CN204205615U - Take over seamlessly circuit - Google Patents

Abstract

The utility model discloses one and take over seamlessly circuit.Wherein, this takes over seamlessly circuit and comprises: the first load; First power supply, for the power supply as the first load; Second source, for the first back-up power source as the first load; And electrical source exchange parts, be connected between the first power supply and the first load, and be connected between second source and the first load, for the power supply of the first load is switched power supply to second source by first.By the utility model, solve circuit handoff procedure in correlation technique, the problem that voltage, current break and load have a power failure in short-term can be produced.

Description

Take over seamlessly circuit

Technical field

The utility model relates to field of power, takes over seamlessly circuit in particular to one.

Background technology

In operation of power networks, often to carry out the adjustment of load and redistribute, now need the operation carrying out switching over (back brake).Need to carry out load switching during electric load skewness weighing apparatus, as transformer bay is load unbalanced, low-voltage three-phase load is uneven.Namely the effective way solving imbalance problem is down cutting load, when solving different transformer load inequality, adjusts different transformer institute on-load and makes it mutually balance, cut three-phase load and make it tend to balance when solving three-phase imbalance.

At present, a kind of mode of switching over is that " cold " switches, and namely first disconnects the power supply of load with switch, then powers to load with new power supply.This switching mode is simple to operate, but can cause the power failure in short-term of load.When " cold " switching mode grid switching operation, if use quick diverter switch, power-off time a few tens of milliseconds be can be foreshortened to, but in handoff procedure, voltage, the discontinuous situation of current waveform still there will be.When solving low voltage three-phase imbalance problem, can only take the mode that " cold " switches, inevitably can there is short term outage in user in handoff procedure.Another kind of common " heat " changing method is that when double-bus is powered, the bus that closes carries out Loop Closing Operation, makes the equipotential of two buses, is then operated by equipotential, is powered by circuit switching, then disconnect mother to new bus.

No matter be that " cold " switches or " heat " switches, need when switch opening operation to disconnect load current, when switch closed procedure, both sides have relative alternating voltage, namely in circuit handoff procedure, can produce voltage, current break.Electric arc in operating process will consume arc-extinguishing medium and reduces the life-span of switch contact, and cyclization impulse current also can produce some negative effects to electrical network and equipment.

For circuit handoff procedure in correlation technique, the problem that voltage, current break and load have a power failure in short-term can be produced, not yet propose effective solution at present.

Utility model content

Main purpose of the present utility model is to provide one to take over seamlessly circuit, to solve circuit handoff procedure in correlation technique, can produce the problem that voltage, current break and load have a power failure in short-term.

To achieve these goals, according to another aspect of the present utility model, provide one and take over seamlessly circuit.This takes over seamlessly circuit and can comprise: the first load; First power supply, for the power supply as above-mentioned first load; Second source, for the first back-up power source as above-mentioned first load; And electrical source exchange parts, be connected between above-mentioned first power supply and above-mentioned first load, and be connected between above-mentioned second source and above-mentioned first load, for the power supply of above-mentioned first load is switched power supply to above-mentioned second source by above-mentioned first.

Further, above-mentioned electrical source exchange parts comprise: the first switches set, be connected between above-mentioned first power supply and above-mentioned first load, and be connected between above-mentioned second source and above-mentioned first load, for controlling for path or open circuit between above-mentioned first power supply and above-mentioned first load, and control to be path or open circuit between above-mentioned second source and above-mentioned first load; Second switch group, has input and output, and above-mentioned input is connected with above-mentioned first power supply, and is connected with above-mentioned second source; And current transformer, between the above-mentioned output being connected to above-mentioned first load and above-mentioned second switch group, wherein, above-mentioned second switch group is path or open circuit for controlling between above-mentioned first power supply and above-mentioned current transformer, and controls to be path or open circuit between above-mentioned second source and above-mentioned current transformer.

Further, in ac power supply system, above-mentioned current transformer is indirect AC convertor; Or in DC power-supply system, above-mentioned current transformer is dc-dc converter.

