CN205080979U - Prevent photovoltaic transformer metallic glass iron core structure of generating heat - Google Patents

Abstract

The utility model provides a prevent photovoltaic transformer metallic glass iron core structure of generating heat, wherein, this photovoltaic transformer metallic glass iron core structure includes: the metallic glass iron core is used for the magnetic conduction, set up in the silicon steel sheet of the inlayer of metallic glass iron core is used for keeping the intensity of metallic glass iron core the width direction of silicon steel sheet goes up different position departments and sets up a plurality of breachs in order to reduce the sectional area of silicon steel sheet, the winding, twine in the metallic glass iron core with on the silicon steel sheet for thereby the transmission electric current turns into the electromagnetic energy with the electric energy. The utility model discloses reduce the vortex that iron core internal cause magnetic leakage produced, eliminate iron core local overheat trouble, also can not destroy the structural strength of metallic glass iron core simultaneously.

Description

A kind of photovoltaic transformer amorphous alloy iron core structure preventing generating heat

Technical field

The utility model relates to transformer technology field, particularly relates to the amorphous alloy iron core of photovoltaic transformer, is exactly a kind of photovoltaic transformer amorphous alloy iron core structure preventing generating heat specifically.

Background technology

Electric power system is the support of the national economic development, and the stable development of electric power system is the basis of national economy sustainable development.Transformer is the important component part of electric power system, and its running status directly affects the fail safe of electric power system, and transformer core is the critical piece of inside transformer transmission, conversion electromagnetic energy.In recent years, amorphous alloy material, with its low-loss premium properties, is used on transformer core more and more, is especially used in distribution transformer and low-voltage small capacity transformer.

In recent years along with the development that clean energy resource utilizes, the generation of electricity by new energy based on photovoltaic generation increases fast, and photovoltaic generation needs to utilize inverter that direct current is converted to alternating current, more grid-connected through photovoltaic transformer.In the prior art, adopt non-crystaline amorphous metal to make the photovoltaic transformer of iron core to be in operation the local overheating fault once repeatedly found because leakage field produces.In order to run with ensureing electricity net safety stable, promote the operation level of photovoltaic transformer, needing a kind of novel transformer amorphous alloy iron core structure badly, eliminate the overheating fault that non-crystaline amorphous metal photovoltaic transformer iron core produces because of leakage and eddy flux.

For this reason, the form of the amorphous alloy strips that people attempt by changing amorphous alloy wicking surface solves the problems referred to above, amorphous alloy strips by the surface insulation of photovoltaic amorphous alloy transformer core superposes winding from level to level and is formed, reduce the eddy current loss of iron core band inside, eliminate the heating that core material inside is brought because of eddy current.

But, because amorphous alloy strips specification is single, and amorphous alloy material itself has firmly, crisp, the not easily characteristic such as processing, existing photovoltaic transformer amorphous alloy iron core cross section mostly is rectangle, and winding cross section is round rectangle, gap (as shown in Figure 1) is there is between winding and iron core, this just needs Transformer Winding to turn to rectangle, between iron core and winding, more leakage flux is there is in this compared to traditional circular winding, this can bring the problems such as the inner local overheating of photovoltaic transformer, therefore leakage flux can not be reduced by the form of the amorphous alloy strips changing amorphous alloy wicking surface.

Therefore, those skilled in the art need a kind of photovoltaic amorphous alloy transformer with brand-new amorphous alloy iron core of research and development badly, effectively can reduce leakage flux, eliminate non-crystaline amorphous metal photovoltaic transformer iron core and cause overheated fault because of leakage flux.

Utility model content

In view of this, the technical problems to be solved in the utility model is to provide a kind of photovoltaic transformer amorphous alloy iron core structure preventing generating heat, and solves the problem that in prior art, non-crystaline amorphous metal photovoltaic transformer iron core is overheated because of leakage flux.

In order to solve the problem, embodiment of the present utility model provides a kind of photovoltaic transformer amorphous alloy iron core structure preventing generating heat, and comprising: amorphous alloy iron core, for magnetic conduction; Be arranged at the silicon steel sheet of described amorphous alloy iron core innermost layer, for keeping the intensity of described amorphous alloy iron core, on the Width of described silicon steel sheet, diverse location place offers multiple breach to reduce the sectional area of described silicon steel sheet; Winding, is wound on described amorphous alloy iron core and described silicon steel sheet, is electromagnetic energy for transmission current thus by electric energy conversion.

An aspect of embodiment of the present utility model, the length of described breach accounts for 1/3rd of described silicon steel sheet width.

An aspect of embodiment of the present utility model, described breach is distributed in the two ends of described silicon steel sheet in the direction of the width.

