CN206471803U - A kind of header box protection device - Google Patents

Abstract

The utility model is related to a kind of header box protection device, and the header box includes photovoltaic cable, direct current cables and breaker, and the header box protection device includes collecting unit, logic unit and execution unit；Voltage signal on the voltage signal and photovoltaic cable branch road of the collecting unit collection direct current cables；Described logic unit includes comparison module in parallel, and comparison module is electrically connected with the collecting unit, and comparison module includes window comparator and diode, window comparator access voltage signal and comparison voltage, output end series diode.The beneficial effects of the utility model are to carry out the monitoring of short trouble to photovoltaic cable and direct current cables simultaneously, when short trouble occurs for any of which, can effectively recognize and send trip command respectively, so as to realize failure removal, multiple protective is formd to cable.

Description

A kind of header box protection device

Technical field

The utility model is related to field of photovoltaic power generation, and in particular to a kind of header box protection device.

Background technology

Header box is a kind of electrical equipment applied in photovoltaic generating system, and it is responsible for the direct current for producing photovoltaic module Electricity, after it once confluxes, is sent to photovoltaic DC-to-AC converter.In order to ensure the reliability, the security that generate electricity, header box is equipped with anti- Thunder, overcurrent and overload etc. are protected.But, the photovoltaic cable failure rate highest being connected with header box is monopole ground connection Failure (plus earth or negative pole ground connection), such failure triggers the device inside the voltage rise of non-faulting pole, header box in height It is breakdown in the case of pressure, so as to trigger fire.Because the current detection accuracy of traditional header box is only 3%~5%, it is impossible to essence Really a group string branch road is detected, and the size of electric current is larger by ambient lighting and ambient temperature effect ratio.Therefore this is header box A class defect in design.

The present inventor once applied for patent document, Application No. " CN201521132948.9 ", Patent No. on this question " CN205509468U ", the utility model of entitled header box protection device.The utility model proposes collecting unit, logic unit And the structure of execution unit, logic unit electrically connects with collecting unit so as to receiving the voltage signal transmitted from collecting unit, so The electric signal and comparison voltage are compared afterwards, set when the voltage signal and the poor absolute value of comparison voltage are more than or equal to Logic unit sends to execution unit and instructed during definite value；And execution unit is electrically connected with logic unit and according to from logic unit The instruction control breaker open operation transmitted.The invention solves the problems, such as short-circuit detection protection.But, what original patent was referred to confluxes Case is that dc circuit breaker on/off switch function is realized by Control contactor break-make.Its mechanical action is frequent, failure Rate is high, and service life is short.During photovoltaic application, header box generally enters 1 and 10 using 16 and enters 1 two kinds of forms.Converged due to every Stream case concatenates the photovoltaic module of 16 or 10 branch roads respectively, therefore, and header box protection has multiple branch circuit while the requirement detected.Tradition is converged The photovoltaic branch road of stream case, equivalent to DC node is added, due to the influence of day and night temperature, accelerates the hot tired of fuse using fuse Labor effect, when fuse node loose contact, its fusing time is elongated., can failure line in the case of this " not breaking disconnected " The insulation of cable and fuse block, finally triggers firing accident.Header box internal-flange bolt loosens, similar with its situation.

When earth fault occurs for direct current cables, the electric current flowed through on normal cable can be by photovoltaic DC-to-AC converter DC cabinet Bus goes out conflux after " anti-fill " arrive failure cable.The breaker for connecting photovoltaic DC-to-AC converter on failure cable is jumped because electric current is excessive Lock.But, the electric current of breaker does not increase in header box, now, and header box equipment appearance ground connection pole tension is low, ungrounded Pole tension is raised.This is a kind of hidden danger that photovoltaic generating system exists in itself, and should give consideration can take measures to be controlled by. In view of above-mentioned defect, the positive research and innovation of the present inventor, propose a kind of header box protection dress for being adapted to photovoltaic generating system Put, effectively can prevent failure from further expanding.

Utility model content

The purpose of this utility model is to provide a kind of header box protection device for being capable of multi-thread, many point protections, effectively investigate, The various circuit problems that detection, control header box are likely to occur.

