CN2575839Y - Radiator for chip heat radiation - Google Patents

Radiator for chip heat radiation Download PDF

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Publication number
CN2575839Y
CN2575839Y CN 02256638 CN02256638U CN2575839Y CN 2575839 Y CN2575839 Y CN 2575839Y CN 02256638 CN02256638 CN 02256638 CN 02256638 U CN02256638 U CN 02256638U CN 2575839 Y CN2575839 Y CN 2575839Y
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CN
China
Prior art keywords
armature
ground
static contact
movable contact
gfci
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Expired - Lifetime
Application number
CN 02256638
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Chinese (zh)
Inventor
吴志新
王银贤
张奎栋
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DONGZHENG ELECTRIC Co Ltd ZHEJIANG
Technical Institute of Physics and Chemistry of CAS
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DONGZHENG ELECTRIC Co Ltd ZHEJIANG
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Priority to CN 02256638 priority Critical patent/CN2575839Y/en
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Publication of CN2575839Y publication Critical patent/CN2575839Y/en
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Abstract

The utility model relates to a ground-fault interrupter with an opposition wiring protecting function, which comprises a casing, a pair of static contact pieces, a pair of moving contact pieces which can be contacted with and separated from the static contact pieces, an electromagnetic member used for generating electromagnetic force, an armature which is installed in the electromagnetic member by sliding and a frame body which is connected with the armature, wherein, the armature can move under the action of magnetic force; the frame body is driven to move between a first position and a second position along the shaft line of the electromagnetic member by the armature; at the first position, the frame body makes the moving contact pieces separated from the static contact pieces; at the second position, the frame body drives the moving contact pieces to be contacted with the static contact pieces; the electromagnetic member is switched on or off to control a circuit by a locking member used for fixing the armature at the second position and the failure detection in a circuit system. When a power supply line is reversely connected with a load line by the users not on purpose, the ground-fault interrupter can not be reset; when the power supply line is correctly connected with the load line, the ground-fault interrupter work normally again.

