CN202549595U - Multi-module inversion output split transformer - Google Patents

Abstract

The utility model relates to a multi-module inversion output split transformer. The multi-module inversion output split transformer comprises an upper yoke of a transformer, a lower yoke of the transformer, one, two or three transformer core posts, an upper yoke of a reactor, a lower yoke of the reactor, one, two or three reactor core posts, and a reactor conjugate positioned between the upper yoke of the reactor and the lower yoke of the reactor, wherein an air gap is formed on each reactor core post. According to the multi-module inversion output split transformer, the multi-module simultaneous output can be realized, the requirement of the whole machine capacity of electronic power equipment is met, the split transformer has a very good filtering function, and the adverse effect of harmonic waves on the equipment is reduced.

Description

Multimode inversion output transformer with split winding

Technical field

The utility model relates to a kind of power equipment, specifically, relates to a kind of multimode inversion output transformer with split winding.

Background technology

Along with the increase of power electronic equipment capacity, the inverter capacity of individual module can not satisfy the requirement of complete machine capacity sometimes, need to adopt two in addition more multimode export simultaneously, just can reach the complete machine capacity.

When inverter module is exported in inversion, output harmonic wave inevitably.The harmonic content that the transformer input side coil that is attached thereto produces can be higher, if do not take filtering measure, then the filtering content of transformer outlet side also can be higher.Conventional dual low voltage transformer does not contain built-in reactor, does not have filter function, and can not be used under this operating mode, otherwise the transformer temperature rise is uprised, even normal workpiece.

And the transformer of conventional band built-in reactor, input, outlet side generally have only an input coil, can not satisfy the requirement that two or more modules are exported simultaneously.And even if adopt the transformer of band built-in reactor, outlet side still can contain a certain amount of harmonic wave.

When a plurality of modules parallel connections of employing, when exporting through dual low voltage transformer, if the switching time of each inversion module is consistent, the harmonic phase basically identical that each module produces, the outlet side harmonic content of transformer is still higher.

If the switching time of each module is divided into two groups, one group when opening, another organizes shutoff.The harmonic content that the transformer input side coil that connects respectively with it produces is with aforementioned the same higher.At this moment, the harmonic phase of two pack modules generation is opposite.If the transformer that contains built-in reactor before still adopting is as output transformer; Because the magnetic flux that the harmonic current that phase place is opposite produces can't form the loop in the iron core of electric reactor magnetic circuit; Reactor can't be realized filter function; The loss meeting that harmonic current produces in transformer coil and iron core of electric reactor increases, and the transformer temperature rise is uprised.

The utility model content

The purpose of the utility model is the weak point that overcomes prior art; A kind of multimode inversion output transformer with split winding is provided, can either multimode exports simultaneously, satisfy the requirement of power electronic equipment complete machine capacity; Have good filter function again, reduce the harmful effect of harmonic wave equipment.

The purpose of the utility model is achieved in that

A kind of multimode inversion output transformer with split winding comprises: an iron yoke on transformer, a transformer lower yoke, one, two or three legs; A reactor upper yoke, a reactor lower yoke, one, two or three iron core of electric reactor posts, said iron core of electric reactor post is provided with air gap; And the reactor conjugation between said reactor upper yoke and reactor lower yoke.

Wherein, the material of core limb can be orientation silicon steel, non-orientation silicon steel, amorphous core, also can be dustcores such as ferrite.

Wherein, the first half of said iron core of electric reactor post and the latter half are arranged with one or more air gaps.Said reactor conjugation is one section conjugation, two-section conjugation or many sections conjugation.

Further, air gap can be provided with on the said leg, also air gap can be do not established.As air gap is set, in the middle of can being located at, said air gap position also can be arranged on the junction of core limb and iron yoke.

When said leg was one, said transformer core was that EI shape is unshakable in one's determination; When said iron core of electric reactor post was one, said iron core of electric reactor was that EI shape is unshakable in one's determination, and said multimode inversion output transformer with split winding is a single-phase transformer.When said leg and said iron core of electric reactor post are respectively two; Said multimode inversion output transformer with split winding is a single-phase transformer; When said leg and said iron core of electric reactor post were respectively three, said multimode inversion output transformer with split winding was a three-phase transformer.