In order to achieve the above object there is provided a kind of header box protection device, the header box includes photovoltaic cable, direct current Cable and breaker, the header box protection device include collecting unit, logic unit and execution unit；With

Voltage signal on the voltage signal and at least one photovoltaic cable branch road of the collecting unit collection direct current cables； With

Described logic unit includes at least two comparison modules in parallel, and comparison module is electrically connected with the collecting unit Connect, one of comparison module receives the voltage signal on the direct current cables, other comparison modules receive the photovoltaic cable The voltage signal of branch road, comparison module includes window comparator and diode, window comparator access voltage signal and ratio Compared with voltage, output end series diode, the output end access execution unit of each diode, the voltage signal of any comparison module with When the absolute value of comparison voltage difference is more than or equal to setting value circuit breaker trip instruction is sent to the execution unit；With

The execution unit is electrically connected with the logic unit and according to the instruction control that the logic unit is transmitted Breaker open operation.

To being improved for logic unit in the utility model, main contrast carries out parallel connection compared with module, i.e., module is defeated Enter the voltage that end is respectively connected to collection, but output end is collaborated.Collecting unit gathers multiple magnitudes of voltage, and this magnitude of voltage includes direct current Voltage letter on the voltage signal on voltage signal and photovoltaic cable on cable, one of comparison module access direct current cables Number, the voltage signal on remaining comparison module access photovoltaic cable carries out logic judgment, when the voltage signal of any comparison module When being more than or equal to setting value with the poor absolute value of comparison voltage, illustrate that short trouble occurs for cable, sent to execution unit Instruction is so as to control breaker.

, it can be said that at least one is used for the comparison module and a ratio monitored for photovoltaic cable that direct current cables is monitored Can essentially be multiple comparison modules monitored for photovoltaic cable, its type of attachment is still in the utility model compared with module It is so in parallel, is so the monitoring that multi-route can be achieved.

It is preferred that, in addition to guide wire；The collecting unit also gathers the voltage signal of photovoltaic DC-to-AC converter side；With it is described Logic unit also includes direct current cables Fault Identification module, direct current cables identification module logic in parallel with comparison module, described Unit also includes direct current cables Fault Identification module, and direct current cables identification module is in parallel with comparison module, the direct current cables event Hinder identification module receive the voltage signal of photovoltaic DC-to-AC converter side, voltage signal and comparison voltage, photovoltaic DC-to-AC converter on direct current cables When the poor absolute value of voltage signal is more than the threshold value of comparison voltage on the voltage signal and direct current cables of side, output header box is jumped Lock signal, header box trip signal is sent to photovoltaic DC-to-AC converter, the dc circuit breaker of control photovoltaic DC-to-AC converter side by guide wire Tripping operation.

Because voltage difference absolute value is more than or equal to the situation of setting value in the presence of two kinds of possibility, i.e. direct current on direct current cables Cable fault and photovoltaic DC-to-AC converter DC side failure, in order to recognize failure, the utility model is additionally arranged direct current cables Fault Identification Module, takes the voltage signal of photovoltaic DC-to-AC converter side, the signal on direct current cables to make the difference and be compared with comparison voltage, so as to judge Whether it is direct current cables failure.When belonging to direct current cables failure, header box trip signal is exported, header box trip signal passes through Guide wire is sent to photovoltaic DC-to-AC converter, the dc circuit breaker tripping operation of control photovoltaic DC-to-AC converter side.

It is preferred that, the logic unit also includes triode T₃, receive direct current cables voltage signal comparison module in The output end of window comparator accesses the triode T₃Colelctor electrode, the direct current cables Fault Identification module output termination Enter the triode T₃Base stage, the triode T₃Emitter stage be connected with guide wire, when photovoltaic DC-to-AC converter voltage signal with The difference of voltage signal is more than the threshold value of comparator voltage on direct current cables, and receives the voltage signal of the comparison module of direct current cables Send and instruct to execution unit when being more than or equal to setting value with the absolute value of comparison voltage difference.