Description

Ground-fault interrupter with backing protection function
Technical field
The utility model relates to a kind of ground-fault interrupter, relates in particular to a kind of ground-fault interrupter that adopts electromagnetic releaser mechanism and have backing protection function.
Technical background
For sake of convenience, following ground-fault interrupter replaces with English translated name Ground Fault Circuit Interrupter prefix GFCI.
GFCI comprises that generally loam cake, release, reset key, feeler switch, the installation sheet that has grounding base and earthing screw, a pair of band of pedestal, band jack contact the stationary contact and the control circuit of the movable contact of silver point, a pair of band contact silver point.At present, owing to ground-fault interrupter can effectively prevent person electric shock and prevent equipment and the fire incident that earth fault causes, thereby be subjected to extensive use.
Along with science and technology development; ground-fault interrupter is to high-performance, intellectuality, multifunctional direction development; ground-fault interrupter in the past generally all adopts the mechanical type actuating mechanism; thereby brought certain limitation for the performance of entire product; often do not possess backing protection function, and parts processing and installation are all had higher requirement.
Existing GFCI socket not only can connect load by the jack of top cover of faceplate; can connect load by the load wiring screw again; thereby in installing and using, tend to because of false wiring input supply terminal (Line) and load end (Load) reversal connection; like this; if GFCI does not have the function of reverse-connection protection, just be equivalent to one not with the common socket of creepage protection function.Thereby a kind of GFCI with high security need be provided, it has reverse-connection protection, is active in one's movements, the characteristics of easy to assembly and more perfect function.
Summary of the invention
Main purpose of the present utility model provides a kind of GFCI with backing protection function that adopts electromagnetic release and corresponding control circuit.Wherein electromagnetic release makes this ground-fault interrupter have backing protection function, and when the careless reversal connection line of user, control circuit is not worked, thereby ground-fault interrupter can not reset; When correct installation and when pressing reset key, the ground-fault interrupter operate as normal.
According to above-mentioned purpose of the present utility model, a kind of ground-fault interrupter GFCI is provided, comprising: housing; Be installed in a pair of static contact and a pair of movable contact spring in the described housing, the mobile terminal that described movable contact spring comprises stiff end and can contact with static contact and separate with static contact with elastic type; Be installed in the electromagnetism spare in the described housing, comprise reset electromagnetism spare and the dropout electromagnetism spare that described movable contact spring is separated with described static contact that make described movable contact spring and described static contact contact; Be installed in armature in the described electromagnetism spare with sliding type to small part, described armature can move back and forth under magneticaction; The support body that links to each other with described armature, described support body can move between the primary importance and the second place at the axis of the described electromagnetism spare in the drive lower edge of described armature, in described primary importance, described support body makes movable contact spring separate with described static contact, in the described second place, described support body makes movable contact spring contact with described static contact; Be used for armature is fixed on the locking piece of the described second place; Control circuit comprises: a dropout control circuit makes above-mentioned dropout electromagnetism spare energising according to the testing result of fault, so that above-mentioned a pair of static contact separates with a pair of movable contact spring; A reset control circuit when reset switch is connected, makes the above-mentioned electromagnetism spare energising that resets, so that above-mentioned a pair of static contact contacts with a pair of movable contact spring.
Be provided with groove near described stiff end place on the described movable contact spring, have projection on the described support body, in described primary importance, described projection combines with described groove, and in the described second place, described support body promotes described movable contact spring by projection and contacts with described static contact.
Described support body comprises balancing stand and is fixed on the sliding support of described armature one end that described balancing stand is supported on the described sliding support by little spring.
The electromagnetism spare that resets that described movable contact spring is contacted with described static contact is a pull-in winding, the dropout electromagnetism spare that described movable contact spring and described static contact are disconnected is a tripping coil, described pull-in winding makes described armature move towards the second place when switching on, and described tripping coil makes described armature move towards primary importance when switching on.
Described locking piece be can by magnetic attraction armature one end and can with the permanent magnet of its adhesive.
Also comprise the resetting device that is used for making described pull-in winding energising by described control circuit, described resetting device has by back-moving spring and is installed in reset key and the wiring pin that resets that links to each other with described control circuit on the described housing, and described back-moving spring makes described reset key and resets and is in normal off between the binding post and opens state.
Described control circuit also comprises the neutral misconnection of an earth fault current testing circuit and ground protective circuit, and these two circuit are carried out separating of above-mentioned a pair of static contact and a pair of movable contact spring by above-mentioned dropout control circuit.
Described dropout control circuit and reset control circuit comprise the controllable silicon of an above-mentioned electromagnetism spare energising of control respectively.
Describe structure of the present utility model, feature and advantage in detail by describing preferred embodiment of the present utility model with reference to the accompanying drawings.
Description of drawings
Fig. 1 is the utility model GFCI stereo appearance figure;
Fig. 2 is the GFCI rigging position graph of a relation of expression the utility model release when being in trip status;
Fig. 3 is the utility model GFCI cut-away view;
Fig. 4 is the exploded view of the utility model GFCI;
Fig. 5 is the utility model electromagnetic releaser mechanism exploded view;
Fig. 6 is the utility model tripping mechanism rigging position figure;
Fig. 7 is the partial cross section view of the utility model GFCI trip status;
Fig. 8 is the partial cross section view from the utility model GFCI trip status of Fig. 7 rightabout demonstration;
Fig. 9 is the partial cross section view of the utility model GFCI closure state;
Figure 10 is the circuit diagram of the utility model GFCI;
Embodiment