Described multimode inversion output transformer with split winding also comprises: one, two or three coils; Corresponding with the structural shape and the number of phases of transformer; Said coil comprises inner coil and outer coil; Said inner coil is on said leg, and said outer coil is on inner coil and iron core of electric reactor post.

Wherein, said inner coil with one section, two sections or multistage on said leg; Said outer coil is two sections or multistage, respectively on inner coil and iron core of electric reactor post.When said coil is one, be located between said iron yoke on transformer, transformer lower yoke and reactor upper yoke, the reactor lower yoke; Said coil is located between said iron yoke on transformer, transformer lower yoke and reactor upper yoke, the reactor lower yoke during more than one side by side.

Further, be provided with screen between said inner coil and the outer coil, can further reduce through between input, outlet side coil, to be capacitively coupled to the harmonic wave of outlet side.Said screen is the metal forming of layer of copper or aluminium.

The utility model compared with prior art has following beneficial effect owing to adopted technique scheme: the utility model is through being provided with in the reactor conjugation between said reactor upper yoke and the reactor lower yoke, for harmonic flux provides the loop.The multimode inversion output transformer with split winding that adopts the utility model to provide, the harmonic flux that built-in conjugation can be each input coil generation provides the loop, but most of harmonic wave that the input coil that the reactor filtering is connected with each module produces; Simultaneously, when the switching time of each module was inconsistent, the harmonic current phase place that two pack modules produce was opposite, and the magnetic flux of generation is cancelled each other in leg, and the harmonic content that is coupled to outlet side through transformer core reduces greatly.

Description of drawings

Through the embodiment and the description taken together with the accompanying drawings of following the utility model, other advantage and the characteristic of the utility model is shown, this embodiment provides with the form of instance, but is not limited to this, wherein:

Fig. 1 is the structural representation of first embodiment of the utility model multimode inversion output transformer with split winding;

Fig. 2 is a left side view direction structure sketch map embodiment illustrated in fig. 1;

Fig. 3 is the structural representation of middle reactor iron yoke embodiment illustrated in fig. 1, core limb;

Fig. 4 is the structural representation of middle transformer fe yoke embodiment illustrated in fig. 1, core limb;

Fig. 5 is the structural representation of second embodiment of the utility model multimode inversion output transformer with split winding;

Fig. 6 is a left side view direction structure sketch map embodiment illustrated in fig. 5;

Fig. 7 is the structural representation of middle reactor iron yoke embodiment illustrated in fig. 5, core limb;

Fig. 8 is the structural representation of middle transformer fe yoke embodiment illustrated in fig. 5, core limb.

Embodiment

Like first embodiment of Fig. 1, the utility model multimode inversion shown in Figure 2 output transformer with split winding, comprise an iron yoke on transformer 11, transformer lower yoke 13, three legs 12; Reactor upper yoke 21,23, three iron core of electric reactor posts 22 of reactor lower yoke; And the reactor conjugation 24 between reactor upper yoke 21 and reactor lower yoke 23.Wherein, said reactor conjugation can be one section conjugation, two-section conjugation or many sections conjugation, is the two-section conjugation in the present embodiment.In conjunction with shown in Figure 3, the first half of iron core of electric reactor post 22 and the latter half are equipped with air gap 221, in the present embodiment, respectively are arranged with three air gaps up and down.In conjunction with shown in Figure 4, on leg 12, be provided with air gap 121.

As shown in Figure 2; Multimode inversion output transformer with split winding also comprises: two or three coils 3; Coil 3 comprises inner coil 31 and outer coil 32, and inner coil 31 is on leg 12, and outer coil 32 is on inner coil 31 and iron core of electric reactor post 22.Wherein, inner coil 31 with one section, two sections or multistage on leg 12; Outer coil 32 is two sections or multistage, respectively on inner coil 31 and iron core of electric reactor post 22.Coil 3 is located between iron yoke on transformer 11, transformer lower yoke 13 and reactor upper yoke 21, the reactor lower yoke 23 side by side.