Further, the logic unit also includes triode T₂, three poles described in the signal that comparison module in parallel is exported Pipe T₂Colelctor electrode, triode T₃Emitter stage access triode T₂Base stage, the triode T₂Emitter stage connection guiding Line.

It is preferred that, described guide wire is RS485 guide wires.

It is preferred that, described direct current cables Fault Identification module includes operational amplifier and comparator, the operation amplifier Voltage signal on the voltage signal and direct current cables of device access photovoltaic DC-to-AC converter side, the input of comparator is respectively connected to computing The output end and comparison voltage of amplifier.

Further, described direct current cables Fault Identification module includes positive DC cable identification module in parallel and born On pole direct current cables identification module, described positive DC cable identification module access photovoltaic DC-to-AC converter side and direct current cables just Comparator output terminal access diode in voltage, positive DC cable identification module；Recognized with described negative DC cable The negative voltage that module is accessed on photovoltaic DC-to-AC converter side and direct current cables, the comparator output terminal of negative DC cable identification module connects Enter voltage signal on the voltage signal and direct current cables of photovoltaic DC-to-AC converter side in diode, any identification module difference be more than than Compared with voltage threshold value when, export header box trip signal.

It is preferred that, the logic unit also includes fuse identification module, and fuse identification module is in parallel with comparison module, described Fuse identification module receives voltage signal, the voltage signal of photovoltaic cable and the comparison voltage of direct current cables, when direct current cables The difference of the voltage signal of voltage signal and photovoltaic cable is more than comparison voltage, sends and instructs to the execution unit.

Fuse identification module is but also as bolt looseness identification module.

It is preferred that, described fuse identification module includes operational amplifier, comparator and diode, the operational amplifier The voltage signal of photovoltaic DC-to-AC converter and the voltage signal of direct current cables are respectively connected to, the comparator is respectively connected to operational amplifier Output end and comparison voltage.

Further, described fuse identification module includes positive pole fuse identification module and negative pole fuse identification mould in parallel Block, described positive pole fuse identification module access photovoltaic cable and the positive voltage of direct current cables, described negative pole fuse identification mould Block accesses the negative voltage of photovoltaic cable and direct current cables, the voltage cable signal of the direct current of any identification module and photovoltaic cable Difference is more than comparison voltage, sends and instructs to the execution unit.

It is preferred that, the electricity on the voltage signal and at least two photovoltaic cable branch roads of the collecting unit collection direct current cables Press signal；With

Described logic unit includes at least three comparison modules in parallel, and one of comparison module receives the direct current Voltage signal on cable, separately has at least two comparison modules to receive the voltage signal of the photovoltaic cable branch road, receives optical cable Each comparison module of branch voltage signal receives the voltage signal on respectively different photovoltaic cable branch road.

Further, the logic unit also includes fuse identification module, and the fuse identification module receives direct current cables Voltage signal, comparison voltage and collecting unit collection at least two photovoltaic cables voltage signal, multiple photovoltaic cables Operational amplifier and comparator are accessed after voltage signal series diode, when the voltage signal and the electricity of photovoltaic cable of direct current cables Press the difference of signal to be more than comparison voltage, send and instruct to the execution unit.

Further, described logic unit also includes protection module, and the output signal access of comparison module in parallel is protected Module connection is protected, protection module outputs signal to execution unit.

It is preferred that, described execution unit, which includes gate pole, can cut-off IGCT.

It is preferred that, described collecting unit includes bleeder circuit, wave filter, voltage follower, the photoelectricity coupling being sequentially connected Clutch and voltage-stabiliser tube.