Further, above-mentioned first switches set comprises: the one one switch, is connected between above-mentioned first power supply and above-mentioned first load; One or two switch, is connected between above-mentioned second source and above-mentioned first load, and/or above-mentioned second switch group comprises: the 21 switch, is connected between above-mentioned first power supply and above-mentioned current transformer; Two or two switch, is connected between above-mentioned second source and above-mentioned current transformer.

Further, above-mentioned first power supply is the first bus power supply, and above-mentioned second source is the second bus power supply; Or above-mentioned first power supply and above-mentioned second source are any one in following power supply: A phase power supply, B phase power supply and C phase power supply, and above-mentioned first power supply and above-mentioned second source are not homophase power supply.

Further, the above-mentioned circuit that takes over seamlessly also comprises: the second load; Above-mentioned first power supply is also for the power supply as above-mentioned second load; Above-mentioned second source is also for the first back-up power source as above-mentioned second load; And above-mentioned electrical source exchange parts are also connected between above-mentioned first power supply and above-mentioned second load, and be connected between above-mentioned second source and above-mentioned second load, for the power supply of above-mentioned second load is switched power supply to above-mentioned second source by above-mentioned first.

Further, above-mentioned electrical source exchange parts comprise: the 3rd switches set, be connected between above-mentioned first power supply and above-mentioned second load, and be connected between above-mentioned second source and above-mentioned second load, for controlling for path or open circuit between above-mentioned first power supply and above-mentioned second load, and control to be path or open circuit between above-mentioned second source and above-mentioned second load;

Further, the above-mentioned circuit that takes over seamlessly also comprises: the 3rd power supply, for the second back-up power source as above-mentioned first load or above-mentioned second load.

By the utility model, adopt the first load; First power supply, for the power supply as the first load; Second source, for the first back-up power source as the first load; And electrical source exchange parts, be connected between the first power supply and the first load, and be connected between second source and the first load, for the power supply of the first load is switched power supply to second source by first, solve circuit handoff procedure in correlation technique, the problem that voltage, current break and load have a power failure in short-term can be produced, reach in circuit handoff procedure, prevent the sudden change of electric current, voltage, the effect making load can complete power supply when uninterrupted power supply to take over seamlessly.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the schematic diagram taking over seamlessly circuit according to the utility model embodiment;

Fig. 2 is the schematic diagram preferably taking over seamlessly circuit according to the utility model embodiment; And

Fig. 3 is the schematic diagram preferably taking over seamlessly circuit according to another of the utility model embodiment.

Embodiment

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

The application's scheme is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present application, technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment is only the embodiment of the application's part, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all should belong to the scope of the application's protection.

It should be noted that, term " first ", " second " etc. in the specification of the application and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged, in the appropriate case so that the embodiment of the application described herein.In addition, term " comprises " and " having " and their any distortion, and intention is to cover not exclusive comprising.

According to embodiment of the present utility model, provide one and take over seamlessly circuit, this takes over seamlessly circuit for taking over seamlessly between power supply.

Fig. 1 is the schematic diagram taking over seamlessly circuit according to the utility model embodiment.As shown in Figure 1, this circuit can comprise: the first load K1, the first power supply 10, second source 20 and electrical source exchange parts 30.

First load K1 can be powered by the first power supply 10 or second source 20.Due to when electric load skewness weighs, need to switch the power supply of load.And switching in the process of power supply, electrical source exchange parts 30 can prevent circuit generation voltage jump, current break and load from having a power failure in short-term, thus realize taking over seamlessly of power supply.Such as, load unbalanced at transformer bay, the power supply of the first load K1 can be switched to new power by old Power supply and power by electrical source exchange parts 30, and herein, old power supply can be the first power supply 10, and new power can be second source 20.

First power supply 10 may be used for the power supply as the first load K1.Wherein, the first power supply 10 can be AC power, and such as, it can be ac bus power supply.When implementing, first power supply 10 can as the original power supply of the first load K1, and when the first power supply 10 breaks down, or when the load of the first power supply 10 is too high, the power supply of the first load K1 can be switched to other back-up power source by the first power supply 10.