An aspect of embodiment of the present utility model, the described breach at described silicon steel sheet two ends is not in the same horizontal line.

An aspect of embodiment of the present utility model, the quantity of the described breach at described silicon steel sheet two ends is equal.

An aspect of embodiment of the present utility model, the density degree of described breach is directly proportional to the thickness of described silicon steel sheet.

An aspect of embodiment of the present utility model, the shape of described breach is rectangle.

An aspect of embodiment of the present utility model, described rectangle is round rectangle or orthogonal rectangle.

An aspect of embodiment of the present utility model, the shape of described breach is triangle.

An aspect of embodiment of the present utility model, the position of described breach on described silicon steel sheet of described silicon steel sheet one end is symmetrical up and down.

Based on above-mentioned embodiment of the present utility model, can learn that photovoltaic transformer amorphous alloy iron core structure at least has following technique effect and feature: by breach being offered in perpendicular flux direction on the silicon steel sheet of amorphous alloy iron core internal layer, reduce transformer core sectional area, reduce the eddy current that iron core internal cause leakage field produces, eliminate iron core local overheating fault, avoid transformer trip accident, thus the direct and indirect economic loss that minimizing accident causes, electric power system is avoided to produce negative image in society and the masses, it also avoid photovoltaic transformer to have a power failure the economic loss brought simultaneously, also can not destroy the structural strength of amorphous alloy iron core simultaneously.

It is to be understood that above-mentioned general description and following embodiment are only exemplary and illustrative, its can not limit the utility model for advocate scope.

Accompanying drawing explanation

Appended accompanying drawing is below a part for specification of the present utility model, and it depicts example embodiment of the present utility model, and appended accompanying drawing is used for principle of the present utility model is described together with the description of specification.

Fig. 1 is the structural representation of photovoltaic amorphous alloy transformer of the prior art;

A kind of front view preventing the iron core of the photovoltaic transformer amorphous alloy iron core structure generated heat that Fig. 2 provides for the utility model embodiment;

A kind of rearview preventing the iron core of the photovoltaic transformer amorphous alloy iron core structure generated heat that Fig. 3 provides for the utility model embodiment;

Fig. 4 for the utility model embodiment provide a kind of prevent generate heat photovoltaic transformer amorphous alloy iron core structure silicon steel sheet launch after structural representation;

Fig. 5 for the utility model embodiment provide a kind of prevent generate heat photovoltaic transformer amorphous alloy iron core structure silicon steel sheet launch after another structural representation;

A kind of structural representation preventing the winding of the photovoltaic transformer amorphous alloy iron core structure generated heat that Fig. 6 provides for the utility model embodiment.

Embodiment

Clearly understand for making the object of the utility model embodiment, technical scheme and advantage, below by with accompanying drawing and describe the spirit clearly demonstrating the utility model institute disclosure in detail, any art technical staff is after the embodiment understanding the utility model content, when can by the technology of the utility model content institute teaching, be changed and modify, it does not depart from spirit and the scope of the utility model content.

Schematic description and description of the present utility model for explaining the utility model, but not as to restriction of the present utility model.In addition, in drawings and the embodiments use element/component that is identical or like numerals will to be used to represent identical or similar portions.

About " first " used herein, " second " ... Deng, the not special meaning of censuring order or cis-position, is also not used to limit the utility model, and it is only in order to distinguish the element or operation that describe with constructed term.

About direction used herein term, such as: upper and lower, left and right, front or rear etc., be only the direction with reference to accompanying drawing.Therefore, the direction term of use is used to illustrate and is not used for limiting this creation.

About " comprising " used herein, " comprising ", " having ", " containing " etc., be open term, namely mean including but not limited to.

About used herein " and/or ", comprise the arbitrary of described things or all combine.

About term used herein " roughly ", " about " etc., in order to modify any can the quantity of microvariations or error, but this slight variations or error can't change its essence.Generally speaking, the scope of the microvariations that this type of term is modified or error can be 20% in some embodiments, can be 10% in some embodiments, can be 5% or other numerical value in some embodiments.It will be understood by those skilled in the art that the aforementioned numerical value mentioned can adjust according to actual demand, not as limit.

Some in order to the word that describes the application by lower or discuss in the other places of this specification, to provide those skilled in the art about guiding extra in the description of the application.

A kind of front view preventing the iron core of the photovoltaic transformer amorphous alloy iron core structure generated heat that Fig. 2 provides for the utility model embodiment, as shown in Figure 2, by the silicon steel sheet upper shed at amorphous alloy iron core internal layer, reduce transformer core sectional area, reduce the eddy current that iron core internal cause leakage field produces, eliminate iron core local overheating fault.