The utility model discloses a kind of scheme for most having a choosing, a kind of header box protection device, the header box includes light Luff cable, direct current cables and breaker, the header box protection device include collecting unit, logic unit and execution unit； With

The voltage signal of collecting unit collection direct current cables and the voltage signal at least one photovoltaic cable branch road, Photovoltaic is against electrical equipment side voltage signal；With

Described logic unit include at least two comparison modules, direct current cables Fault Identification module, fuse identification module, One of comparison module receives the voltage signal on the direct current cables, and other comparison modules receive the photovoltaic cable branch road Voltage signal, the direct current cables Fault Identification module receives voltage signal on direct current cables and photovoltaic DC-to-AC converter side Voltage signal, the fuse identification module receives the voltage signal on direct current cables and the voltage signal on photovoltaic cable, directly The difference of voltage signal in stream cable fault identification module on the voltage signal and direct current cables of direct current photovoltaic inverter side is more than The threshold value of comparator voltage, and receive in the comparison module of direct current cables, the poor absolute value of voltage signal and comparison voltage is big When setting value, voltage signal and the poor absolute value of comparison voltage in high level signal, remaining comparator are exported big In or equal to setting value, the voltage signal of direct current cables in high level signal, fuse identification module is exported more than photovoltaic cable electricity When pressing signal, high level signal is exported；Thrin will be sent to execution unit and send instruction when being high level signal, described Signed magnitude arithmetic(al) uses window comparator；With

The execution unit is electrically connected with the logic unit and according to the instruction control that the logic unit is transmitted Breaker open operation.

A kind of header box guard method, comprises the following steps：

With collecting unit collection direct current cables voltage signal U_z, at least one photovoltaic cable voltage signal U_i, photovoltaic inversion side Voltage signal U_m；

Logic unit receive collecting unit collection to voltage signal U_z、U_i、U_mAnd comparison voltage U_ε1、U_ε2、U_ε3Carry out Logical operation：

When meet ((| U_Z+-U_Z-|>U_ε1)and(U_m-U_z>U_ε3))or(|U_i+-U_i-|>U_ε1)or(U_i-U_z＞ U_ε2) when to execution Unit, which is sent, performs signal；

The instruction that execution unit is transmitted according to the logic unit controls the breaker open operation.

Wherein, | U_Z+-U_Z-|>U_ε1Computing and | U_i+-U_i-|>U_ε1Computing using window comparator perform, or computings lead to The diode for crossing parallel connection is performed, and and computings are performed by triode.

The utility model is improved and supplemented to logic unit inside, and parallel processing has been carried out to comparison module, than Receive the voltage signal of photovoltaic cable and direct current cables respectively compared with module, logical operation is carried out by window comparator, when meeting Output signal when difference is more than or equal to comparison voltage absolute value, the signal of output is carried out the comparator of multichannel simultaneously by diode Connection, reached it is any have signal output on the way, then send to execution unit, by execution unit control breaker combined floodgate, Separating brake.

Logic unit in the utility model is additionally provided with fuse identification module and direct current cables Fault Identification module, uses Collection voltages value carries out the mode of logical operation, and multi-class identification monitoring logic computing list has been internally formed in logic unit Member, can carry out handling and analyzing in time, with preferable efficiency to failure.

The beneficial effects of the utility model are：Enough identify multigroup optical crosstalk luff cable failure, direct current cables failure, fuse or Bolt looseness failure.The error produced in traditional header box protection by method defect is avoided, while protection device is not by week Enclose illumination and the influence of environment temperature.Therefore, more can be based on safety in actual motion maintenance, the protection device in failure It is active in one's movements, sound assurance is provided for system security and stability.Moreover, this reduces the possibility of artificial investigation failure, Reduce the workload of actual operation maintenance personnel.

It should be understood that in the range of the utility model, above-mentioned each technical characteristic of the present utility model and below (as implemented Mode) in specifically describe each technical characteristic between can be combined with each other, so as to constitute new or preferred technical scheme.Limit In length, no longer tire out one by one state herein.

Brief description of the drawings

Fig. 1 is the utility model header box under-voltage protection system structure diagram；

Fig. 2 is the schematic diagram of collecting unit in the utility model；

Fig. 3 is the schematic diagram of logic unit in the utility model；

Fig. 4 is the utility model window comparator output schematic diagram；

Fig. 5 is the utility model direct current cables failure schematic diagram；

Fig. 6 is the schematic diagram of fuse failure in the utility model.

Embodiment

Preferred embodiment of the present utility model is described in detail below with reference to accompanying drawing, to become apparent from understanding this reality With new objects, features and advantages.It should be understood that embodiment shown in the drawings is not the limit to the utility model scope System, and simply to illustrate that the connotation of technical solutions of the utility model.

