CN204884804U - 24 rectifier transformer unshakable in one's determination is rolled up to pulse wave - Google Patents
24 rectifier transformer unshakable in one's determination is rolled up to pulse wave Download PDFInfo
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- CN204884804U CN204884804U CN201520637353.2U CN201520637353U CN204884804U CN 204884804 U CN204884804 U CN 204884804U CN 201520637353 U CN201520637353 U CN 201520637353U CN 204884804 U CN204884804 U CN 204884804U
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- winding
- phase shift
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- pulse wave
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Abstract
The utility model discloses a 24 rectifier transformer unshakable in one's determination is rolled up to pulse wave, it is including the iron core that has six winding stems, the three -dimensional hexagonal structure who forms by six the same single frame wound core amalgamations unshakable in one's determination, every single frame wound core is convoluteed by the silicon steel sheet and forms, the cross section of single frame wound core's branch stem is for being similar to semicircle structure, the contained angle is 60 between the amalgamation face of two branch stems of every single frame wound core, adjacent single frame is rolled up branch stem amalgamation unshakable in one's determination and is become the winding stem, and the winding has the winding on every winding stem. Winding winding all is equipped with line side winding and valve side winding on every winding stem, line side winding contains the main winding and moves the phase winding. The winding is arranged according to appointed method, and the separate unit transformer can be in order realizing 24 pulse wave rectifications, and its NULL is few, compact structure, and small, with low costs, the low overload of temperature rise can the reinforce.
Description
Technical field
The utility model relates to a kind of 24 pulse wave rewinding material rectifier transformers, is applied to technical field of rail traffic.
Background technology
At present, in recent years, along with the develop rapidly of city underground, light rail, the demand of locomotive traction rectifier transformer is increasing, consider from the impact of minimizing side harmonics, the traction rectifier transformer station at present for track traffic is developed to 24 pulse waves by 12 pulse waves, will with 24 pulse waves for main flow.24 traditional pulse traction rectifier transforming plant main transformers are generally made up of two identical capacity 12 pulse wave rectifier transformers, its High-Voltage Network side generally adopts epitaxy delta connection, two difference phase shift ± 7.5 °, the parallel running after full-wave rectification of valve side forms 24 pulse waves, the transformer of this structure can meet user demand, the shortcomings such as but it is many to there are material materials, and volume is large; In addition, the intensity of fuel tank when traditional oils immersion product oil tank of transformer all needs to arrange many reinforcing rib structures to ensure not increase tank wall thickness usually, rolled steel dosage is large.Transformer body (comprising coil, iron core and structural member thereof) is the main pyrotoxin of whole transformer, and fuel tank is by wherein coated for whole device body.Transformer temperature field distribution is very complicated, temperature is reduced to tank wall external environment gradually by pyrotoxin in general, and inner heat spacing is very long from tank wall external environment, transformer radiating effect is poor, its hot(test)-spot temperature height affects transformer life, and simple increase radiator then increases material cost undoubtedly to reduce hot(test)-spot temperature; In addition, conventional dry power transformer product is due to feature in structure, inside transformer equivalent locations, temperature is higher, blower fan can only be arranged on outside coil near lower clamping piece position by ceiling structure system, measured data shows, high 4 ~ the 9K of temperature inside self cooling situation lower coil, the high 8 ~ 15K of temperature inside fan starting situation lower coil.Conventional dry transformer needs to arrange 3 ~ 4 blower fans, and two such product composition 24 pulse wave rectifiers become then needs 6 ~ 8 blower fans.
Summary of the invention
Technical problem to be solved in the utility model provides a kind of 24 pulse wave rewinding material rectifier transformers, and its material usage is few, compact conformation, and volume is little, and cost is low, and the low capability of overload of temperature rise is strong.
In order to solve the problems of the technologies described above, the technical solution of the utility model is: a kind of 24 pulse wave rewinding material rectifier transformers, it comprises the iron core with six winding stems, the three-dimensional hexgonal structure for being put together by six identical single frame wound cores unshakable in one's determination, each single frame wound core by silicon-steel sheet coiled around forming, the cross section of point stem of single frame wound core is the structure of semicircular, between the split face of two points of stems of each single frame wound core, angle is 60 °, a point stem for adjacent single frame rewinding material pieces together winding stem, and each winding stem is wound with winding, the winding that each winding stem is wound around is equipped with source side winding and valve side winding, described source side winding comprises main winding and Phase shift winding, such separate unit rectifier transformer realizes the input of source side winding three-phase, valve side winding 12 phase exports.