This accompanying drawing specific embodiment comprises: amorphous alloy iron core 10 and silicon steel sheet 20, wherein,

Amorphous alloy iron core 10 is for magnetic conduction.The great advantage of amorphous alloy iron core 10 distribution transformer is that no-load loss value spy is low, but its intensity is relatively poor, therefore needs to add last layer silicon steel sheet at innermost layer, ensures the intensity of whole iron core.

Silicon steel sheet 20 is arranged at described amorphous alloy iron core 10 innermost layer, and silicon steel sheet 20 in the direction of the width diverse location place offers multiple breach 21 to reduce the sectional area of described silicon steel sheet 20.Silicon steel sheet 20 is for keeping the intensity of described amorphous alloy iron core 10.Width is exactly the Width after silicon steel sheet 20 launches, and be the view direction of reader in fig. 2, the through silicon steel sheet 20 of described breach 21, silicon steel sheet 20 indentation namely after opening, can reduce transformer core sectional area.

See Fig. 2, silicon steel sheet 20 is in the innermost layer of amorphous alloy iron core 10, in silicon steel sheet 20 upper shed, i.e. and breach 21 in figure, thus reduce transformer core sectional area, effectively reduce the eddy current loss that in iron core, leakage flux causes, eliminate iron core local overheating fault.

A kind of rearview preventing the iron core of the photovoltaic transformer amorphous alloy iron core structure generated heat that Fig. 3 provides for the utility model embodiment, as shown in Figure 3, before and after silicon steel sheet 20, the breach 21 of side (left and right sides namely after silicon steel sheet 20 expansion) is alternately distributed, the sectional area of further minimizing transformer core, reduces core interior eddy current.

In this accompanying drawing embodiment, described breach 21 is distributed in the two ends of described silicon steel sheet 20 in the direction of the width, and the described breach 21 at silicon steel sheet 20 two ends is not in the same horizontal line, if two ends breach 21 is alternately distributed, the quantity of the described breach 21 at so described silicon steel sheet 20 two ends is equal, as shown in Figure 3.

See Fig. 3, the utility model can at the two ends of silicon steel sheet 20 difference opening, in order to the intensity of not obvious reduction silicon steel sheet 20, the described breach 21 at silicon steel sheet 20 two ends can not distribute in the same horizontal line, ideally interleaved mouth on silicon steel sheet 20, do like this and when not affecting silicon steel sheet 20 intensity, the sectional area of transformer core can be reduced further, reduce the eddy current loss that in iron core, leakage flux causes.

See Fig. 2, Fig. 3, the position of breach 21 on described silicon steel sheet 20 one end, in symmetrical up and down, is namely only observed from iron core front or the back side, and the position of breach 21 on described silicon steel sheet 20 is symmetrical up and down, as shown in Figure 2 and Figure 3.The benefit distributed up and down is, under the prerequisite not reducing the structural strength of silicon steel sheet 20 own, to decrease the sectional area of silicon steel sheet 20, eliminates the problems of excessive heat because eddy current produces.

Fig. 4 for the utility model embodiment provide a kind of prevent generate heat photovoltaic transformer amorphous alloy iron core structure silicon steel sheet launch after structural representation, as shown in Figure 4, after silicon steel sheet 20 is launched, clearly can see silicon steel sheet about 20 (front and back) alternate open (i.e. breach 21), and the length of breach 21 accounts for 1/3rd of described silicon steel sheet 20 width, namely left and right (front and back) Opening length d is 1/3rd of silicon steel sheet 20 width D, silicon steel sheet 20 sectional area is only 1/3rd of prior art iron core, under the prerequisite not reducing the structural strength of silicon steel sheet 20 own, decrease the sectional area of silicon steel sheet 20, eliminate the problems of excessive heat because eddy current produces.

In this accompanying drawing embodiment, the length of breach 21 accounts for 1/3rd of described silicon steel sheet 20 width.Namely left and right (front and back) Opening length d is 1/3rd of silicon steel sheet 20 width D, silicon steel sheet 20 sectional area is only 1/3rd of prior art iron core, under the prerequisite not reducing the structural strength of silicon steel sheet 20 own, decrease the sectional area of silicon steel sheet 20, eliminate the problems of excessive heat because eddy current produces.

Fig. 5 for the utility model embodiment provide a kind of prevent generate heat photovoltaic transformer amorphous alloy iron core structure silicon steel sheet launch after another structural representation, as shown in Figure 5, breach 21 is round rectangle, different from the orthogonal rectangle in Fig. 4, round rectangle can strengthen the structural strength of silicon steel sheet 20 itself further, and ensures that the sectional area of transformer core is very little.

