field
The utility model is the tape voltage protection with sensitivity.
Background technology
existing band earth wire live protector, as all-purpose leakage protection plug, generally refer to and to disconnect when electric leakage appears in the phase zero line at protective device (plug), can disconnect when being also included within ground wire electrification, it generally comprises the phase that is connected with fixed contact by the movable contact flexure strip, zero, ground three utmost points, pass phase, zero sequence current mutual inductor between zero line, the test loop, amplifying circuit, rectifier, controllable silicon, release, pass the zero sequence current mutual inductor of ground wire, it is except detecting the load phase, have or not outside leakage current between zero line, whether also detect ground wire has leakage current to pass through, work as phase line, when zero line or ground wire leakage current occurs respectively or simultaneously, two magnetic test coils all can make release immediately with phase, zero, ground wire all disconnects, namely cut off the electricity supply, thereby effectively ensured personal safety, therefore be widely applied in household electrical appliance.
Prevent fail safe, the validity of ground wire electrification in order to strengthen all-purpose leakage protection plug; the applicant has developed the all-purpose leakage protection plug of multiple ground wire live trip in succession; increased the contact with alarm of charged ground wire circuit; detection mode by multiple detection ground wire electrification is coordinating of neon lamp and light-sensitive element for example; can can produce warning when ground wire electrification; the prompting user takes measures, and stops using electrical equipment, thereby has further improved the security performance of leakage protecting plug.
But above-mentioned all-purpose leakage protection plug is talented following weak point also: when 1, zero-sequence transformer detected electric current on utilizing ground wire, the electric current on user's ground wire was very complicated, and generation current causes mistrip easily and between the earth.2, coordinate with light-sensitive element when neon lamp when detecting ground wire voltage, the starting voltage of neon lamp is more than 70V, thus can't be in safe voltage trip protection.
Summary of the invention
Technical problem to be solved in the utility model is overcome the defects of prior art and a kind of voltage protection of tape with sensitivity is provided, and can cut off the electricity supply rapidly when ground wire electrification exceeds safe voltage.
the utility model solves the problems of the technologies described above the technical scheme that adopts: tape voltage protection with sensitivity, the phase line L that comprises each belt switch, zero line N, ground wire E three utmost points, pass phase line L, the zero sequence current mutual inductor of zero line N, hookup, the first amplifying circuit, release, rectification circuit, the power supply step-down, controllable silicon, it is characterized in that: a transformer and the second amplifying circuit also are set, primary coil one end of transformer is connected with ground wire E, transformer the large resistance current limliting reduction voltage circuit of primary coil other end serial connection after be connected with zero line N, the secondary coil of transformer is connected with the input of the second amplifying circuit, the working power of the second amplifying circuit is connected with the silicon controlled trigger electrode with the working power of the first amplifying circuit is connected the second amplifying circuit jointly with the power supply reduction voltage circuit output series-opposing voltage isolation circuit, the output of the first amplifying circuit is connected with the silicon controlled trigger electrode after also being connected in series a reverse voltage buffer circuit.
Better: the iron core of above-mentioned transformer is annular, and primary coil is around a side of annular core, and secondary coil like this can be high pressure resistant around the opposite side of annular core.
Better: above-mentioned large resistance current limliting reduction voltage circuit is insulation resistance or electric capacity.
Better: connect induced voltage between the input of above-mentioned zero line N, ground wire E and eliminate circuit.
Better: connect the ground wire electrification indicating circuit between the input of above-mentioned zero line N, ground wire E.
Better: above-mentioned ground wire electrification indicating circuit is that neon bulb is connected with resistance.
Compared with prior art, the utility model has the advantage of: owing between the input of zero line and ground wire, transformer being set, therefore can guarantee that ground wire live trip voltage is not more than safe voltage.
Also eliminate circuit by connect induced voltage between the input of zero line N, ground wire E, prevent because there being induced voltage to make the misoperation of tape voltage protection and false alarm with sensitivity in ground wire.
Description of drawings
Fig. 1 is the circuit theory schematic diagram of the utility model embodiment.
Fig. 2 is the physical circuit schematic diagram of the utility model embodiment.