Fig. 1 is the outside drawing of the utility model GFCI; Wherein 40 is that installation sheet, 31 is that load power source jack, 32 is that circular earth jack, 60 is that reset key, 50 is that feeler switch, 30 is that loam cake, 113 is that earthing screw (green), 110 is that power supply wiring screw, 10 is that pedestal, 111 is that load wiring screw, 114 is an indicator light (LED).This figure is the GFCI outside drawing of electric current 20A, the utility model also provides the GFCI of other types, and the GFCI of these types has tape light and two kinds of structures of tape light not, and its operation principle all is the same, and the electric current 20A GFCI of tape light mainly is described here.
Fig. 2 shows whole GFCI each parts position relation at trip status.Each parts mainly is to be located by pedestal 10, central dividing plate 20, loam cake 30.GFCI of the present utility model provides electromagnetic release, permanent magnet 71 is embedded in an end of coil rack 70, the outside is with radome 72, and an end of radome 72 abuts against on the sidewall of pedestal 10 1 ends, and coil rack 70 is positioned on the circuit board 90 by four wiring pin; Magnet ring skeleton 80 is milled by its bottom one side, and positioning hole corresponding positions on flat garden core and the circuit board 90; its protruding U type groove just is stuck in the groove of reserving on the central dividing plate, dress magnetic test coil 81 and the neutral misconnection ground protection coil 83 middle insulating barriers 82 that are separated with thereon.Magnetic test coil 81 is made up of high initial permeability soft magnetism punching lamination, by the silicone grease bonding, plastics protection box is arranged outward between every, forms with the enamelled wire coiling.The ferrite that neutral misconnection ground protection coil 83 is coated with the plastics protective layer by wide temperature coefficient, high μ value, outward constitutes around enamelled wire; Slidably support 79 is injection-moulded in armature 75 heat, and when utilizing the elastic force of dropout spring 76 to hold it in trip status, slidably support 79 abuts against on the magnet ring skeleton 80; Slidably have circular port in the middle of the upper end of support 79, the bottom of circular port is placed with a little spring 78 and is used for balance support frame 77, and balancing stand 77 cooperates with the square upper end of support 79 slidably by corresponding groove and is subjected to axial location.Like this, the effect of the electromagnetic force that produces during by pull-in winding 73 or tripping coil 74 energisings and the magnetic field force of permanent magnet drives slidably support 79 by armature 75, and slidably support 79 drive balancing stands 77 move around in the bow type groove of coil rack 70; Utilize the restoring force jack-up counterbore of back-moving spring 62 and contact chip 61 heat to be injection-moulded in together reset key 60, an end of back-moving spring 62 is pressed on the circular counter bore of installation sheet 40; Utilize the elastic force jack-up feeler switch 50 of test pieces 51, make it just equal with the upper surface of loam cake.
As shown in Figure 3, a pair of static contact 100A and the 100B that contact silver point 101 of having is fixed on the central dividing plate 20; The installation sheet 40 that has grounding base 41 and earthing screw 113 is stuck on the central dividing plate 20, utilizes loam cake 30 to compress it; One end of test pieces is inserted in the central dividing plate 20 corresponding draw-in grooves, and its outside abuts against the inboard of static contact 100B, the other end can be flexibly be installed in correspondence position on test resistance 52 1 ends contact; The contact chip 61 that is injection-moulded in reset key 60 heat utilizes the restoring force of back-moving spring 62 flexibly to contact with the wiring pin 63 that resets, and comes the homing action of automatically controlled release by it.
Fig. 4 is the exploded view of whole GFCI; As shown in the figure, whole GFCI mainly comprises pedestal 10, central dividing plate 20, loam cake 30, has the installation sheet 40 of grounding base 41 and earthing screw 113, a pair of movable contact spring 102A and 102B, a pair of static contact 100A and 100B, electromagnetic releaser mechanism, resetting device, mechanism for testing and the control circuit that contacts silver point 101 that have that contacts silver point 103 that have.
Electromagnetic releaser mechanism mainly comprises: coil rack 70, permanent magnet 71, radome 72, pull-in winding 73, tripping coil 74, armature 75, dropout spring 76, balancing stand 77, be used to provide the little spring 78 of certain contact stress, slidably support 79, binding post 701.
Resetting device mainly comprises: reset key 60, the back-moving spring 62 that is injection-moulded in contact chip heat, wiring pin 63 resets.
Mechanism for testing mainly comprises; Feeler switch 50, test pieces 51, test resistance 52, magnet ring skeleton 80, magnetic test coil 81, insulating barrier 82, neutral misconnection ground protection coil 83.Also comprise power supply terminal 104, tension disc 105, power supply wiring screw 110, load wiring screw 111 and circuit board 90 in addition.All parts utilize four trip bolts 115 fastening after pressing diagramatic way and position assembling.Utilize the reset key slide opening 33 of loam cake 30 and the cooperation of reset key 60 to make axial location, same feeler switch 50 is also located by feeler switch 50 and cooperating of feeler switch slide opening 34.The end of movable contact spring 102A, 102B passes magnet ring skeleton 80, and with its solid welding, the other end can resilient bias at the lower surface of circuit board.
Fig. 5 is the amplification decomposition figure of electromagnetic releaser mechanism among Fig. 4.Because slidably support 79 and armature 75 are that heat is injection-moulded in together, thereby, will drive slidably when mobile when armature 75 is stressed that slide block 79A, the 79B of support 79 both sides move around in chute 70A, 70B, and slidably support 79 drive balancing stands 77 move, thereby realize the action that GFCI is closed and thread off.
Fig. 6 shows the cooperation position relation after the electromagnetic releaser mechanism assembling.Partial cross section view when Fig. 7,8, the 9th, the utility model GFCI are in dropout and closure state respectively.Produce of the effect of the magnetic field force of electromagnetic force and permanent magnet 71 during by pull-in winding 73 and tripping coil 74 energisings, can make armature 75 drive balancing stand 77 and move around with elastic type to armature 75.Because employing has movable contact spring 102A, the 102B of special shape and projection 77A, the 77B of balancing stand 77 both sides forms matching relationship, therefore as GFCI during at trip status, projection 77A, the 77B of balancing stand 77 both sides just lays respectively in V-type groove A, the B of movable contact spring 102A, 102B.Like this, when pull-in winding 73 energisings, driving balancing stand 77 indirectly after armature 75 is stressed moves, and projection 77A, the 77B of balancing stand 77 both sides give corresponding power of movable contact spring 102A, 102B, force movable contact spring 102A, 102B to carry out strain, cause the perpendicular direction of movable contact spring 102A, 102B edge and armature 75 moving directions to move; When an end of armature 75 and permanent magnet 71 mutually during adhesive, balancing stand 77 both sides projection 77A, 77B upside just are in the horizontal bending part of V-type groove A, B respectively.And this moment, movable contact contact silver point 103 contacts silver point 101 and contacts with stationary contact, and provides certain contact stress by little spring 78, the GFCI closure.Because the relation that has adopted movable contact spring with special shape and balancing stand to cooperatively interact can promptly be threaded off this tripping mechanism, and is prevented owing to misoperation makes the armature adhesive.