Term explanation

Header box：Header box main function is exactly that the input of photovoltaic array is carried out one-level to conflux, for reducing photovoltaic battle array Row are linked into the line of inverter, while provide lightning protection function, detect the running status of photovoltaic panel, DC quantity state acquisition and disconnected Road device state etc..

Photovoltaic DC-to-AC converter：Photovoltaic DC-to-AC converter is to connect resistance capacitance by power electronic devices (MOSFET, IGBT etc.), with The direct current that header box transmission comes, is transformed into alternating current by the break-make of the mode control device of pulse width modulation, is completed simultaneously The MPPT maximum power point tracking (MPPT) of photovoltaic module, it is ensured that intelligent control and anti-islanding effect etc..

Breaker：Designed coupling or uncoupling means, can close, break-make and carry normal condition electric current；And can be non- Under normal operating condition, can also be closed, disjunction and the conducting in certain time and break-make.

Gate level turn-off thyristor (GTO)：Gate level turn-off thyristor is that a kind of of IGCT derives from device, can be passed through Apply pulse current in gate pole and control its break-make；Due to the voltage of the device, current capacity is larger, close with triode thyristor, Therefore there can be more application in large-power occasions.

A kind of header box protection device, as shown in figure 1, the header box include photovoltaic cable 41,42, direct current cables 43, 44, breaker 60, collecting unit 10, logic unit 20 and execution unit 30.

Collecting unit 10 be used to gather voltage signal on direct current cables and photovoltaic cable branch road, its principle as shown in Fig. 2 The series connection of collecting unit 10 bleeder circuit 11, filter circuit 12, voltage follower 13, photoelectrical coupler 14 and voltage-stabiliser tube 15.U_dcFor DC voltage to be detected, the voltage signal that Hall voltage sensor is collected makes its voltage be limited in properly by bleeder circuit 11 Scope；RC wave filters 12 filter out the noise in collection signal；Voltage follower 13 may insure output signal not by input electricity The interference of the resistance on road, plays a part of preventing voltge surge；Photoelectrical coupler 14 effectively realizes the electricity blocked between circuit Contact, and the transmission of the signal between them is not cut off, isolation performance is good, stable and reliable in work not by Electromagnetic Interference；Voltage stabilizing Pipe 15 is by output voltage U_potCertain limit is limited in, plays a part of protection circuit.

Logic unit 20 including multiple comparison modules 21, direct current cables Fault Identification module 22, fuse as shown in figure 3, know Other module 23 and protection module 24.Each comparison module 21, direct current cables Fault Identification module 22 and fuse identification module 23 are in parallel, Although the signal that input is received is different, single output end interflow access execution unit.Each comparison module 21 by operational amplification circuit, Window comparator and diode composition.The difference of each comparison module 21 is that the magnitude of voltage accessed is different, and one of them compares Module 21 accesses the voltage U of direct current cables_z+And U_z-, remaining comparison module is respectively connected to U₁₊、U_1-, U₂₊、U_2-……U_n+、 U_n-.Wherein, operational amplification circuit is connected by two operational amplifiers, wherein an operational amplifier input signal be cable positive pole and Ground connection, by taking the comparator for accessing photovoltaic cable as an example, cable just extremely U₁₊, the output signal of the operational amplifier inputted to another In operational amplifier, another connection end and the cable negative pole U of another operational amplifier_1-Connection.Operational amplifier is operated in linearly Area, the voltage U of operational amplifier output_a.Window comparator is composed in parallel by two comparators, two comparators work in parallel In nonlinear area, output signal only has high level and low level, and window comparator is respectively connected to U_ε1、-U_ε1And U_a.As signal U_a More than U_ε1When, comparator A₁Output voltage U_o1=U_OH, comparator A₂Output voltage U₀₂=-U_oH.So that diode D₁Lead It is logical, D₂Cut-off, output voltage U_b=U_OH；As signal-U_ε1<U_a<U_ε1When, comparator A₁Output voltage U_o1=-U_OH, comparator A₂ Output voltage U₀₂=-U_oH.So that diode D₁And D₂Cut-off, output voltage U_b=0；Signal U_aLess than-U_ε1When, comparator A₁ Output voltage U_o1=-U_OH, comparator A2 output voltage U₀₂=U_oH.So that diode D₁Cut-off, D₂Conducting, output voltage U_b =U_OHIts characteristic curve is as shown in Figure 4.Window comparator of the present utility model is made absolutely to the difference of voltage signal and comparison voltage Value is judged, header box short-circuiting device shutoff signal is exported when absolute value is more than or equal to setting value.Signal U_bAccess diode D₄.Comparison voltage is equal to 380V-400V, and setting value is equal to 190V-320V.For receiving direct current cables voltage U_z+And U_z-'s Comparison module 21, its structure is also identical, and the parallel relationship between multiple comparison modules 21 mainly passes through the output of diode End interflow output signal, as long as the output high level signal of any one comparison module, then be output to execution by high level signal Unit.