Embodiment
Embodiment is described in further detail the utility model below in conjunction with accompanying drawing.
as shown in Figure 1, tape voltage protection with sensitivity, the phase line L that comprises belt switch K, zero line N, ground wire E three utmost points, pass phase line L, the zero sequence current mutual inductor ZCT1 of zero line N, hookup, the first amplifying circuit IC1, release, rectification circuit, the power supply step-down, controllable silicon SCR, transformer ZCT2, two ends and zero line N after the primary coil one end serial connection current limliting reduction voltage circuit of transformer ZCT2, the input of ground wire E connects, the secondary coil of instrument transformer ZCT2 is connected with the input of the second amplifying circuit IC2, the working power of the second amplifying circuit IC2 is connected with the power supply reduction voltage circuit jointly with the working power of the first amplifying circuit IC1, the output series-opposing voltage isolation circuit of the second amplifying circuit IC2 is connected with the trigger electrode of controllable silicon SCR, the output of the first amplifying circuit IC1 is connected with the trigger electrode of controllable silicon SCR after also being connected in series a reverse voltage buffer circuit.
Connect induced voltage between the input of above-mentioned zero line N, ground wire E and eliminate circuit.
Specific embodiment as shown in Figure 2; the phase line L of belt switch K, zero line N, ground wire E three utmost points; zero sequence current mutual inductor ZCT, hookup R3, AN, the first amplifying circuit IC1, release, rectification circuit DC, power supply reduction voltage circuit R6, the controllable silicon SCR of passing phase line L, zero line N are original circuit for electric leakage protector, and second amplifying circuit IC2 of increase, transformer ZCT2, dropping resistor R1, R2, an induced voltage are eliminated capacitor C 1, band electric alarm neon bulb H in original leakage protection circuit.
the output of the second amplifying circuit IC2 of the first amplifying circuit IC1 and increase respectively is connected in series one as the diode D1 of reverse voltage buffer circuit, D2 is connected with the controllable silicon SCR trigger electrode, diode D1, the positive pole of D2 and the first amplifying circuit IC1, the output of the second amplifying circuit IC2 connects, diode D1, the negative pole of D2 is connected with the trigger electrode of controllable silicon SCR, diode D1, each shunt capacitance of D2 C2, C3, shunt capacitance C4 between controllable silicon trigger electrode and negative pole, the secondary coil of transformer ZCT2 is connected with the input of the second amplifying circuit, be attempted by zero line N after the resistance R 2 of the large resistance of primary coil one end series connection of transformer ZCT2, the input of ground wire E.
The resistance of above-mentioned resistance R 2 should make circuit satisfy insulating requirements.
Above-mentioned resistance R 2 also can be replaced with electric capacity.
Be connected between the input of above-mentioned zero line N, ground wire E as the ground wire electrification indicating circuit after neon bulb H, current limliting dropping resistor R1 series connection, local tape piezoelectric voltage reaches when neon bulb H lights voltage will light neon bulb H, the expression ground wire is charged, can warn the user.If zero line N and live wire L connect instead, and ground wire E and not exclusively insulation of ground, also can produce voltage between zero line N, ground wire E and make earth leakage protective device tripping operation and neon bulb light warning, avoid zero line N and live wire L to connect instead, make electrical appliance under wiring normality lack of standardization.
Connect capacitor C 1 between the input of above-mentioned zero line N, ground wire E and do induced voltage elimination circuit, capacitor C 1 is utilized the principle that alternating current can conducting, the induced voltage that can eliminate ground wire E not enter ground and produce on ground wire E, thus can not cause mistrip and false alarm.
When ground wire E is charged; just have voltage between zero line N and ground wire E; being connected in the primary coil of the transformer ZCT2 between zero line N and ground wire E just has electric current to flow through; the secondary coil that ground wire voltage detects instrument transformer ZCT2 can induce voltage and trigger controlled silicon conducting and make the release tripping operation of threading off to the controllable silicon SCR trigger electrode through diode D2 after the second amplifying circuit IC2 amplifies, thereby makes the earth leakage protective device outage.Voltage between this moment zero line N and ground wire E reaches neon bulb H and lights voltage, and the neon bulb H that is connected between zero line N and ground wire E will be lit, and represents that ground wire E is charged and reports to the police.
