CN208674865U - Dynamic is let out can device, equipment and DC transmission system - Google Patents

Abstract

The utility model discloses a kind of dynamics to let out energy device, equipment and DC transmission system, wherein, it includes: to let out that first switch can be provided between device and anode connection terminal and/or cathode connecting pin that dynamic, which lets out energy device, controllable switching module is let out energy device investment DC transmission line for control dynamic or is cut off from DC transmission line；Energy module is let out, the one end for letting out energy module is connect with the first end of controllable switching module, for consuming direct current energy；Voltage support module, one end of voltage support module are connect with the second end of controllable switching module, and the other end of voltage support module is connect with the other end for letting out energy module, for providing voltage for inverter side converter blocking.In the fault clearance of the continuous commutation failure of DC transmission system, disconnect first switch, dynamic can rapidly be cut off and let out energy device, it avoids voltage support module charging bring system during DC power-supply system restores from restoring slow problem, system more rapidly operation back to normal can be made.

Description

Dynamic is let out can device, equipment and DC transmission system

Technical field

The utility model relates to technical field of direct current power transmission, and in particular to letting out to a kind of dynamic can device, equipment and direct current Transmission system.

Background technique

As " transferring electricity from the west to the east " strategy is gradually implemented, extra-high voltage direct-current transmission engineering concentration puts into operation, and China is completed the world The AC-DC hybrid power grid that upper capacity is maximum, topology is most complicated.Ultra-high DC single returns the continuous promotion of transmission capacity, so that " tetanic weak friendship " feature shows, is mainly reflected in: first is that receiving end power grid is mostly load center, multi-infeed DC drop point is concentrated, respectively Electrical distance is closer between Inverter Station, and converter station near region fault in ac transmission system may cause multiple-circuit line while commutation failure occurs； Second is that sending end power grid is energy concentrated area, AC system connection is relatively weak, if inverter side commutation failure causes dc power Conveying occurs temporarily to interrupt, and will lead to the important section of sending end grid parts more than stability limit, part fired power generating unit hypervelocity, wind-powered electricity generation Unit seriously threatens system safe and stable operation because of low pressure or the extensive off-grid of high pressure.

For this purpose, how to guarantee DC inversion side recur commutation failure cause inverter side be latched after, rectification side power It is normal submitting become urgent problem to be solved.

Utility model content

The technical problem to be solved by the present invention is to guarantee DC inversion side recur commutation failure cause it is inverse After becoming side locking, the normal submitting of rectification side power.

According in a first aspect, the utility model embodiment provide a kind of dynamic let out can device, in DC power transmission system Unite continuous commutation failure when, let out to direct current energy can, comprising: anode connection terminal, cathode connecting pin and let out can device, let out energy It is provided with first switch between device and anode connection terminal and/or cathode connecting pin, letting out energy device includes: controllable switching module, Energy device investment DC transmission line is let out for control dynamic or is cut off from DC transmission line；Energy module is let out, the one of energy module is let out End is connect with the first end of controllable switching module, for consuming direct current energy；Voltage support module, one end of voltage support module Connect with the second end of controllable switching module, the other end of voltage support module with let out can the other end of module connect, for for Inverter side converter blocking provides voltage.

Optionally, controllable switching module includes: diode, second switch and third switch；The anode and second of diode One end connection of switch connects for connecting anode connection terminal or cathode connecting pin, one end of cathode and the third switch of diode It connects, for connecting the one end for letting out energy module, the other end of second switch is connect with the other end that third switchs, for connecting voltage One end of supporting module.

Optionally, letting out energy module includes resistance.

Optionally, voltage support module includes capacitor.

According to second aspect, the utility model embodiment provide a kind of dynamic let out can equipment, dynamically let out can equipment include: Dynamic as described in above-mentioned first aspect any one is let out can device；Detection device is connect with DC transmission line, straight for detecting Flow the operating status of transmission system；Controlling terminal, respectively with dynamically let out can device and detection device connect, for receiving it is former When hindering clear signal, control first switch is disconnected, so that it is out of service dynamically to let out energy device.