Logic unit 20 also includes direct current cables Fault Identification module 22, and it is comprising positive DC cable identification module and bears Pole direct current cables identification module, the difference of positive DC cable identification module and negative DC cable identification module is, described Positive DC cable identification module access photovoltaic DC-to-AC converter side and direct current cables on positive voltage, and described negative DC electricity The negative voltage that cable identification module is accessed on photovoltaic DC-to-AC converter side and direct current cables.Two direct current cables identification modules include computing Amplifier, comparator and diode, the voltage signal of operational amplifier access direct current cables and the voltage letter of photovoltaic DC-to-AC converter side Number, by taking positive DC cable identification module as an example, operational amplifier access U_m+And U_z+, opamp-output signal access ratio Compared with device, another arrival end of comparator accesses the threshold value U compared_ε3, the output end access diode of comparator, any identification module In the voltage signal of photovoltaic DC-to-AC converter side and the difference of voltage signal on direct current cables when being more than the threshold value of comparison voltage, output converges Flow case trip signal.

The logical schematic of direct current cables Fault Identification module 22 is as shown in figure 5, when the direct current cables of collecting unit collection Voltage U_Z+、U_Z-Compare both sizes by comparator, meet inequality | U_Z+-U_Z-|>U_ε1When, it is possible to determine that it is direct current cables Failure, such as trouble point f₁, or photovoltaic DC-to-AC converter DC side failure, such as trouble point f₂。l₁For trouble point f₁To the l that confluxes₁The distance of case, l₂For trouble point f₁To the distance of photovoltaic DC-to-AC converter, l is the overall length of direct current cables between header box and photovoltaic DC-to-AC converter.This practicality It is new to compare the direct current cables voltage of header box side and the direct current cables voltage of photovoltaic DC-to-AC converter side to identify by comparator Direct current cables failure and photovoltaic DC-to-AC converter DC side failure.

When under photovoltaic DC-to-AC converter DC side failure, the electric current flowed through on direct current cables is I.Due to photovoltaic module opto-electronic conversion Particularity, the value under the size and normal operating condition of the current value is more or less the same.Header box side and photovoltaic DC-to-AC converter side electricity Cable voltage is respectively U_m、U_zFunctional relation meet expression formula (1)：

U_m-U_z=lIR (1)

R is the resistance of element length direct current cables in formula.

Because cable length l is little, therefore expression formula U_m-U_zVery little, can be less than threshold voltage U_ε3。

|U_m-U_z|<U_ε3 (2)

When earth fault occurs for direct current cables, all electric currents flowed through can be by DC cabinet on normal direct current cables Bus goes out conflux after " anti-fill " arrive failure cable.

Header box side and photovoltaic DC-to-AC converter side voltage cable are respectively U_m、U_nFunctional relation meet expression formula (2)

U_m-U_z=l₁I₁R-l₂I₂R (3)

Now, anti-sink current value I₂Size by other parallel connection header box in square formation the summation for flowing through electric current.

|U_m-U_z|>U_ε3 (4)

Direct current cables failure and photovoltaic DC-to-AC converter DC side failure are identified according to formula (2) and formula (4).Work as direct current cables During failure, header box circuit breaker trip, and header box trip signal is passed to by RS485 connections.It is of the present utility model heavy Point is the protection system for studying a kind of photovoltaic combiner box, and photovoltaic DC-to-AC converter DC side failure is not belonging to the utility model research Content, does not illustrate herein.