Such as, second source 20 may be used for the first back-up power source as the first power supply 10.Wherein, second source 20 also can be AC power, and such as, it can be ac bus power supply.When implementing, if when the first power supply 10 breaks down, or when the load of the first power supply 10 is too high, the power supply of the first load K1 can be switched to second source 20 by the first power supply 10.

Electrical source exchange parts 30 are connected between the first power supply 10 and the first load K1, and are connected between second source 20 and the first load K1, for the power supply of the first load K1 is switched to second source 20 by the first power supply 10.Wherein, the combination of devices such as switch and converter that electrical source exchange parts 30 can have an electrical source exchange effect forms.

It should be noted that, in the utility model embodiment, the power supply of the first load K1 can be switched to second source 20 by the first power supply 10 by electrical source exchange parts 30 in the following manner:

Need to indicate in advance, the power supply that direct power supply hereinafter described and power supply pass through switch, wire connects its load form, centre does not have the transform part of electric energy; Indirect power supply and power supply to pass through after transformation of electrical energy link powering load again, and such as power supply is by the form of electronic power convertor powering load.What " connection " hereinafter described described is the form of directly powering.

During beginning, the first load K1 is connected to the first power supply 10, first power supply 10 and directly powers to the first load K1; Afterwards, the first load K1 is powered by the first power supply 10 and second source 20 simultaneously, and wherein the first power supply is direct power-supplying forms, and second source 20 is indirect power-supplying forms; Now increase the power output of second source 20 gradually, reduce the power output of the first power supply 10, until be zero; Disconnect the first power supply 10 again, now, the first load K1 is powered by electrical source exchange parts 30 are independent indirectly by second source 20; Regulate the amplitude of the output voltage of electrical source exchange parts 30, phase place and frequency, make it identical with second source 20; Afterwards, the first load K1 is connected to second source 20, and the first load K1 is directly powered by second source 20.In each handoff procedure, if due to the operation of Closing Switch, then the voltage magnitude of switch both sides, phase place, frequency are identical, and the moment of closing a floodgate, the impulse current flow through is almost nil; If the operation of cut-off switch, then the electric current that flows through of disjunction preceding switch is almost nil, therefore, switching manipulations all in whole electrical source exchange process is made not have voltage jump, current break, therefore the requirement of handoff procedure to load current and arc extinguishing is greatly reduced, and substantially prolongs the useful life of electrical source exchange parts 30, achieve taking over seamlessly between two asynchronous power supplies, and can not power failure be caused in handoff procedure.

According to the utility model embodiment, be connected to the first power supply 10, first power supply 10 by the first load K1 and the first load K1 is directly powered; Afterwards, the first load K1 is powered by the first power supply 10 and second source 20 simultaneously, and wherein the first power supply is direct power-supplying forms, and second source 20 is indirect power-supplying forms; Now increase the power output of second source 20 gradually, reduce the power output of the first power supply 10, until be zero; Disconnect the first power supply 10 again, now, the first load K1 is powered by electrical source exchange parts 30 are independent indirectly by second source 20; Regulate the amplitude of the output voltage of electrical source exchange parts 30, phase place and frequency, make it identical with second source 20; Afterwards, the first load K1 is connected to second source 20, and the first load K1 is directly powered by second source 20.The sudden change of voltage, electric current can not be produced when Switching power, reach the first load K1 and can complete the effect that power supply takes over seamlessly in uninterrupted power supply situation.

Preferably, in the utility model embodiment, as shown in Figure 2,3, aforementioned power source switching part can comprise: the first switches set S10, second switch group S20 and current transformer 301.

First switches set S10 is connected between the first power supply 10 and the first load K1, and be connected between second source 20 and the first load K1, for controlling to be path or open circuit between the first power supply 10 and the first load K1, and be path or open circuit between control second source 20 and the first load K1; Second switch group S20 has input and output, and input is connected with the first power supply 10, and is connected with second source; And current transformer 301 is connected between the first load K1 and the output of second switch group S20, wherein, second switch group S20 is for controlling to be path or open circuit between the first power supply 10 and current transformer 301, and be path or open circuit between control second source 20 and current transformer 301, current transformer 301 may be used for regulating the power being delivered to the first load K1.