Further, between inner coil 31 and outer coil 32, be provided with the screen (not shown), screen is the metal forming of layer of copper or aluminium, can further reduce through between input, outlet side coil, to be capacitively coupled to the harmonic wave of outlet side.

Export second embodiment of transformer with split winding like Fig. 5, the utility model multimode inversion shown in Figure 6; The structure of the present embodiment and first embodiment is basic identical, comprising: iron yoke on transformer 11, transformer lower yoke 13, three legs 12; Reactor upper yoke 21,23, three iron core of electric reactor posts 22 of reactor lower yoke; And the reactor conjugation 24 between reactor upper yoke 21 and reactor lower yoke 23.Also comprise: two or three coils 3, coil 3 comprise inner coil 31 and outer coil 32, and inner coil 31 is on leg 12, and outer coil 32 is on inner coil 31 and iron core of electric reactor post 22.Wherein, inner coil 31 with one section, two sections or multistage on leg 12; Outer coil 32 is two sections or multistage, respectively on inner coil 31 and iron core of electric reactor post 22.Coil 3 is located between iron yoke on transformer 11, transformer lower yoke 13 and reactor upper yoke 21, the reactor lower yoke 23 side by side.

In conjunction with shown in Figure 7, the first half of iron core of electric reactor post 22 and the latter half are equipped with air gap 221, in the present embodiment, respectively are provided with three air gaps up and down.In conjunction with shown in Figure 8, on leg 12, be provided with air gap 121.

Further, between inner coil 31 and outer coil 32, be provided with the screen (not shown), screen is the metal forming of layer of copper or aluminium, can further reduce through between input, outlet side coil, to be capacitively coupled to the harmonic wave of outlet side.

The difference of the present embodiment and first embodiment is: the reactor conjugation is one section conjugation in the present embodiment.

Claims (10)

1. a multimode inversion output transformer with split winding is characterized in that, comprising:

An iron yoke on transformer, a transformer lower yoke, one, two or three legs;

A reactor upper yoke, a reactor lower yoke, one, two or three iron core of electric reactor posts, said iron core of electric reactor post is provided with air gap;

And the reactor conjugation between said reactor upper yoke and reactor lower yoke.

2. multimode inversion output transformer with split winding as claimed in claim 1, it is characterized in that: the first half of said iron core of electric reactor post and the latter half are arranged with one or more air gaps.

3. according to claim 1 or claim 2 multimode inversion output transformer with split winding, it is characterized in that: said reactor conjugation is one section conjugation, two-section conjugation or many sections conjugation.

4. multimode inversion output transformer with split winding as claimed in claim 1, it is characterized in that: said leg is provided with air gap.

5. multimode inversion output transformer with split winding as claimed in claim 1, it is characterized in that: when said leg was one, said transformer fe stem stem was an EI shape core limb; When said iron core of electric reactor post was one, said iron core of electric reactor post was an EI shape core limb.

6. multimode inversion output transformer with split winding as claimed in claim 1; It is characterized in that; Also comprise: one, two or three coils; Said coil comprises inner coil and outer coil, and said inner coil is on said leg, and said outer coil is on inner coil and iron core of electric reactor post.

7. multimode inversion as claimed in claim 6 output transformer with split winding is characterized in that: said inner coil with one section, two sections or multistage on said leg.

8. multimode inversion output transformer with split winding as claimed in claim 6, it is characterized in that: said outer coil is two sections or multistage, respectively on inner coil and iron core of electric reactor post.

9. multimode inversion output transformer with split winding as claimed in claim 6, it is characterized in that: said coil is located between said iron yoke on transformer, transformer lower yoke and reactor upper yoke, the reactor lower yoke side by side.

10. like the described multimode inversion output of arbitrary claim among claim 6-9 transformer with split winding, it is characterized in that: be provided with screen between said inner coil and the outer coil, said screen is the metal forming of layer of copper or aluminium.

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