Direct current cables identification module 22 passes through triode T₃It is connected with the comparison module of direct current cables, receives direct current cables electricity The output end of the window comparator in the comparison module of signal is pressed to access the triode T₃Colelctor electrode, the direct current cables therefore The output end for hindering identification module accesses the triode T₃Base stage, T3 emitter stages connection comparison module in diode.

Construction and equipment quality are also to influence the key factor of photovoltaic power station power generation.The use of fuse and bolt is added directly Node is flowed, is that the O＆M in power station hides some dangers for safely.Fuse block and bolt are high to cable construction quality requirement, often contact Bad phenomenon, causes header box arcing or burns phenomenon.It is electric equivalent to having concatenated one at node during due to loose contact Resistance, such as Fig. 6 shows.Therefore fuse identification module is set in logic unit, and fuse identification module is with bolt looseness identification module Identical meanings.Fuse identification module 23 includes positive pole fuse identification module and negative pole fuse identification module in parallel, positive pole fuse The difference of identification module and negative pole fuse identification module is, positive pole fuse identification module access photovoltaic cable and direct current cables The negative voltage of positive voltage, negative pole fuse identification module access photovoltaic cable and direct current cables, described fuse identification module includes Operational amplifier, comparator and diode, by taking positive pole fuse identification module as an example, U₁₊、U₂₊……U_nIt is in parallel after series diode Enter operational amplifier, the output end access comparator of operational amplifier, comparator also accesses comparison voltage U_ε2, the output of comparator Terminate into diode, realize that the voltage cable signal of direct current of negative or positive electrode identification module is more than with the difference of photovoltaic cable and compared Voltage, sends to the execution unit and instructs.Principle such as Fig. 6, U_kFor the voltage of photovoltaic cable, U_lFor direct current cables voltage.Its In, U_kWith U_lRelational expression be：

U_k-U_l=IR (5)

Photovoltaic cable is compared by comparator and direct current cables voltage difference meets inequality U_k-U_l>U_ε2, to identify fuse Or the loosening of bolt, so as to control dc circuit breaker to trip.

The output end of each diode of described direct current cables identification module 22, comparison module 21 and fuse identification module 23 Interflow output, connects protection circuit 24, and protection circuit 24 is connected with execution unit.

Wherein, logic unit also includes triode T₂, triode T described in the signal that comparison module in parallel is exported₂Current collection Pole, triode T₃Emitter stage access triode T₂Base stage, the triode T₂Emitter stage connection guide wire.Guide wire 70 For RS485 guide wires.

Execution unit, which includes control gate pole, can cut-off IGCT.

Voltage protection system is to realize that dc circuit breaker is closed by Control contactor break-make to divide in the prior art Lock function.The utility model can cut-off IGCT using gate pole, make DC current start from scratch it is steady rise, can not only realize The system without deaerator of circuit, and can prevent electric current and voltage in the spring coil in breaker from causing in control process Overvoltage.Therefore, control system of the present utility model be active in one's movements, stability it is strong.

When logic unit output signal switching signal 001, sub-gate signal 002, respective gate pole can cut-off IGCT injection Gate current I_g, gate pole can cut-off IGCT be in forward bias, anode current is with I_GIncrease and gradually increase, until gate pole IGCT can be cut-off and enter conducting state.Conventionally used Control contactor break-make realizes dc circuit breaker on/off switch During, the coil in relay is damaged because dash current is excessive, needed between relay and contactor exist electrically connect, therefore Barrier rate is high.The utility model overcomes the shortcoming of relay, and during dc circuit breaker on/off switch, DC current is started from scratch It is steady to rise, the system without deaerator of circuit can not only be realized, and the electric current in the spring coil in breaker can be prevented With voltage in control process caused by overvoltage.