Further provide a kind of set-up mode of winding to obtain implementation result better, the source side winding of every phase is all split into two division windings, and two division windings are separately positioned on two winding stems, described two division windings are respectively the positive Phase shift winding of this phase and negative Phase shift winding, and are connected in parallel between two division windings.
Further, on the winding stem of iron core, described source side winding is followed successively by positive Phase shift winding A, positive Phase shift winding B, positive Phase shift winding C, negative Phase shift winding A counterclockwise, bears Phase shift winding B and negative Phase shift winding C along clockwise or edge, described negative Phase shift winding A, negative between Phase shift winding B and negative Phase shift winding C with around to, between described positive Phase shift winding A, positive Phase shift winding B and positive Phase shift winding C with around the spaced winding to, positive Phase shift winding and negative Phase shift winding to identical or contrary.
Further, when it is applied to oil immersed type product or gas-insulated product, it also comprises fuel tank and multiple radiator, fuel tank adopts hollow cylinder structure, vertical heat radiation air flue is provided with in the middle part of fuel tank, tank bottoms arranges inlet channel, to dispel the heat, air flue and inlet channel form stack effect, increase area of dissipation on the one hand, shorten transformer focus on the other hand to the distance of surrounding environment, effectively reduce hot-spot temperature of transformer, greatly strengthen radiating effect, can greatly reduce radiator consumption, fuel tank hollow design also can save transformer oil simultaneously.Because fuel tank adopts hollow cylinder structure, intensity is high, can not arrange reinforcing rib structure completely, can reduce rolled steel dosage, and multiple radiator is circumferentially arranged along the tank wall outer surface of fuel tank.
Further, when it is applied to dry type product, a vacant cylindrical region slightly larger than a coil diameter size in the middle of six winding stems, thus make the heat radiation air flue that cylindrical region self-assembling formation one is vertical, inlet channel is designed in the bottom of transformer, to dispel the heat air flue and inlet channel formation stack effect, inside transformer bottom, is provided with blower fan, on blower fan top, certain distance is provided with deep bead, and the winding on deep bead and six winding stems leaves enough distances.
Further, described deep bead is conical structure or six prismatic structures.
After have employed technique scheme, because transformer core is three-dimensional hexgonal structure, magnetic circuit is short and symmetrical, compact conformation, compares laminated structure transformer and can save silicon steel sheet consumption about 18%, compare two rewinding material rectifications to become consumption unshakable in one's determination and also can save about 5%, save folder and fuel tank steel about 30% used, save transformer oil about 8%, reduce blower fan 4 ~ 7, greatly reduce transformer temperature rise simultaneously, improve transformer overload ability.Adopt this transformer of separate unit can form 24 pulse waves after full-wave rectification, transformer layout is compact, greatly reduces project occupation of land area.
Accompanying drawing explanation
Fig. 1 is the stereogram unshakable in one's determination of 24 pulse wave rewinding material rectifier transformers of the present utility model;
Fig. 2 is the cross section view of the iron core of 24 pulse wave rewinding material rectifier transformers of the present utility model;
Fig. 3 is the catenation principle figure of source side winding of the present utility model;
Fig. 4 is the winding layout viewing on winding stem of the present utility model;
Fig. 5 is the structural representations of 24 pulse wave rewinding material rectifier transformers of the present utility model when being applied to oil immersed type product or gas-insulated product;
Fig. 6 is the structural representations of 24 pulse wave rewinding material rectifier transformers of the present utility model when being applied to dry type product;
Fig. 7 is the structural representation of deep bead of the present utility model.
Embodiment
In order to make content of the present utility model more easily be clearly understood, below according to specific embodiment also by reference to the accompanying drawings, for dry type 24 pulse wave rewinding material rectifier transformer, the utility model is described in further detail.
As shown in Fig. 1 ~ 7, a kind of 24 pulse wave rewinding material rectifier transformers, it comprises the iron core with six winding stems 2, the three-dimensional hexgonal structure for being put together by six identical single frame wound cores 1 unshakable in one's determination, each single frame wound core 1 by silicon-steel sheet coiled around forming, the cross section of point stem of single frame wound core 1 is the structure of semicircular, between two split faces of point stem of each single frame wound core 1, angle is 60 °, an adjacent point stem pieces together winding stem 2, and each winding stem 2 is wound with winding, the winding that each winding stem 2 is wound around is equipped with source side winding 3 and valve side winding 4, source side winding 3 comprises main winding and Phase shift winding, on a winding stem 2, main winding and Phase shift winding are arranged or axially stacked with one heart, valve side winding 4 is arranged on the inner side of source side winding 3, and source side winding 3 three-phase inputs, winding 40 two-phase of valve side exports.