Optionally, controlling terminal is also used to dynamically letting out and device period out of service can control second switch and third switch It disconnects.

Optionally, controlling terminal is also used to after DC transmission system restores stable state, control first switch closure.

Optionally, controlling terminal includes: voltage comparator, is connect with detection device, is detected for will test device Voltage value obtains comparison result compared with preset voltage value；Drive module is connect with voltage comparator, for according to compare knot Fruit drives first switch, second switch and third switch to execute corresponding movement.

Optionally, controlling terminal further include: timing module is connect with voltage comparator and drive module respectively, for uniting The voltage value that meter detection device detects is less than the duration of preset voltage value；Drive module is when duration is more than default When long, second switch and third is driven to close the switch, so that dynamic lets out energy equipment investment operation.

According to the third aspect, the utility model embodiment provides a kind of DC transmission system, comprising: such as above-mentioned second party The dynamic of face any one description is let out can equipment；Receiving end is connect with DC power transmission line, for direct current to be converted into exchanging Electricity.

Optionally, receiving end includes inverter, and controlling terminal is also used to: detecting that continuous commutation, which occurs, loses in detection device When the operation conditions lost, control inverter locking；When the operation conditions that detection device detects continuous commutation failure is removed, control Inverter unlock.

Optionally, receiving end further includes smoothing reactor, and the direct current that inverter is arranged in and dynamically lets out between energy device is defeated In electric line；Capacitor is used to cooperate with smoothing reactor so as to flow through the current over-zero of inverter.

Dynamic provided by the embodiment of the utility model lets out energy device, equipment and DC transmission system, and letting out can device and anode First switch is provided between connecting pin and/or cathode connecting pin, controllable switching module lets out energy device investment for controlling dynamic DC transmission line is cut off from DC transmission line；Energy module is let out, letting out can one end of module and the first end of controllable switching module Connection, for consuming direct current energy；The second end of voltage support module, one end of voltage support module and controllable switching module connects It connects, the other end of voltage support module is connect with the other end for letting out energy module, for providing voltage for inverter side converter blocking. In the fault clearance of the continuous commutation failure of DC transmission system, first switch is disconnected, dynamic can be rapidly cut off and let out and can fill It sets, voltage support module charging bring system during DC power-supply system restores is avoided to restore slow problem, it can be with Make system more rapidly operation back to normal.The wherein voltage that voltage support circuit is stored when system is normal can be System discharges when abnormal, can not only maintain the DC voltage of DC transmission system, can also promote inverter current zero passage, then Reliable locking.Meanwhile power bypass device can cut-off big DC current to avoid using dc switch, save expensive high pressure Direct current on-off device.

Optionally embodiment, the transmission of electricity situation of detection device real-time detection DC transmission line are detecting that direct current is defeated When the continuous commutation failure of electric system, inverter can not send out the dc power of sending end, and controlling terminal controls power bypass device It puts into DC transmission system, the dc power of sending end is consumed, more effectively prevent a large amount of power of sending end from turning It moves, reduces the risk of sending end Transient Instability, bilateral direct current caused by continuous commutation failure is avoided to be latched, improve system fortune Capable safety and stabilization.

Detailed description of the invention

Fig. 1 shows the schematic diagram that the utility model embodiment dynamic lets out energy device；

Fig. 2 shows the topological schematic diagrames that the utility model embodiment dynamic lets out energy device；

Fig. 3 shows another topological schematic diagram that the utility model embodiment dynamic lets out energy device；

Fig. 4 shows the schematic diagram that the utility model embodiment dynamic lets out energy equipment；

Fig. 5 shows the schematic diagram of the utility model embodiment DC transmission system.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.In addition, term " first ", " second " etc. are used for description purposes only, it is not understood to indicate or imply Relative importance.

