CN107918042A - A kind of single-phase wire current detection device - Google Patents
A kind of single-phase wire current detection device Download PDFInfo
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- CN107918042A CN107918042A CN201711223011.6A CN201711223011A CN107918042A CN 107918042 A CN107918042 A CN 107918042A CN 201711223011 A CN201711223011 A CN 201711223011A CN 107918042 A CN107918042 A CN 107918042A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R15/00—Details of measuring arrangements of the types provided for in groups G01R17/00 - G01R29/00, G01R33/00 - G01R33/26 or G01R35/00
- G01R15/14—Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks
- G01R15/16—Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks using capacitive devices
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R15/00—Details of measuring arrangements of the types provided for in groups G01R17/00 - G01R29/00, G01R33/00 - G01R33/26 or G01R35/00
- G01R15/14—Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks
- G01R15/18—Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks using inductive devices, e.g. transformers
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R15/00—Details of measuring arrangements of the types provided for in groups G01R17/00 - G01R29/00, G01R33/00 - G01R33/26 or G01R35/00
- G01R15/14—Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks
- G01R15/20—Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks using galvano-magnetic devices, e.g. Hall-effect devices, i.e. measuring a magnetic field via the interaction between a current and a magnetic field, e.g. magneto resistive or Hall effect devices
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R19/00—Arrangements for measuring currents or voltages or for indicating presence or sign thereof
- G01R19/165—Indicating that current or voltage is either above or below a predetermined value or within or outside a predetermined range of values
- G01R19/16566—Circuits and arrangements for comparing voltage or current with one or several thresholds and for indicating the result not covered by subgroups G01R19/16504, G01R19/16528, G01R19/16533
- G01R19/16571—Circuits and arrangements for comparing voltage or current with one or several thresholds and for indicating the result not covered by subgroups G01R19/16504, G01R19/16528, G01R19/16533 comparing AC or DC current with one threshold, e.g. load current, over-current, surge current or fault current
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R29/00—Arrangements for measuring or indicating electric quantities not covered by groups G01R19/00 - G01R27/00
- G01R29/16—Measuring asymmetry of polyphase networks
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R29/00—Arrangements for measuring or indicating electric quantities not covered by groups G01R19/00 - G01R27/00
- G01R29/18—Indicating phase sequence; Indicating synchronism
Abstract
The present invention relates to a kind of single-phase wire current detection device, including sensing device, accumulator, comparison circuit, logic circuit and output device;The sensing device, accumulator, logic circuit and output device are sequentially connected in series;The comparison circuit is in parallel with the accumulator;The sensing device is used to sense electric wire magnetic field to generate electric charge;The accumulator is used for the electric charge for storing generation;The logic circuit is used to control the detection device.The detection device of the present invention uses electromagnetic induction principle, and the electricity needed in itself using the electromagnetic field generating device near high-voltage conducting wires, achievees the purpose that passive power supply;In addition, detection device volume is tiny, what can be arranged in pairs or groups uses on high-tension bus-bar.
Description
Technical field
The present invention relates to current detecting field, more particularly to a kind of single-phase wire current detection device.
Background technology
In electric wire cabinet or when electric wire is hanging, electric wire(That is conducting wire)Abnormal conditions be not easy observed or detect
Arrive.The electric wire if electric wire because electric current is excessive, can easily fuse, causes the generation of short circuit that fire even occurs;If electric current is too small, set
It is standby to can not operate normally, moreover, the Data Detection work to high-tension cable carries certain danger for service personnel, such as
On the premise of where electric wire cabinet door need not being opened, or in the case of distant surveillance, still can be for a long time, accurately find it is high
Whether crimping there is exception, and makes Real-time Feedback, and the safe handling to equipment, and the safeguard protection of service personnel all seem
It is extremely important.
The content of the invention
It is an object of the invention to propose a kind of single-phase wire current detection device, it uses passive design, can be permanent
Collocation used on high-tension bus-bar, environmental protection but safety.
A kind of single-phase wire current detection device, including sensing device, accumulator, comparison circuit, logic circuit and defeated
Go out device;The sensing device, accumulator, logic circuit and output device are sequentially connected in series;The comparison circuit and the storage
Can circuit in parallel;The sensing device is used to sense electric wire magnetic field to generate electric charge;The accumulator is used to store generation
Electric charge;The logic circuit is used to control the detection device.