Because the first power supply 10 can be the power supply that the first bus provides for the first load K1, second source 20 can be the power supply that the second bus provides for the first load K1, therefore the first switches set S10 is connected between the first bus and the first load K1, and is connected between the second bus and the first load K1.First power supply 10 connects the first load K1, then the first power supply 10 is that the first load K1 powers, and disconnects and then stopping power supply; Second source connects the first load K1, then second source 20 is that the first load K1 powers, and disconnects and then stopping power supply.

Current transformer 301 is connected between the first load K1 and second switch group S20, and current transformer 301 is electric equipments that voltage, frequency, phase place and other electricity or the characteristic exported can change.When the first power supply 10 being switched to second source 20, first its rectification inversion grid connection is again made by access current transformer 301, now the first load K1 is powered by current transformer 301 and the first power supply 10 simultaneously, increase current transformer 301 output current, first power supply 10 electric current is cut near zero, now disconnect the first power supply 10, first load K1 is independently-powered by current transformer 301, change the phase place of current transformer 301 output AC electricity gradually, amplitude, frequency, make the phase place of itself and second source 20, amplitude, frequency is identical, close the power switch of second source 20 in the first switches set 10, then the power supply of current transformer 301 is exited, first load K1 is powered separately by second source 20.

According to the utility model embodiment, by current transformer 301, first power supply 10 is switched to second source 20, after in handoff procedure, the first load K1 is powered by current transformer 301 and the first power supply 10 simultaneously, increase the power output of current transformer 301, reduce the power output to zero of the first power supply 10, connect second source 20, exit current transformer 301, first load K1 connects second source 20 and powers, therefore can not produce the sudden change of voltage, electric current when Switching power, reach load and can complete the effect that power supply takes over seamlessly in uninterrupted power supply situation.

Preferably, in the utility model embodiment, aforesaid current transformer 301 can be: being indirect AC convertor in AC system, is dc-dc converter in DC power-supply system.

Preferably, in the utility model embodiment, electrical source exchange can be carried out in the following manner: when being switched to by current transformer 301 on-state by open-circuit condition between second source 20 and the first load K1, increase the power stage of current transformer 301 and the power stage of reduction the first power supply 10, and when the power stage of the first power supply 10 is decreased to zero, between the first power supply 10 and the first load K1, switch to open-circuit condition by on-state.

Preferably, in the utility model embodiment, when the power stage of the first power supply 10 is decreased to zero, after switching to open-circuit condition by on-state between first power supply 10 and the first load K1, current transformer 301 first regulates the output voltage of self identical with the output voltage of second source 20, then by current transformer 301 short circuit.

As shown in Figure 2, the first switches set S10 group S10 can comprise: switch S 101 and switch S 102, and switch S 101 connects or disconnects the first load K1 for controlling the first power supply 10; Switch S 102 connects or disconnects the first load K1 for controlling second source 20.Wherein, second switch group group S20 can comprise: switch S 201 and switch S 202, and switch S 201 connects or disconnects current transformer 301 for controlling the first power supply 10; Switch S 202 connects or disconnects current transformer 301 for controlling second source 20.

Preferably, in the utility model embodiment, the first switches set S10 group S10 can be single knife switch group, can comprise: the one one switch, is connected between the first power supply 10 and the first load K1; One or two switch, is connected between second source 20 and the first load K1, and/or second switch group group S20 can be single knife switch group, can comprise: the 21 switch, is connected between the first power supply 10 and current transformer 301; Two or two switch, is connected between second source 20 and current transformer 301.

First switches set S10 group S10 can be single-pole double-throw switch (SPDT), and when it is thrown on the first power supply 10, the one one switch closes, and namely the first power supply 10 is connected with the first load K1; When it is thrown on second source 20, the one or two switch closes, and namely second source 20 is connected with the first load K1.Second switch group S20 can be single-pole double-throw switch (SPDT) for single knife switch, and when it is thrown on the first power supply 10, the 21 switch closes, and namely the first power supply 10 is connected with current transformer 301; When it is thrown on second source 20, the two or two switch closes, and namely second source 20 is connected with current transformer 301.