Preferred embodiment of the present utility model is described in detail above, it is understood that understanding this practicality newly reading After the above-mentioned instruction content of type, those skilled in the art can make various changes or modifications to the utility model, and these are of equal value Form equally falls within the application appended claims limited range.

Claims (7)

1. a kind of header box protection device, the header box includes photovoltaic cable, direct current cables and breaker, it is characterised in that The header box protection device includes collecting unit, logic unit and execution unit；With

Voltage signal on the voltage signal and at least one photovoltaic cable branch road of the collecting unit collection direct current cables；With

Described logic unit includes at least two comparison modules in parallel, and comparison module is electrically connected with the collecting unit, its In comparison module receive voltage signal on the direct current cables, other comparison modules receive the photovoltaic cable branch road Voltage signal, comparison module includes window comparator and diode, window comparator access voltage signal and comparison voltage, Output end series diode, the output end access execution unit of each diode, the voltage signal of any comparison module is electric with being compared When the absolute value of pressure difference is more than or equal to setting value circuit breaker trip instruction is sent to the execution unit；With

The instruction that the execution unit is electrically connected with the logic unit and transmitted according to the logic unit controls the open circuit Voltage signal on device separating brake, the voltage signal and at least two photovoltaic cable branch roads of the collecting unit collection direct current cables； With

Described logic unit includes at least three comparison modules in parallel, and one of comparison module receives the direct current cables On voltage signal, separately there are at least two comparison modules to receive the voltage signal of the photovoltaic cable branch road, receive optical cable branch road Each comparison module of voltage signal receives the voltage signal on respectively different photovoltaic cable branch road.

2. header box protection device according to claim 1, it is characterised in that

Also include guide wire；

The collecting unit also gathers the voltage signal of photovoltaic DC-to-AC converter side；With

Described logic unit also includes direct current cables Fault Identification module, and direct current cables identification module is in parallel with comparison module, The direct current cables Fault Identification module receives the voltage signal of photovoltaic DC-to-AC converter side, on direct current cables voltage signal and comparison it is electric The poor absolute value of voltage signal is more than the threshold value of comparison voltage on pressure, the voltage signal and direct current cables of photovoltaic DC-to-AC converter side When, header box trip signal is exported, header box trip signal is sent to photovoltaic DC-to-AC converter by guide wire, controls photovoltaic DC-to-AC converter The dc circuit breaker tripping operation of side.

3. header box protection device according to claim 2, it is characterised in that the logic unit also includes triode T₃, The output end for receiving the window comparator in the comparison module of direct current cables voltage signal accesses the triode T₃Colelctor electrode, The output end of the direct current cables Fault Identification module accesses the triode T₃Base stage, the triode T₃Emitter stage with Guide wire is connected, when the difference of voltage signal on the voltage signal and direct current cables of photovoltaic DC-to-AC converter is more than the threshold of comparator voltage Value, and receive when the absolute value of voltage signal and the comparison voltage difference of the comparison module of direct current cables is more than or equal to setting value to Execution unit sends instruction.

4. header box protection device according to claim 3, it is characterised in that the logic unit also includes triode T₂, The signal of comparison module output in parallel accesses the triode T₂Colelctor electrode, triode T₃Emitter stage access triode T₂ Base stage, the triode T₂Emitter stage connection guide wire.

5. header box protection device according to claim 3, it is characterised in that described direct current cables Fault Identification module Including operational amplifier and comparator, the operational amplifier is accessed on the voltage signal and direct current cables of photovoltaic DC-to-AC converter side Voltage signal, the input of comparator is respectively connected to the output end and comparison voltage of operational amplifier.

6. header box protection device according to claim 1, it is characterised in that the logic unit also includes fuse and recognized Module, fuse identification module is in parallel with comparison module, and the fuse identification module receives voltage signal, the photovoltaic electric of direct current cables The voltage signal and comparison voltage of cable, are compared electric when the voltage signal of direct current cables is more than with the difference of the voltage signal of photovoltaic cable Pressure, sends to the execution unit and instructs.

7. header box protection device according to claim 6, it is characterised in that described logic unit also includes protection mould Block, the output signal access protection module of comparison module in parallel is connected, and protection module outputs signal to execution unit.