The utility model embodiment provide a kind of dynamic let out can device, which can be set in DC transmission system On, when continuous commutation failure occurs for DC transmission system, the direct current energy of sending end is carried out to let out energy, is more effectively prevented The a large amount of power transfers of sending end, reduce the risk of sending end Transient Instability, avoid bilateral direct current caused by continuous commutation failure Locking, as shown in Figure 1, this dynamically let out can device include:

Anode connection terminal 1, cathode connecting pin 2 and let out can device 3, let out can device 4 and anode connection terminal 1 and/or cathode connect It connects and is provided with first switch K1 between end 2, letting out energy device 3 includes: controllable switching module 31, lets out energy device for control dynamic and throws Enter DC transmission line or is cut off from DC transmission line；Let out can module 32, let out can module 32 one end and controllable switching module 31 First end connection, for consuming direct current energy；Voltage support module 33, one end of voltage support module 33 and controllable switching mould The second end of block 31 connects, and the other end of voltage support module 33 is connect with the other end for letting out energy module 32, for being inverter side Converter blocking provides voltage.

In the particular embodiment, the inverter side in DC transmission line occurs for general continuous commutation failure in direct current transportation, Dynamic is let out energy device and be can be set in inverter side direct-flow input end, and dynamically letting out energy device is controllable device, in route normal transmission When, it is off working state, is disengaged position with DC transmission line, when continuous commutation failure occurs for inverter side, investment direct current is defeated In electric line, for consuming the direct current energy of rectification side submitting, can prevent the important section of sending end grid parts is more than to stablize pole Limit, part fired power generating unit hypervelocity, Wind turbines are because of low pressure or the extensive off-grid of high pressure.Guarantee the safety of power grid and generating equipment.

In an alternate embodiment of the invention, controllable switching module includes: diode D, second switch SW1 and third switch SW2；Two The anode of pole pipe D is connect for connecting anode connection terminal 1 or cathode connecting pin 2 with one end of second switch SW1, diode D's Cathode is connect with one end of third switch SW2, for connect let out can module 32 one end, the other end of second switch SW1 and the The other end of three switch SW2 connects, for connecting one end of voltage support module 32.

The energy specific circuit structure of device, which is let out, in conjunction with Fig. 2-dynamic shown in Fig. 3 illustrates that dynamic lets out the function of energy device, In the present embodiment, let out can module 32 may include resistance R, and can consume direct current energy or store direct current energy device it is equal Can be used as letting out in this implementation can module 32.Voltage support module 33 may include capacitor C, and be capable of the device of energy storage.It is dynamic State let out can device topological structure can for Fig. 2 or topological structure shown in Fig. 3, specifically, as shown in Fig. 2, diode D just Pole is connect with one end of anode connection terminal 1 and second switch SW1 respectively, the cathode of diode D respectively with the first end of capacitor C and One end of third switch SW2 connects, and the other end of second switch SW1 is connect with the other end that third closes SW2, and is connected to resistance The first end of R, the second end of capacitor C and the second end of resistance R are connect with cathode connecting pin 2.In the anode and anode of diode D First switch K1 is set between connecting pin 1 and/or between the second end of capacitor C and the second end and cathode connecting pin 2 of resistance R. In the present embodiment, it is illustrated so that both ends are respectively provided with first switch K1 as an example.

Fig. 3 shows dynamic and lets out energy another topological structure of device, specifically, the first end of resistance R is connect with anode respectively End 1 is connected with the first end of capacitor C, the second end of resistance R respectively with one end of second switch SW1 and third switch SW2 one End connection, the second end of capacitor C are connect with the anode of the other end of second switch SW1 and diode D respectively, and diode D's is negative The other end of pole and third switch SW2 ground connection 2.Between the anode and anode connection terminal 1 of diode D and/or capacitor C First switch K1 is set between two ends and the second end and cathode connecting pin 2 of resistance R.In the present embodiment, it is respectively provided with both ends It is illustrated for first switch K1.