Preferably, in the utility model embodiment, the first power supply 10 can be the first bus power supply, and second source 20 can be the second bus power supply; Or the first power supply 10 and second source 20 are any one in following power supply: A phase power supply, B phase power supply and C phase power supply, and the first power supply and second source are not homophase power supply.

Preferably, in the utility model embodiment, the aforementioned circuit taking over seamlessly power supply can also comprise: the second load K2.Here the first power supply 10, second source 20 and electrical source exchange parts 30, to identical with to the first load K1 in previous embodiment of the effect of the second load K2, do not repeat them here.

Preferably, in the utility model embodiment, electrical source exchange parts 30 can comprise: the 3rd switches set S30, current transformer 301 and the 4th switch S 40.

3rd switches set S30 is connected between the first power supply 10 and the second load K2, and be connected between second source 20 and the second load K2, connect or disconnect the second load K2 for controlling the first power supply 10, and control second source 20 connects or disconnects the second load K2.

Current transformer 301 is connected between the second load K2 and second source 20, for regulating the voltage and/or electric current that are delivered to the second load K2.

4th switch S 40 is connected between current transformer 301 and the second load K2.As shown in Figure 2, the 4th switch S 40 can comprise: switch S 401 and switch S 402, and switch S 401 may be used for being connected with the first load K1, and switch S 402 may be used for being connected with the second load K2.

As shown in Figure 2, first load K1 works in the first bus, switch S 201 closes, switch S 202 disconnects, switch S 101, switch S 102, switch S 401, switch S 402 are in off-state, first load K1 switches to the second bussed supply by the first bus, when reality is implemented, and can commutation circuit with the following method:

Close a switch S202, starts current transformer 301, regulates current transformer 301 output voltage, make its phase place, amplitude, frequency identical with the first busbar voltage; Close a switch S401, and the first load K1 is powered by the first bus and current transformer 301 simultaneously; Increase current transformer 301 electric current to export, reduce the electric current to zero that switch S 101 flows through; Cut-off switch S101, the first load K1 is independently-powered by current transformer 301; Change voltage magnitude, phase place, the frequency of inductance L 2 output of current transformer 301, make it with the second busbar voltage amplitude, phase place, frequency be identical, close S102, locking current transformer 301 afterwards, disconnect S401, S202, here, the first load K1 turns independently-powered by the second bus; That is to be switched to the second bus by the first bus independently-powered for the first load K1, and handover operation completes.Independently-powered to the first load K1 is switched to the first bus by the second bus, then can close a switch S201, S401, and the first load K1 is powered by the second bus and current transformer 301 simultaneously; When the second bussed supply electric current is zero, disconnect S102, afterwards, the voltage magnitude, phase place, the frequency that regulate current transformer S301 to export, make identical with a bus, close S101, locking unsteady flow afterwards 301, disconnect S401, S201, current transformer 301 exits power supply, first load K1 is independently-powered by the first bus, and switching completes.

Owing to can be completed the second load K2 taking over seamlessly between first, second bus by same flow process, therefore do not repeat them here.

In addition, the flexibility utilizing the circuit originally taking over seamlessly power supply can realize active power between first, second bus exchanges, the output power between first, second bus of dynamic adjustments.Concrete condition is: Closing Switch S102, switch S 401, switch S 201, then current transformer two ends connect first, second bus respectively, now can work in different mode, and the power flexible realized between first, second bus switches.

According to the utility model embodiment, owing to taking over seamlessly the sudden change that can not produce voltage, electric current between first, second bus, therefore reach load and can complete the effect that power supply takes over seamlessly in uninterrupted power supply situation.