Preferably, the sensing device is induction coil, the electromagnetism field direction of the induction coil and the single-phase electric wire
It is vertical tangent.
Preferably, the accumulator is battery or capacitance.
Further illustrate, the capacitance is super capacitor.
Preferably, logic circuit is made of microcontroller and memory.
Preferably, the output device is the one or more in buzzer, LED light, bluetooth generator.
Preferably, the sensing device and the logic circuit are further connected with ground wire.
Preferably, shell is further included;The sensing device, the accumulator, the comparison circuit and logic electricity
Path built-in is in the shell;The output device is arranged at the case surface.
Further illustrate, the shell is provided with perforate, and the single-phase electric wire passes through the perforate.
Further illustrate, the shell is made of electron opaque material.
Its advantage is:1st, detection device uses electromagnetic induction principle, is given birth to using the electromagnetic field near high-voltage conducting wires
The electricity needed in itself into device, achievees the purpose that passive power supply.2nd, detection device volume is tiny, can arrange in pairs or groups on high-tension bus-bar
Use.
Brief description of the drawings
Fig. 1 is the circuit connection diagram of one of which embodiment of the present invention.
Fig. 2 is the structure diagram of one of which embodiment of the present invention.
Fig. 3 is the structure diagram of another embodiment of the invention.
Fig. 4 is the circuit connection diagram using the single-wire voltage detection device of the passive power supply the principle of the present invention.
Fig. 5 is the circuit connection diagram using the single line temperature-detecting device of the passive power supply the principle of the present invention.
Fig. 6 is the circuit connection diagram using the three-phase wire current sensing means of the passive power supply the principle of the present invention.
Fig. 7 is the circuit connection diagram using the three-phase wire phase detection device of the passive power supply the principle of the present invention.
Wherein:Sensing device 1, induction coil, the first sensing device 1-1, the second sensing device 1-2, the 3rd sensing device
1-3, accumulator 2, the first accumulator 2-1, the second accumulator 2-2, the 3rd accumulator 2-3, comparison circuit 3, logic
Circuit 4, output device 5, ground wire 6, shell 7, perforate 71, sheet metal 8, the first sheet metal 8-1, the second sheet metal 8-2, the 3rd gold medal
Belong to piece 8-3, temperature-detecting device 9, phase bits comparison module 10.
Embodiment
Further illustrate technical scheme below with reference to the accompanying drawings and specific embodiments.
A kind of single-phase wire current detection device, including sensing device 1, accumulator 2, comparison circuit 3, logic circuit 4
With output device 5;The sensing device 1, accumulator 2, logic circuit 4 and output device 5 are sequentially connected in series;The comparison circuit
3 is in parallel with the accumulator 2;The sensing device 1 is used to sense electric wire magnetic field to generate electric charge;The accumulator 2 is used
In the electric charge of storage generation;The logic circuit 4 is used to control the detection device.
As shown in Figure 1, sensing device 1 is positioned over the single-phase electric wire of energization(That is conducting wire)Side, for induced electrified wire
Magnetic field, produce electric charge.Because the electric current of conducting wire is bigger, the electric charge in sensing device 1 is more, and electric current is also bigger, i.e., both are
Proportional relation, it is possible thereby to by the amplitude of variation or ratio of electricity in sensing device 1, learn electrified wire electricity whether mistake
It is high or too low.
In the non-detection period, the electricity sensed in sensing device 1 passes to the accumulator 2, the accumulator 2
Electricity stores;When detecting electric current, the logic circuit 4 controls the accumulator 2 to close, the sensing device 1
Inductive signal is changed to be delivered in comparison circuit 3, and logic circuit 4 judges whether the amplitude of variation of electricity exceedes preset value(It is default
Value is set in SCM program in advance).If so, the logic circuit 4 drives the output device 5 externally to send prompting letter
Breath;If it is not, the output device 5 does not start, or be arranged to accumulator 2 connect when as signal, to represent not send out
It is raw abnormal.
Preferably, the sensing device 1 is induction coil, the electromagnetism field direction of the induction coil and the single-phase electric wire
It is vertical tangent.