The working principle that dynamic lets out energy device is described in detail below, when direct current system starts, first switch K1 closure, electricity Hold C charging, enter hot preparation state after the completion of to be charged, it is only necessary to which the electric current of very little maintains capacitor C voltage, basic inactivity damage Consumption.Direct current system is normally through sending end inverter, DC line, receiving end inverter transmission power to receiving end AC system.In receiving end When the system failure causes commutation failure, the second switch SW1 and third switch of energy device are dynamically let out in Control protection system starting SW2 closure, dynamically lets out device investment, and capacitor C and inductance resonant discharge, receiving end inverter are latched in current over-zero.Resistance R Electric discharge.After fault clearance, first switch K1 is disconnected, device is out of service.If there is no first switch K1, only by disconnecting second Switch SW1 and third switch SW2, will lead to capacitor C and puts into system again, and capacitor C charging, the resume speed of system subtracts Slowly；Setting first switch K1 can make dynamic let out can device cut off rapidly from DC transmission system.Disconnect first switch K1 Later, energy device period out of service is dynamically let out, then disconnects second switch SW1 and third switch SW2；In DC transmission system Restore after stablizing, recloses first switch K1, capacitor C charges again, into hot preparation state.

The utility model embodiment additionally provide a kind of dynamic let out can equipment, as shown in figure 4, dynamic let out can equipment include:

The dynamic of above-described embodiment description is let out can device 10；Detection device 20, connect with DC transmission line, straight for detecting The operating status for flowing transmission system, may include detect voltage value in DC transmission system, in current value or power at least One of；Controlling terminal 30, respectively with dynamically let out can device 10 and detection device 20 connect, in the removing of continuous commutation failure When, control first switch K1 is disconnected, so that it is out of service dynamically to let out energy device.In the particular embodiment, controlling terminal 30 can With the operating state signal detected according to detection device 20, judge whether the failure of continuous commutation failure is removed, if continuously The failure of commutation failure is removed, then controls first switch K1 disconnection.Optionally, controlling terminal can receive maintenance personal or by The fault clearance signal that electric end is sent, to disconnect first switch K1.Controlling terminal 30 be also used to dynamically let out can device 10 exit Second switch SW1 and third switch SW2 is controlled during operation to disconnect.Controlling terminal 30 is also used to restore steady in DC transmission system After state, control first switch K1 closure.Capacitor C charges again, into hot preparation state.

Detection device 20, connect with DC transmission line, for detecting the continuous commutation failure signal in DC transmission line.? In this specific embodiment, detection device 20 can detecte the voltage signal in DC transmission line, also can detecte direct current transportation Current signal in line, when commutation failure occurs in DC transmission line, the voltage in DC transmission line declines rapidly, and electric current is fast Speed rises, and sporadic commutation failure, inverter side can voluntarily adjust recovery, when continuous commutation failure occurs, lead to inversion Side locking, voltage decline rapidly, and electric current rises rapidly, and continues longer time, 20 real-time monitoring power transmission line of detection device The current or voltage on road, being greater than preset value or voltage in electric current for example can position 0.5s- more than after preset time less than preset value 2.5s can then confirmly detect commutation failure signal.In the present embodiment, detection device 20 can also detect DC transmission line Normal signal.In the present embodiment, the enlightenment state for dynamically letting out the first switch in energy device is closing device, defeated in direct current When electric system stable state, first switch is closed state, the capacitor charging of energy device is dynamically let out, into hot preparation state.Dynamic is let out Energy device 10 is connect with detection device 20, and the continuous commutation failure signal that detection device 20 can will test is sent to dynamic and lets out Energy device 10, and second switch SW1 and third switch the SW2 closure that dynamic lets out energy device 10 are triggered, so that it is put into direct current defeated In electric line.In the present embodiment, detection device 20 is also connect with receiving end, the continuous commutation failure letter that can be will test Number it is sent to receiving end, driving receiving end inverter locking.