In this accompanying drawing embodiment, the shape of breach 21 is round rectangle.The utility model does not specifically limit the shape of breach 21, and such as, notch geometry is rectangle, triangle etc.Rectangle can be round rectangle or orthogonal rectangle.

See Fig. 5, in order to ensure the intensity of transformer core, the density degree of usual breach 21 is directly proportional to the thickness of described silicon steel sheet 20, namely silicon steel sheet 20 is thicker, breach 21 is closeer, the length of breach 21 also longer (namely the length d of breach 21 accounts for the ratio of whole silicon steel sheet 20 width D), to reach the balance ensureing iron core intensity and eliminate between eddy current.

A kind of structural representation preventing the winding of the photovoltaic transformer amorphous alloy iron core structure generated heat that Fig. 6 provides for the utility model embodiment, as shown in Figure 6, transformer core also has winding 30, thus realizes the conversion of magnitude of voltage.

In this accompanying drawing embodiment, described photovoltaic amorphous alloy transformer also comprises winding 30, and wherein, winding 30 is wound on described amorphous alloy iron core 10 and described silicon steel sheet 20, and winding 30 is electromagnetic energy for transmission current thus by electric energy conversion.

See Fig. 6, this transformer has three stem stems, on three stem stems, cover has A, B, C three-phase windings 30 respectively, its mesolow winding 30 is in inside, high pressure winding 30 in both sides, because the magnetic flux of three-iron in-core is identical, if the number of turn of two windings is different, the change of different winding both end voltage must be caused, thus realize transformation object.

The utility model provides a kind of photovoltaic amorphous alloy transformer preventing generating heat, by front and back (left and right) alternate open on the silicon steel sheet of amorphous alloy iron core internal layer, reduce transformer core sectional area, reduce the eddy current that iron core internal cause leakage field produces, eliminate iron core local overheating fault, avoid transformer trip accident, thus the direct and indirect economic loss that minimizing accident causes, avoid electric power system to produce negative image in society and the masses, it also avoid photovoltaic transformer simultaneously and to have a power failure the economic loss brought; Simultaneously due to front and back alternate open, the structural strength of amorphous alloy iron core also can not be destroyed.

The utility model at least also has following effective effect:

1. the utility model eliminates the photovoltaic amorphous alloy transformer core overheating fault produced because of eddy current, avoid transformer trip accident, thus the direct and indirect economic loss that minimizing accident causes, avoid producing negative image in society and the masses, reduce bad social influence.

2. under the prerequisite not reducing the structural strength of silicon steel sheet own, reduce this layer cross section and amass, eliminate the problems of excessive heat because eddy current produces.

3. effectively reduce the eddy current loss having leakage flux to cause in iron core, eliminate photovoltaic amorphous alloy transformer core local overheating fault.

The foregoing is only the schematic embodiment of the utility model, under the prerequisite not departing from design of the present utility model and principle, the equivalent variations that any those skilled in the art makes and amendment, all should belong to the scope of the utility model protection.

Claims (10)

1. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat, it is characterized in that, described photovoltaic transformer amorphous alloy iron core structure comprises:

Amorphous alloy iron core (10), for magnetic conduction;

Be arranged at the silicon steel sheet (20) of described amorphous alloy iron core (10) innermost layer, for keeping the intensity of described amorphous alloy iron core (10), on the Width of described silicon steel sheet (20), diverse location place offers multiple breach (21) to reduce the sectional area of described silicon steel sheet (20); And

Winding (30), being wound on described amorphous alloy iron core (10) and described silicon steel sheet (20), is electromagnetic energy for transmission current thus by electric energy conversion.

2. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 1, it is characterized in that, the length of described breach (21) accounts for 1/3rd of described silicon steel sheet width.

3. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 1, it is characterized in that, described breach (21) is distributed in the two ends of described silicon steel sheet (20) in the direction of the width.

4. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 3, it is characterized in that, the described breach (21) at described silicon steel sheet (20) two ends is not in the same horizontal line.

5. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 3, it is characterized in that, the quantity of the described breach (21) at described silicon steel sheet (20) two ends is equal.

6. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 1, it is characterized in that, the density degree of described breach (21) is directly proportional to the thickness of described silicon steel sheet (20).

7. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 1, it is characterized in that, the shape of described breach (21) is rectangle.

8. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 7, it is characterized in that, described rectangle is round rectangle or orthogonal rectangle.

9. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 1, it is characterized in that, the shape of described breach (21) is triangle.

10. prevent the photovoltaic transformer amorphous alloy iron core structure generated heat as claimed in claim 1, it is characterized in that, the position of described breach (21) on described silicon steel sheet (20) of described silicon steel sheet (20) one end is symmetrical up and down.