According to electromagnetic induction principle, installation and the tangent induction coil in magnetic field by live wire, in the induction coil
Faint electric current can be produced.And the electric current of live wire is bigger, neighbouring magnetic field is bigger, i.e. magnetic flux size and wire current is big
Small directly proportional, the electricity for sensing generation is also directly proportional to the electricity of live wire.Accumulator 2 stores the electric current of induction coil
Get up, electric power is provided for the equipment in circuit when needing, realize the passive powered mode of detection device.
The induction coil is used to provide electric power for the temperature-detecting device 2 and the output device 5.
Preferably, the accumulator 2 is battery or capacitance.
Further illustrate, the capacitance is super capacitor.
Super capacitor is different from traditional electrochmical power source, be one kind between traditional capacitor and battery, have it is special
The power supply of performance, relies primarily on electric double layer and redox capacitance charge storage electric energy.But do not occur in the process of its energy storage
Chemical reaction, this thermal energy storage process are reversible, therefore can be hundreds thousand of times with repeated charge, have power density height, charge and discharge
The electric time is short, has extended cycle life, the advantages of operating temperature range is wide.
Preferably, logic circuit 4 is made of microcontroller and memory.
Logic circuit 4 is similar to the CPU of detection device, can control the disconnection or closing of accumulator 2;Receive more electric
The information and compared result on road 3 are judged;By comparative result, it is made whether to drive or how drives the output device
5 decision.The setting of these programs, can preset before the mounting, to meet the needs of different detection scenes.
Preferably, the output device 5 is the one or more in buzzer, LED light, bluetooth generator.
Output device 5 is mainly the equipment that some can allow service personnel's distant surveillance or hear sound.
Such as when detecting the curent change of single-phase electric wire, when output device 5 is the LED lamp bead group of red green, if electric
Stream is normal, green light, and with certain frequency scintillation;If current anomaly, green light goes out, when red, and with faster frequency scintillation.
When output device 5 is buzzer, electric current is normal, and buzzer does not start, and during current anomaly, buzzer sounds.When output device 5
When being bluetooth generator, electric current is normal, and bluetooth generator does not start, and during current anomaly, drives the output device 5 to pass through bluetooth
Abnormal signal is sent on the APP of inspection center or inspection software, these are provided to cause service personnel's note that with convenient
Next step maintenance work, such as pass hull closure or other action stopped loss are made as early as possible, avoid the generation of danger.
Preferably, the sensing device 1 and the logic circuit 4 are further connected with ground wire 6.
Ground wire can prevent electric shock accidents caused by detection device outer casing electrification.
Preferably, shell 7 is further included;The sensing device 1, the accumulator 2, the comparison circuit 3 and described patrol
Circuit 4 is collected to be built in the shell 7;The output device 5 is arranged at the case surface.
Further illustrate, the shell is provided with perforate 71, and the single-phase electric wire passes through the perforate 71.
As shown in Fig. 2 ~ Fig. 3, object under test of the invention is single-phase electric wire, its cross-sectional area is cylinder.The detection
Device is overall in a ring or oblate, and there is the perforate 71 that object under test can be allowed to pass through in centre.During detection, electric wire is coaxial to be passed through
The hole of detection device, the outer surface of electric wire and the hole inner wall of detection device are engaged;It is sensing device 1, accumulator 2, more electric
Road 3 and logic circuit 4 are built in the detection device, output device 5 be installed on the detection device surface, be easy to by
Observed by the external world.
Further illustrate, the shell 7 is made of electron opaque material.
Electron opaque material is usually the high molecular materials such as plastics, and being usually buckled on conducting wire to detect, very convenient easy
With.
Be applicable in same passive power supply the principle, it is different according to the content of test, detection device can detect single-phase electric wire or
Electric current, voltage and the temperature of three-phase wire, the phase of three-phase wire and voltage, and whether monophase current is differentiated in special time
Interior power-off.
It is the operation principle of other test events below.
First, single-wire voltage detection device.
Overtension in electrified wire can accelerate the aging of electrical equipment, reduce its service life, serious to burn electric appliance
It is bad, serious negative effect is brought, therefore the real-time voltage detecting of circuit is extremely important.