Controlling terminal 30, respectively with dynamically let out can device 10 and detection device 20 connect, in the present embodiment, for basis Continuous commutation failure signal control dynamic is let out can the movement of device 10.In the particular embodiment, controlling terminal 30 can control dynamic State lets out the investment and excision of energy device 10, and by connecting with detection device 20, receiving detection device 20 detects controlling terminal 30 Continuous commutation failure signal, according to continuous commutation failure signal output for drive investment dynamic let out can device 10 driving letter Number, the normal signal that controlling terminal 30 can be detected with response detection device 20, output driving dynamic lets out the side of energy device 10 Road driving signal, letting out dynamic can the disengaging DC transmission system of device 10.In the present embodiment, controlling terminal 30, for by The control receiving end locking of lock-in control signal is exported under the triggering of the electric continuous commutation failure signal in end.In the particular embodiment, Controlling terminal 30 after receiving normal signal that detection device 20 detects or receiving fault clearance signal, open by control first It closes K1 to disconnect, can rapidly disconnect dynamic and let out energy device, avoid capacitor charging bring system from restoring slow problem, can make System more rapidly operation back to normal.

In an alternate embodiment of the invention, controlling terminal 30 may include voltage comparator, connect, is used for detection device 20 Voltage value that device 20 detects be will test compared with preset voltage value, obtain comparison result, alleged voltage comparator can be Single limit comparator, hysteresis loop comparator, window comparator, any one in the voltage comparators such as tri-state comparator；In the present embodiment In, controlling terminal 30 can also include current comparator.Electric current and pre-set current value for being detected to detection device 20 into Row compares.Timing module is connect with detection device 20 and voltage comparator respectively, for according to comparison result statistic mixed-state device 20 voltage values detected are less than the duration of preset voltage value；Drive module is connect with timing module, for driving second Switch SW1 and third switch SW2 closure, so that dynamic lets out energy device 10 and puts into DC transmission line.

In an alternate embodiment of the invention, drive module is connect with voltage comparator, the voltage for being arrived according to detection device 20 It is worth the comparison result driving first switch disconnection for being greater than preset voltage value, to disconnect the operation that dynamic lets out energy device 10 rapidly.? After first switch disconnects, driving device drives second switch SW1 and third switch SW2 to disconnect.In the particular embodiment, exist When detection device 20 detects that voltage value is greater than preset voltage value, line fault removal is indicated, DC transmission system restores normal Operation, drive module drives first switch closure, capacitor C is made to charge, and after capacitor C charging complete, dynamically lets out energy device and is in heat Preparation state.

In an alternate embodiment of the invention, detection device 20 and controlling terminal 30 can be the control system of inverter, detection dress Set 20 and controlling terminal 30 be arranged in receiving end 100, connect with inverter, and with dynamically let out energy device 10 connect, the control system System can control inverter locking according to the fault-signal (such as continuous commutation failure signal) of inverter side, can also be in inverter side Or DC power transmission line it is normal when control inverter locking unlock.In the particular embodiment, the driving mould in controlling terminal 30 Block is responded when the duration that the voltage value that timing module counts is less than preset voltage value being more than preset time, drives inverter side Converter blocking.In the present embodiment, controlling terminal 30 is after receiving commutation failure signal, output control inverter locking Block signal, the block signal drive inverter locking.When the voltage value of timing module statistics is greater than preset voltage value, control Terminal 30 processed issues unlocking signal, which drives inverter unlock.The voltage value that drive module is counted in timing module When greater than preset voltage value, driving inverter unlock.

To guarantee that inverter can be reliably latched when continuous commutation failure failure occurs, in an alternate embodiment of the invention, Inverter side is additionally provided with and the concatenated smoothing reactor of capacitor C, after letting out energy device and putting into DC transmission system, resistance It quickly being released to dc power, capacitor C can not only provide DC voltage, but also capacitor can also discharge to inverter, Since the back-emf of smoothing reactor acts on, it is forced to flow through the current over-zero of inverter, is latched it reliably.

The utility model provides a kind of DC transmission system, as shown in figure 5, DC transmission system includes: above-mentioned implementation The dynamic of example description is let out can equipment 200；Receiving end 100, connect with DC power transmission line, for direct current to be converted into exchanging Electricity.

In an alternate embodiment of the invention, the controlling terminal for dynamically letting out energy equipment 200 is also used to be controlled according to comparison result by electricity The inverter at end executes corresponding movement.The voltage comparator of controlling terminal connects with the detection device for dynamically letting out energy equipment 200 It connecing, for will test voltage value that device detects compared with preset voltage value, obtaining comparison result；Timing module, with voltage Comparator connection, the voltage value detected for statistic mixed-state device are less than the second duration of preset voltage value；Drive mould Block is connect with timing module, for the driving inverter locking when duration is more than preset time.