Figure 10 is the typical GFCI circuit diagram of the utility model; Diode D 1~D 4Constitute rectification circuit, the alternating current of input is become the direct current of output, thereby usually also be referred to as DC circuit.D 1, D 2The junction, D 3, D 4The junction constitutes ac input end and is connected D with power supply (Line) end of GFCI 2, D 4The junction is the DC power supply load end, herein afterwards narration claim " ".D 1, D 3The junction is DC power supply anode and filter resistance R 4Connect R 4The other end and filter capacitor C 5One end connects, C 5The other end is connected with ground, capacitor C 5Direct voltage about the 26V of two ends is the DC power supply of electronic circuit.
Reset switch RESET, resistance R 2, capacitor C 6, resistance R 3, capacitor C 7, controllable silicon VD 5, pull-in winding J 2, disconnect K etc. constitutes a reset control circuit; Wherein reset switch RESET and R 4, C 5Link to each other the reset switch RESET other end and R 2, C 6Link to each other R 2, C 6The other end and controllable silicon VD 5The control utmost point, R 3And C 7Link to each other, at controllable silicon VD 5The control utmost point connects one and R 3Capacitor C in parallel 7, this electric capacity plays anti-interference effect; Controllable silicon VD 5Negative electrode, R 3, C 7With D 2, D 4Link to each other pull-in winding J 2One end links to each other with the GFCI power end, the other end and controllable silicon VD 5Anode links to each other.Disconnect K one end is connected with power end Line, and the other end is connected with load end Load, and the contact that this disconnect is connected with power end is the GFCI movable contact and contacts silver point 103, and the contact that is connected with load end is the GFCI stationary contact and contacts silver point 101; The power supply of control circuit links to each other with the power end of GFCI, and when GFCI was charged, the GFCI control circuit was simultaneously charged.When reset switch was switched on, DC power supply was passed through capacitor C 6Charging is at R 3Produce the triggering signal that 20~40mS is arranged approximately, this signal makes controllable silicon VD 5Conducting, pull-in winding 73 is by electric current, and be about 20~40mS its conduction time, that is to say that pull-in winding 73 can produce the electromagnetic force that a time is about 20~40mS and act on armature 75.Cause disconnect K closure, promptly GFCI is in reset mode.
Integrated IC amplifying circuit is GFCI application-specific integrated circuit (ASIC) RV4145A or integrated circuit RV2145.
Pass the output shunt capacitance C of the magnetic test coil of two power lines simultaneously 0, an end series capacitance C 1, C 1The other end and resistance R 5Serial connection, R 5The other end be connected with input 1 pin of IC, another input 3 pin of the other end of magnetic test coil and IC connect and compose transformer coupled differential input circuit.Wherein, R1 is that feedback resistance one end is connected with IC pin 1, and the other end is connected R with IC output 7 pin 1The resistance size determines the IC multiplication factor, promptly determines the size of GFCI dropout action failure current value.
Pass the neutral misconnection ground protection coil N of two power lines simultaneously 2, capacitor C 2, capacitor C 3Constitute a neutral misconnection ground protective circuit; Neutral coil N 2Two ends and capacitor C 2Parallel connection, one end and capacitor C 3Connect other end ground connection, capacitor C 3The other end is connected with IC output 7 pin.Neutral misconnection ground protection is by N 1, N 2Constitute the sine-wave oscillator that transformer coupled frequency of oscillation is about 5KHz, when neutral misconnection ground phenomenon takes place, this oscillator starting of oscillation, when amplitude reaches the IC threshold values, 5 pin of IC output triggering signal, the release action, GFCI disconnects.
Tripping coil J 1, controllable silicon VD 7, capacitor C 4Deng dropout control circuit of formation; Wherein, tripping coil J 1Power supply (Line) end of an end and GFCI be connected the other end and controllable silicon VD 7Anode connect controllable silicon VD 7Trigger electrode be connected controllable silicon VD with IC triggering signal output 5 pin 7Minus earth is at controllable silicon VD 7Anti-interference capacitor C in parallel between trigger electrode and the ground 4Magnetic test coil N 2Detect two power lines by electric current vector and, this vector and be zero during the fault-free electric current at ordinary times, when fault current, this vector and non-vanishing, when fault current increased to the 5mA left and right sides, the magnetic test coil secondary can induce the voltage signal about about 10mV, this signal amplifies through IC, when this signal reaches the setting threshold values (this threshold values is determined by resistance R 1), the 5 pin output triggering signal of IC makes controllable silicon VD 7Conducting, tripping coil J 1Charged, release is threaded off at the appointed time, GFCI disconnects.
Feeler switch (TEST), test resistance R 0Constitute a test circuit; Wherein, test resistance R 0Be connected R with power end 0The other end is connected with feeler switch (TEST), and the feeler switch other end is connected with the other end of load (Load).Test circuit is the fault current that 8mA is provided to GFCI, makes regular check on the GFCI operating state.
Power end piezo-resistance Mov in parallel, when suddenly high voltage being arranged in the power supply, but transient absorption high voltage and playing a protective role.
GFCI can be set simultaneously connect indicating circuit; Light-emitting diode VD in its circuit 6One end is connected VD with load (Load) end 6The other end and current-limiting resistance R 6One end connects, R 6The other end is connected with load (Load) other end, and when GFCI connected, light-emitting diode was shinny.
When the reversal connection line, power supply and load line (Load) end links to each other, and before disconnect K did not have closure, control circuit was uncharged like this, and again because this GFCI employing electric-controlled type resets, and control circuit just can not make pull-in winding J when not charged 1Energising.That is to say that in this case pull-in winding can not produce a corresponding electromagnetic force and act on armature, so GFCI just can not switch on, thereby reach backing protection function.
In sum; employing electromagnetic release provided by the utility model and automatically controlled mode are controlled the GFCI that resets and are had backing protection function; when power line and load line reversal connection; the control circuit no power; thereby GFCI can not reset, and when power line correctly is connected with load line, makes the pull-in winding energising by pressing reset key; and and permanent magnet acting in conjunction and rapid closing active and static contact, so this stoppage circuit breaker is simple in structure and operation is very easy.