As shown in figure 4, the sensing device 1 and sheet metal 8 are placed in by single-phase electric wire(Not with conductive contact, only need
It is close).Circuit connection diagram is:Sensing device 1, accumulator 2, logic circuit 4 and output device 5 are connected, sheet metal 8 and ratio
Connect compared with circuit 3 with the logic circuit 4, sensing device 1 and the logic circuit 4 are also equipped with being grounded, to prevent electronic box because
Built-in electrical insulation destroys electric shock accidents caused by outer casing electrification.
In the non-detection period, the energy transmission sensed in sensing device 1 is to the accumulator 2, the accumulator 2
Electricity stores;When detecting voltage, the logic circuit 4 closes the accumulator 2, what the sheet metal 8 sensed
Voltage signal is delivered in comparison circuit 3, and logic circuit 4 judges whether the amplitude of variation of voltage exceedes preset value(Preset value is
Set in advance in 4 program of logic circuit).If so, the logic circuit 4 drives the output device 5 externally to send prompting letter
Breath;If it is not, the output device 5 does not start, or be arranged to accumulator 2 connect when as signal, to represent not send out
It is raw abnormal.
2nd, single line temperature-detecting device.
Under normal conditions, the surface temperature of electrified wire is directly proportional to electrical current size, therefore, when electric current is normal, leads to
The temperature substantially constant of electric lead, when current anomaly, the temperature of electrified wire also can be higher or relatively low.Thus, it is possible to pass through
The surface temperature of conducting wire is detected, judges the current conditions of electrified wire.
As shown in figure 5, the sensing device 1 and temperature-detecting device 9 are placed near electrified wire(Do not connect with conducting wire
Touch, it is only necessary to close).Circuit connection diagram is:Sensing device 1, accumulator 2, logic circuit 4 and output device 5 are connected, temperature
Detection device 9 and comparison circuit 3 are connected with the logic circuit 4, and sensing device 1 and the logic circuit 4 are also equipped with being grounded
Line, to prevent electronic box because built-in electrical insulation destroy outer casing electrification caused by electric shock accidents.
In the non-detection period, the energy transmission sensed in sensing device 1 is to the accumulator 2, the accumulator 2
Electricity stores;In detection temperature, the logic circuit 4 closes the accumulator 2, and the temperature-detecting device 9 is felt
The voltage signal that should be arrived passes to comparison circuit 3, judges whether the amplitude of variation of temperature exceedes preset value(In advance in logic
Set in 4 program of circuit), if so, the logic circuit 4 drives the output device 5, prompt messages are externally sent, it is real
Shi Tongzhi supervisor, with pass hull closure as early as possible or makes other action stopped loss, avoids the generation of danger;It is if it is not, described defeated
Go out device 5 not start, or be arranged to accumulator 2 connect when as signal, to represent not to be abnormal.
More preferably, temperature-detecting device 9 can be temperature sensor or temp-sensitive sensor, especially contactless temperature
Sensor or temp-sensitive sensor, can learn temperature without influencing electrified wire by receiving heat radiation that electrified wire sends
Itself.
3rd, three-phase wire current sensing means.
Three-phase wire is the circuit for providing power supply in industrial equipment for three phase supply equipment, under normal circumstances, it is desirable to three
Line voltage amplitude is equal, frequency is equal, 120 ° of phase mutual deviation, this three lines are A phases respectively(Color is yellow), B phases(Color is
Green), C phases(Color is red), it is L1, L2, L3 or U, V, W that A, B, C can also be numbered respectively, is sequentially the same, but not
Disorderly order can be adjusted, otherwise can cause the equipment operation irregularity such as three phase electric machine, situations such as reversion.
The current detecting of triple line, it is similar when being detected with single line.
As shown in fig. 6, the sensing device 1 is separately positioned on by three-phase wire, sensing device 1 and accumulator 2 totally three
Group, is the first sensing device 1-1 and the first accumulator 2-1 for detecting A phase lines respectively, detects the second sensing device of B phase lines
1-2 and the second accumulator 2-2, detects the 3rd sensing device 1-3 and the 3rd accumulator 2-3 of C phase lines.
Circuit connection one of which embodiment be:Three groups of sensing devices 1 and accumulator 2, with logic circuit 4 and defeated
Go out device 5 to connect;The logic circuit 4 is built-in with phase bits comparison module 10, the phase bits comparison module 10 respectively with three groups of senses
Device 1 and accumulator 2 is answered to be electrically connected;One of accumulator 2 is also electrically connected with logic circuit 4;Sensing device 1 and logic
Circuit 4 is provided with ground wire, electric shock accidents caused by prevent destroying outer casing electrification because of built-in electrical insulation.