In an alternate embodiment of the invention, drive module is connect with voltage comparator, is also used to be detected according to detection device When voltage value is greater than preset voltage value, driving inverter unlock.

In an alternate embodiment of the invention, receiving end further includes smoothing reactor, setting inverter and dynamic let out can device it Between DC transmission line road；Dynamic lets out energy device and is also used to cooperate with smoothing reactor so as to flow through the electric current mistake of inverter Zero.

Receiving end 100 is mounted on DC transmission line road, is used for converting direct-current power into alternating-current power；In the present embodiment, Alleged receiving end 100 is direct current energy receiving end, and direct current energy can be converted to alternating current, specifically may include changes at different levels Power station and user terminal substation.

Dynamic lets out energy device 200, is mounted on the direct-flow input end of receiving end, in the continuous commutation failure signal of receiving end Triggering under put into DC power transmission line, and by sending end direct current energy let out can, in the present embodiment, usual direct current transportation Between substation or the distance between sending end and receiving end farther out, dynamically let out can equipment 200 can be set in receiving end Direct-flow input end.It can be set between the i.e. straight inverter in position and reactor of dotted line frame mark as shown in Figure 5.Dynamic is let out Can equipment 200 be used to put into DC transmission line under the triggering of the continuous commutation failure signal of receiving end, and by sending end 100 Direct current energy carries out letting out energy.In the particular embodiment, general continuous commutation failure occurs in DC transmission line in direct current transportation Inverter side, dynamically let out can equipment 200 be controllable device, in route normal transmission, be off working state, with DC transmission line It is put into DC power transmission line for disengaged position when continuous commutation failure occurs for inverter side, for consuming rectification side submitting Direct current energy, can prevent the important section of sending end grid parts be more than stability limit, part fired power generating unit hypervelocity, Wind turbines because Low pressure or the extensive off-grid of high pressure.Guarantee the safety of power grid and generating equipment.

In an alternate embodiment of the invention, as shown in figure 5, DC transmission system can also include: sending end 300, for conveying Direct current, in the present embodiment, alleged sending end are direct current energy output end, specifically may include thermal power plant's generating equipment By the direct current energy that rectifier exports, wind power plant passes through the direct current energy of rectifier output, the direct current of solar power generation output Any one or more in electric energy, in the present embodiment, sending end can also include substation, and alleged substation becomes to junior Power station conveying.In the present embodiment, sending end 300 may include the generating equipment 301 being sequentially connected in series, transformer 302, rectifier 303 and first smoothing reactor 304, the other end of the first smoothing reactor 304 connect with DC transmission line, generating equipment 301 Alternating current is generated, direct current is exported by transformer 302 and rectifier 303.

In an alternate embodiment of the invention, receiving end 100 include be sequentially connected in series the second smoothing reactor 101, inverter 102, Second transformer 103 and electrical equipment 104.The other end of second smoothing reactor 101 is connect with DC transmission line, the second flat wave Reactor 101 is connect by first switch K1, second switch SW1 and third switch SW2 with capacitor C, for discharging capacitor C Back-emf is generated, 102 current over-zero of inverter is driven.It can guarantee that continuous commutation failure is occurring, letting out can device investment direct current After in transmission system, capacitor C electric discharge ensures that inverter 102 is reliably latched.

To let out in the present embodiment can device be arranged in receiving end, be the sending end and by electricity due in DC transmission system Farther out, controlling terminal is generally the control system of inverter to end generally distance, may if energy device investment or excision are let out in control Communication device is needed to be communicated, it is general to select the communication modes such as fiber optic communication, it may be necessary to be laid with fiber optic cable, not only engineering Amount is big, and higher cost, let out can device be mounted on receiving end, can will let out can device directly pass through with controlling terminal and communicate Cable connection, can save fairly large laying fiber optic cable, also, receiving end is generally proximate to city, can device if let out It breaks down, maintenance personal can comparatively fast make a response and reach scene, to ensure to let out the safe operation of energy device.