Fig. 3 is the schematic diagram preferably taking over seamlessly circuit according to another of the utility model embodiment.As shown in Figure 3:

Switch S 103 closes, other switches disconnect, first load K1 works in A phase, switching target is the first load K1 is switched to B phase by A phase power, when reality is implemented, can commutation circuit with the following method: close a switch S204, starts current transformer 301, regulate current transformer 301 output voltage, make its phase place, amplitude, frequency identical with A phase voltage; Close a switch S40, and the first load K1 is powered by current transformer 301 and switch S 103 simultaneously; Increase the power stage of current transformer 301, reduce the electric current to zero that switch S 103 flows through; Cut-off switch S103, the first load K1 is independently-powered by current transformer 301; Change voltage magnitude and the phase place of inductance L 2 output in current transformer 301, make it close to B phase voltage amplitude and phase place; Switch S 104 is closed, and locking current transformer 301, cut-off switch S40 and switch S 204, current transformer 301 exits power supply, and now the first load K1 is independently-powered by B phase, and switching completes.Taking over seamlessly of powering between any two-phase of A, B, C three-phase can be completed in the same way.

Preferably, in the utility model embodiment, this takes over seamlessly circuit and can also comprise: the 3rd power supply.3rd power supply is used for the second back-up power source as the first load or the second load.

In this example, S203, S204, S205 can form a threephase switch jointly, connect current transformer respectively, and now current transformer friendship-straight conversion fraction adopts the mode of three phase rectifier to complete.

With aforementioned utility model embodiment, the power flexible that this circuit taking over seamlessly power supply also can complete between two-phase exchanges.

According to the utility model embodiment, due to two-phase mutually between take over seamlessly the sudden change that can not produce voltage, electric current, therefore reaching load can switch the effect of power supply phase by finishing smooth in uninterrupted power supply situation.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.

Claims (8)

1. take over seamlessly a circuit, it is characterized in that, comprising:

First load;

First power supply, for the power supply as described first load;

Second source, for the first back-up power source as described first load; And

Electrical source exchange parts, are connected between described first power supply and described first load, and are connected between described second source and described first load, for the power supply of described first load is switched power supply to described second source by described first.

2. according to claim 1ly take over seamlessly circuit, it is characterized in that, described electrical source exchange parts comprise:

First switches set, be connected between described first power supply and described first load, and be connected between described second source and described first load, for controlling for path or open circuit between described first power supply and described first load, and control to be path or open circuit between described second source and described first load;

Second switch group, has input and output, and described input is connected with described first power supply, and is connected with described second source; And

Current transformer, between the described output being connected to described first load and described second switch group, wherein, described second switch group is path or open circuit for controlling between described first power supply and described current transformer, and controls to be path or open circuit between described second source and described current transformer.

3. according to claim 2ly take over seamlessly circuit, it is characterized in that,

In ac power supply system, described current transformer is indirect AC convertor; Or

In DC power-supply system, described current transformer is dc-dc converter.

4. according to claim 2ly take over seamlessly circuit, it is characterized in that,

Described first switches set comprises: the one one switch, is connected between described first power supply and described first load; One or two switch, is connected between described second source and described first load, and/or

Described second switch group comprises: the 21 switch, is connected between described first power supply and described current transformer; Two or two switch, is connected between described second source and described current transformer.

5. according to claim 1ly take over seamlessly circuit, it is characterized in that,

Described first power supply is the first bus power supply, and described second source is the second bus power supply; Or

Described first power supply and described second source are any one in following power supply: A phase power supply, B phase power supply and C phase power supply, and described first power supply and described second source are not homophase power supply.

6. according to claim 1ly take over seamlessly circuit, it is characterized in that, described in take over seamlessly circuit and also comprise:

Second load;

Described first power supply is also for the power supply as described second load;

Described second source is also for the first back-up power source as described second load; And

Described electrical source exchange parts are also connected between described first power supply and described second load, and are connected between described second source and described second load, for the power supply of described second load is switched power supply to described second source by described first.

7. according to claim 6ly take over seamlessly circuit, it is characterized in that, described electrical source exchange parts comprise:

3rd switches set, be connected between described first power supply and described second load, and be connected between described second source and described second load, for controlling for path or open circuit between described first power supply and described second load, and control to be path or open circuit between described second source and described second load.

8. according to claim 6ly take over seamlessly circuit, it is characterized in that, described in take over seamlessly circuit and also comprise:

3rd power supply, for the second back-up power source as described first load or described second load.