Diode D1, D2 are the principles of utilizing its one-way conduction, and two amplifying circuit IC1, IC2 output are isolated mutually, can not cause output voltage to be shunted and affect the trigger current of controllable silicon SCR.
Above-mentioned capacitor C 2, C3, C4 can improve antijamming capability.
Regulating resistance R5 of the parallel connection of secondary windings of above-mentioned transformer ZCT2, regulating resistance R5 can change the tripping voltage between zero line N, ground wire E.
Above-mentioned transformer just makes the release tripping operation through number of turn proportioning first, inferior coil when ground wire voltage surpasses the 36V safe voltage.
Claims (10)
1. tape voltage protection with sensitivity, the phase line L that comprises each belt switch, zero line N, ground wire E three utmost points, pass phase line L, the zero sequence current mutual inductor of zero line N, hookup, the first amplifying circuit, release, rectification circuit, the power supply step-down, controllable silicon, it is characterized in that: a transformer and the second amplifying circuit also are set, primary coil one end of transformer is connected with the input of ground wire E, be connected with the input of zero line N after the large resistance current limliting reduction voltage circuit of primary coil other end serial connection of transformer, the secondary coil of transformer is connected with the input of the second amplifying circuit, the working power of the second amplifying circuit is connected with the power supply reduction voltage circuit jointly with the working power of the first amplifying circuit, the output series-opposing voltage isolation circuit of the second amplifying circuit is connected with the silicon controlled trigger electrode, the output of the first amplifying circuit is connected with the silicon controlled trigger electrode after also being connected in series a reverse voltage buffer circuit.
2. the voltage protection of tape with sensitivity as claimed in claim 1, it is characterized in that: described large resistance current limliting reduction voltage circuit is insulation resistance or electric capacity.
3. the voltage protection of tape with sensitivity as claimed in claim 1 or 2 is characterized in that: the iron core of described transformer is annular, and primary coil is around a side of annular core, and secondary coil is around the opposite side of annular core.
4. the voltage protection of tape with sensitivity as claimed in claim 1 or 2, is characterized in that: connect induced voltage between the input of described zero line N, ground wire E and eliminate circuit.
5. the voltage protection of tape with sensitivity as claimed in claim 4 is characterized in that: it is electric capacity that described induced voltage is eliminated circuit.
6. the voltage protection of tape with sensitivity as claimed in claim 1 or 2, is characterized in that: connect the ground wire electrification indicating circuit between the input of described zero line N, ground wire E.
7. the voltage protection of tape with sensitivity as claimed in claim 6, it is characterized in that: described ground wire electrification indicating circuit is that neon bulb is connected with resistance.
8. the voltage protection of tape with sensitivity as claimed in claim 1 or 2, is characterized in that: regulating resistance of the parallel connection of secondary windings of described transformer.
9. the voltage protection of tape with sensitivity as claimed in claim 3, is characterized in that: regulating resistance of the parallel connection of secondary windings of described transformer.
10. the voltage protection of tape with sensitivity as claimed in claim 4, is characterized in that: regulating resistance of the parallel connection of secondary windings of described transformer.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201120358700 CN202997505U (en) | 2011-09-23 | 2011-09-23 | Highly-sensitive earth-wire live voltage protection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN 201120358700 CN202997505U (en) | 2011-09-23 | 2011-09-23 | Highly-sensitive earth-wire live voltage protection device |
Publications (1)
Publication Number | Publication Date |
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CN202997505U true CN202997505U (en) | 2013-06-12 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN 201120358700 Expired - Lifetime CN202997505U (en) | 2011-09-23 | 2011-09-23 | Highly-sensitive earth-wire live voltage protection device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103022970A (en) * | 2011-09-23 | 2013-04-03 | 钱加灿 | High-sensitivity earth wire voltage protection device |
-
2011
- 2011-09-23 CN CN 201120358700 patent/CN202997505U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103022970A (en) * | 2011-09-23 | 2013-04-03 | 钱加灿 | High-sensitivity earth wire voltage protection device |
CN103022970B (en) * | 2011-09-23 | 2018-05-22 | 钱加灿 | Tape voltage protection with sensitivity |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20130612 Effective date of abandoning: 20180522 |
|
AV01 | Patent right actively abandoned |