Claims (8)

1, a kind of ground-fault interrupter GFCI comprises:
Housing (10,20,30);
Be installed in a pair of static contact (100A, 100B) and a pair of movable contact spring (102A, 102B) in the described housing (10,20,30), described movable contact spring (102A, 102B) comprises stiff end and the mobile terminal that can contact with static contact (100A, 100B) and separate with static contact with elastic type;
Be installed in the electromagnetism spare (73,74) in the described housing (10,20,30), comprise the electromagnetism spare that resets (73) and the dropout electromagnetism spare (74) that described movable contact spring is separated with described static contact that make described movable contact spring and described static contact contact;
Be installed in the interior armature (75) of described electromagnetism spare (73,74) with sliding type to small part, described armature (75) can move back and forth under magneticaction;
The support body (77,79) that links to each other with described armature (75), described support body (77,79) can move between the primary importance and the second place at the axis of the described electromagnetism spare in the drive lower edge of described armature (75) (73,74), in described primary importance, described support body (77,79) makes movable contact spring (102A, 102B) separate with described static contact (100A, 100B), in the described second place, described support body (77,79) makes movable contact spring (102A, 102B) contact with described static contact (100A, 100B);
Be used for armature (75) is fixed on the locking piece (71) of the described second place;
Control circuit comprises: a dropout control circuit makes above-mentioned dropout electromagnetism spare (74) energising according to the fault detect result, so that above-mentioned a pair of static contact (100A, 100B) separates with a pair of movable contact spring (102A, 102B); A reset control circuit when reset switch is connected, makes the above-mentioned electromagnetism spare that resets (73) energising, so that above-mentioned a pair of static contact (100A, 100B) contacts with a pair of movable contact spring (102A, 102B).
2, ground-fault interrupter GFCI as claimed in claim 1,, it is characterized in that:
Described movable contact spring (102A, 102B) is gone up near described stiff end place and is provided with groove (A, B), has projection (77A, 77B) on the described support body (77,79), in described primary importance, described projection (77A, 77B) combines with described groove (A, B), in the described second place, described support body (77,79) promotes described movable contact spring (102A, 102B) by projection (77A, 77B) and contacts with described static contact (100A, 100B).
3, claim 1 or 2 described ground-fault interrupter GFCI is characterized in that:
Described support body (77,79) comprises balancing stand (77) and is fixed on the sliding support (79) of described armature (75) one ends that described balancing stand (77) is bearing on the described sliding support (79) by little spring (78).
4, ground-fault interrupter GFCI as claimed in claim 1 is characterized in that:
The electromagnetism spare that resets (73) that described movable contact spring is contacted with described static contact is pull-in winding (73), the dropout electromagnetism spare (74) that described movable contact spring and described static contact are disconnected is tripping coil (74), during described pull-in winding (73) energising described armature (75) is moved towards the second place, during described tripping coil (74) energising described armature (75) is moved towards primary importance.
5, ground-fault interrupter GFCI as claimed in claim 1 is characterized in that:
Described locking piece (71) be can by magnetic attraction armature 75 1 ends and can with the permanent magnet of its adhesive, the confining force of the magnetic force that utilizes described permanent magnet during as described ground-fault interrupter closure state.
6, ground-fault interrupter GFCI as claimed in claim 1 is characterized in that:
Also comprise the resetting device that is used for making described pull-in winding (73) energising by described control circuit, described resetting device has by back-moving spring (62) and is installed in reset key (60) and the wiring pin that resets (63) that links to each other with described control circuit on the described housing, and described back-moving spring (62) makes and is in normal off between described reset key (60) and the wiring pin that resets (63) and opens state.
7, ground-fault interrupter GFCI as claimed in claim 1; it is characterized in that; described control circuit also comprises the neutral misconnection of a fault current testing circuit and ground protective circuit, and these two circuit are carried out separating of above-mentioned a pair of static contact (100A, 100B) and a pair of movable contact spring (102A, 102B) by the dropout control circuit.
8, ground-fault interrupter GFCI as claimed in claim 1 is characterized in that described dropout control circuit and reset control circuit comprise the controllable silicon of an above-mentioned electromagnetism spare of control (73,74) energising respectively.
CN 02256638 2002-10-09 2002-10-09 Radiator for chip heat radiation Expired - Lifetime CN2575839Y (en)