Although being described in conjunction with the accompanying the embodiments of the present invention, those skilled in the art can not departed from Various modifications and variations can be made in the case where the spirit and scope of the utility model, and such modifications and variations are each fallen within by appended Within claim limited range.

Claims (11)

1. a kind of dynamic lets out energy device, energy is let out for being carried out to direct current energy in the continuous commutation failure of DC transmission system, Be characterized in that, comprising: anode connection terminal, cathode connecting pin and let out can device, it is described let out can device and the anode connection terminal and/ Or first switch is provided between the cathode connecting pin, the energy device of letting out includes:

Controllable switching module is let out and device investment DC transmission line or can be cut off from DC transmission line for controlling the dynamic；

Energy module is let out, described one end for letting out energy module is connect with the first end of controllable switching module, for consuming direct current energy；

One end of voltage support module, the voltage support module is connect with the second end of controllable switching module, the voltage branch The other end of hold mode block is connect with the other end for letting out energy module, described for providing voltage for inverter side converter blocking Voltage support module includes capacitor.

2. dynamically letting out energy device as described in claim 1, which is characterized in that the controllable switching module includes: diode, the Two switches and third switch；

The anode of diode is connect for connecting the anode connection terminal or the cathode connecting pin with one end of second switch, and two The cathode of pole pipe is connect with one end that third switchs, for connect it is described let out can module one end, the other end of second switch with The other end connection of third switch, for connecting one end of the voltage support module.

3. dynamically letting out energy device as claimed in claim 2, which is characterized in that the energy module of letting out includes resistance.

4. a kind of dynamic lets out energy equipment, which is characterized in that the dynamic lets out energy equipment and includes:

Dynamically letting out as claimed in claim 2 or claim 3 can device；

Detection device is connect with DC transmission line, for detecting the operating status of DC transmission system；

Controlling terminal, lets out energy device with the dynamic respectively and the detection device is connect, for receiving fault clearance letter Number when, control the first switch and disconnect so that the dynamic let out can device it is out of service.

5. dynamically letting out energy equipment as claimed in claim 4, which is characterized in that the controlling terminal is also used to let out in the dynamic The second switch can be controlled device period out of service and third switch disconnects.

6. dynamically letting out energy equipment as claimed in claim 5, which is characterized in that

The controlling terminal is also used to after the DC transmission system restores stable state, controls the first switch closure.

7. the dynamic as described in claim 4-6 any one is let out can equipment, which is characterized in that the controlling terminal includes:

Voltage comparator is connect with the detection device, the voltage value and predeterminated voltage for detecting the detection device Value compares, and obtains comparison result；

Drive module is connect with the voltage comparator, for driving the first switch, described second to open according to comparison result It closes and third switch executes corresponding movement.

8. dynamically letting out energy equipment as claimed in claim 7, which is characterized in that the controlling terminal further include: timing module, point It is not connect with the voltage comparator and the drive module, is less than institute for counting the voltage value that the detection device detects State the duration of preset voltage value；

The drive module drives the second switch and the third to switch and closes when the duration is more than preset duration It closes, so that the dynamic lets out energy equipment investment operation.

9. a kind of DC transmission system characterized by comprising

Dynamic as described in claim 4-8 any one is let out can equipment；

Receiving end is connect with DC power transmission line, is used for the converting direct-current power into alternating-current power.

10. DC transmission system as claimed in claim 9, which is characterized in that the receiving end includes inverter, the control Terminal is also used to:

When the detection device detects the operation conditions that continuous commutation failure occurs, the inverter locking is controlled；

When the operation conditions that the detection device detects the continuous commutation failure is removed, the inverter unlock is controlled.

11. DC transmission system as claimed in claim 10, which is characterized in that the receiving end further includes smoothing reactor, The inverter is set and the dynamic let out can be on the DC transmission line road between device；

The capacitor is used to cooperate with the smoothing reactor so as to flow through the current over-zero of the inverter.