Specifically triple line electric current detecting method is:Usually, i.e., non-detection period, the first sensing device 1-1, second sense
The energy of device 1-2 and the 3rd sensing device 1-3 sensings is delivered separately to corresponding first accumulator 2-1, the second energy storage electricity
Road 2-2 and the 3rd accumulator 2-3, three accumulators 2 store electricity;When detecting electric current, logic circuit 4 is controlled
The closing of three accumulators 2 is made, the current signal that three sensing devices 1 sense is delivered separately to phase bits comparison module
10 three input terminals.
It is default that phase bits comparison module 10 may determine that whether the curent change amplitude of any one of A, B, C triple line exceedes
Value, can also judge whether the current value between A, B, C triple line is balanced, or judge whether three-phase wire is normal sequential(With
Upper preset value is set in the program of logic circuit 4 in advance).It is if described more than preset value, unbalanced or be improper sequential
Logic circuit 4 drives the output device 5 externally to send prompt message;Otherwise, the output device 5 does not start, or is arranged to
Signal as when being connected with accumulator 2, to represent not to be abnormal.
Similarly, can be that a sensing device 1 corresponds to an accumulator 2 or three senses in circuit connection
Answer device 1 to collect using an accumulator 2, can also three sensing devices 1 collect each accumulator 2 respectively, it
Three accumulators 2 are merged again afterwards, logic circuit 4 is resupplied and uses.In this way, specific detection mode may correspond to
Change.
4th, three-phase wire phase detection device.
The order of three-phase wire cannot become.Voltage between phase and phase is known as line voltage, appoints the voltage between two-phase to be all
380V。
Usually, after maintenance during rewiring, some electricians may be unfamiliar with three-phase wire because of to business, without tight
Lattice are plugged into three-phase wire according to relevant national standard by set order, cause electric phase wiring error, motor reversal operation, makes
It is abnormal into machine run, production is destroyed, economic loss is brought, more likely brings casualties.Therefore, if on three-phase wire
The device of phase can be detected by installing additional, just can be clear from whether phase mistake occurs after the good electric wire of rigid connection, can be to avoid
The serious consequence that manual errors are brought.
As shown in fig. 7, the sensing device 1 is arranged on wherein by an electric wire of three-phase wire, or three sensing devices 1
It is separately positioned on by three electric wires;Sheet metal 8 is additionally provided with by three-phase wire, close to A phase lines be the first sheet metal 8-1, lean on
Nearly B phase lines are the second sheet metal 8-2, and that close to C phase lines is the 3rd sheet metal 8-3.
Circuit connection diagram is:Sensing device 1, accumulator 2, logic circuit 4 and output device 5 are connected;The logic electricity
Road 4 is built-in with phase bits comparison module 10, the phase bits comparison module 10 respectively with the first sheet metal 8-1, the second sheet metal 8-2 and
3rd sheet metal 8-3 is electrically connected;Sensing device 1 and logic circuit 4 are also equipped with being grounded, to prevent electronic box because built-in electrical insulation destroys
Electric shock accidents caused by outer casing electrification.
In the non-detection period, the energy transmission sensed in sensing device 1 is stored to accumulator 2, the energy storage electricity
Road 2 stores electricity;During detection, logic circuit 4 close accumulator 2, the first sheet metal 8-1, the second sheet metal 8-2 and
3rd sheet metal 8-3 respectively passes to the voltage signal sensed three input terminals of phase bits comparison module 10.
It is default that phase bits comparison module 10 may determine that whether the voltage change amplitude of any one of A, B, C triple line exceedes
Value, can also judge whether the magnitude of voltage between A, B, C triple line is balanced, or judge whether three-phase wire is normal sequential(In advance
If value is set in the program of logic circuit 4 in advance).If exceed preset value, or it is unbalanced, or improper sequential, then it is described
Logic circuit 4 drives the output device 5, externally sends prompt messages;Otherwise, the output device 5 does not start, or sets
Be set to accumulator 2 individually connect when as signal, to represent not to be abnormal.