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Application Number Priority Date Filing Date Title
CN 02256638 CN2575839Y (en) 2002-10-09 2002-10-09 Radiator for chip heat radiation

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Application Number Priority Date Filing Date Title
CN 02256638 CN2575839Y (en) 2002-10-09 2002-10-09 Radiator for chip heat radiation

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100347800C (en) * 2003-12-26 2007-11-07 温州三蒙科技电气有限公司 Ground fault interrupter with reset lock and protector
US7298236B2 (en) 2005-04-27 2007-11-20 Jingzheng Chen Circuit breaker electromagnetic tripping device
CN101540250A (en) * 2009-04-23 2009-09-23 乐清市南岛机电有限公司 Ground-fault circuit interrupter
CN102185222A (en) * 2011-03-01 2011-09-14 浙江万盛电气有限公司 Leakage protection socket with reverse wiring protection function

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100347800C (en) * 2003-12-26 2007-11-07 温州三蒙科技电气有限公司 Ground fault interrupter with reset lock and protector
US7298236B2 (en) 2005-04-27 2007-11-20 Jingzheng Chen Circuit breaker electromagnetic tripping device
CN101540250A (en) * 2009-04-23 2009-09-23 乐清市南岛机电有限公司 Ground-fault circuit interrupter
CN101540250B (en) * 2009-04-23 2014-07-23 乐清市南岛机电有限公司 Ground-fault circuit interrupter
CN102185222A (en) * 2011-03-01 2011-09-14 浙江万盛电气有限公司 Leakage protection socket with reverse wiring protection function
CN102185222B (en) * 2011-03-01 2013-08-28 浙江万盛电气有限公司 Leakage protection socket with reverse wiring protection function

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