Above-mentioned accumulator 2, can use battery or capacitance, be logic circuit 4, comparison circuit 3, phase ratio
Electric power is provided compared with module 10 and output device 5.
More than output device 5 can be buzzer, LED light, bluetooth generator, smell generator etc. can allow maintenance people
Member's distant surveillance or the equipment for hearing sound.
Such as when detecting the curent change of single-phase electric wire, when output device 5 is LED lamp bead group, if current/voltage is just
Often, green light, and with certain frequency scintillation;If current anomaly, green light goes out, when red, and with faster frequency scintillation.When defeated
When to go out device 5 be buzzer, electric current is normal, and buzzer does not start, and during current anomaly, buzzer sounds.When output device 5 is blue
During odontogenesis device, electric current is normal, and bluetooth generator does not start, and during current anomaly, output device 5 passes through indigo plant described in MCU driving
Tooth sends abnormal signal in inspection center or inspection software APP, these are provided to cause service personnel's note that with convenient
Next step maintenance work.
The smell generator is a kind of capsule shape device, and the inside is enclosed with the gas with special odor, also has fuse,
When current is excessive, blown fuse, capsule pop, and special odor sheds, and remind service personnel to pay attention to.Smell generator is especially
It is adapted to a riot of sound, under the unopen place in either bright and clear or space, the electric current applied to phase line or triple line
Detection.Because under these circumstances, the sound unobvious of buzzer, the brightness of LED light is inadequate, can not well reach and allow inspection
Repair the purpose that personnel know current anomaly situation in time.Smell generator utilizes the smell of people, once service personnel smells these
Special odor, it is excessive, it is necessary to maintenance shut-downs or repairing in time to turn out wire current.
The gas of these special odors, can be the hydrogen sulfide for having rotten-egg odour, or the mercaptan that taste stimulates, and
The nontoxic or less noxious gases of other irritant smells.Gas capacity in capsule is also only a small amount, avoids evaporateing into air
When explosion is induced because of excessive concentration.
Above content is only presently preferred embodiments of the present invention, the trip service personnel for this area, according to the present invention's
Thought, there will be changes, this specification content should not be construed as to the present invention in specific embodiments and applications
Limitation, therefore protection scope of the present invention is subject to the scope that claim defines.
Claims (10)
- A kind of 1. single-phase wire current detection device, it is characterised in that:Including sensing device, accumulator, comparison circuit, logic circuit and output device;The sensing device, accumulator, logic circuit and output device are sequentially connected in series;The comparison circuit is in parallel with the accumulator;The sensing device is used to sense electric wire magnetic field to generate electric charge;The accumulator is used for the electric charge for storing generation;Institute Logic circuit is stated to be used to control the detection device.
- 2. single-phase wire current detection device as claimed in claim 1, it is characterised in that:The sensing device is the line of induction Circle, the induction coil and the electromagnetism field direction of the single-phase electric wire are vertical tangent.
- 3. single-phase wire current detection device as claimed in claim 1, it is characterised in that:The accumulator is battery or electricity Hold.
- 4. single-phase wire current detection device as claimed in claim 3, it is characterised in that:The capacitance is super capacitor.
- 5. single-phase wire current detection device as claimed in claim 1, it is characterised in that:Logic circuit is by microcontroller and storage Device forms.
- 6. single-phase wire current detection device as claimed in claim 1, it is characterised in that:The output device be buzzer, One or more in LED light, bluetooth generator.
- 7. single-phase wire current detection device as claimed in claim 1, it is characterised in that:The sensing device and the logic Circuit is further connected with ground wire.
- 8. single-phase wire current detection device as claimed in claim 1, it is characterised in that:Further include shell;The sensing dress Put, the accumulator, the comparison circuit and the logic circuit are built in the shell;The output device is arranged at The case surface.
- 9. single-phase wire current detection device as claimed in claim 8, it is characterised in that:The shell is provided with perforate, institute State single-phase electric wire and pass through the perforate.
- 10. single-phase wire current detection device as claimed in claim 8, it is characterised in that:The shell is by electron opaque material It is made.
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CN103217566A (en) * | 2013-04-07 | 2013-07-24 | 武汉格蓝若光电互感器有限公司 | Current online monitoring integrated system of on-load tap changer |
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