As shown in Figure 3, the source side winding 3 of every phase is split into two division windings, and two division windings are separately positioned on two winding stems 2, described two division windings are respectively positive Phase shift winding and negative Phase shift winding, and are connected in parallel between two division windings.
On the winding stem 2 of iron core, described source side winding 3 is followed successively by positive Phase shift winding A, positive Phase shift winding B, positive Phase shift winding C, negative Phase shift winding A counterclockwise, bears Phase shift winding B and negative Phase shift winding C along clockwise or edge, described negative Phase shift winding A, negative between Phase shift winding B and negative Phase shift winding C with around to, between described positive Phase shift winding A, positive Phase shift winding B and positive Phase shift winding C with around the spaced winding to, positive Phase shift winding and negative Phase shift winding to identical or contrary.
As shown in Figure 4, on a winding stem 2, when main winding and Phase shift winding are axially arranged, source side winding 3 is laterally zygomorphic middle part incoming line structure.
As shown in Figure 3, in source side winding 3, main winding and Phase shift winding are provided with tap changer.
Valve side winding 4 on six winding stems 2 is all identical, the second winding composition that the first winding that valve side winding 4 connects by d is connected with y, and on same winding stem, the first winding and the second winding are arranged or axially stacked with one heart.
First design shape material strip is obtained by broken line cutting machine sawing sheet, by these material strips according to setting order continuous coiling on heart mould, form the single frame wound core 1 that two split face angles are 60 °, the single frame wound core 1 that coiling six is such, six single frame wound cores 1 are pieced together the iron core of the three-dimensional hexgonal structure shown in Fig. 1, and with steel band by firm for winding stem 2 colligation, send in annealing furnace and anneal, after annealing cools, iron core solidifies by brush solidification glue, uses glass fiber without the colligation of latitude band after removing the steel band on winding stem 2.
As shown in Figure 4, the first winding that the Y that on six winding stems 2, coiling is same connects and the second winding that D connects, form valve side winding, and by first and last terminal from axial lead, be connected to form Y with D be connected in outside.
In source side winding 3, Phase shift winding A
1a
1' and main winding A
1' X
1arrange pressure regulation shunting tap respectively, two windings are axially stacked, and the rest may be inferred for other phases.As shown in Figure 2, winding stem 2 presses following arrangement coiling source side winding 3 successively: positive phase shift A
1a
1' and A
1' X
1, positive phase shift B
1b
1' and B
1' Y
1, positive phase shift C
1c
1' and C
1' Z
1, negative phase shift A
2a'
2and A'
2x
2, negative phase shift B
2b'
2and B'
2y
2, negative phase shift C
2c'
2and C'
2z
2.In the source side winding of homophase, in parallel between positive phase shift and the corresponding phase winding of negative phase shift.As shown in Figure 3, three phase mains becomes net+7.5 °, side and-7.5 ° of phase shifts through rectification, makes phase 30 ° between the lead-out terminal of 12, valve side form 12 phases and exports, form 24 pulse waves through bridge rectifier rectification.
As shown in fig. 6-7, when it is applied to dry type product, a vacant cylindrical region slightly larger than a coil diameter size in the middle of six winding stems 2, thus make the heat radiation air flue that cylindrical region self-assembling formation one is vertical, inlet channel is designed in the bottom of transformer, to dispel the heat, air flue and inlet channel form stack effect, hot(test)-spot temperature inside effective reduction transformer, blower fan 8 is provided with inside transformer bottom, on blower fan 8 top, certain distance is provided with deep bead 9, winding on deep bead 9 and six winding stems 2 leaves enough distances, thus radiating airflow is imported winding bottom effectively.Adopt said structure greatly can reduce dry change temperature rise of hot spot, greatly improve transformer overload ability and transformer life.
Above-described specific embodiment; technical problem, technical scheme and beneficial effect that the utility model solves are further described; be understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection range of the present utility model.
Claims (6)
1. a pulse wave rewinding material rectifier transformer, it is characterized in that: it comprises the iron core with six winding stems (2), the three-dimensional hexgonal structure for being put together by six identical single frame wound cores (1) unshakable in one's determination, each single frame wound core (1) by silicon-steel sheet coiled around forming, the cross section of point stem of single frame wound core (1) is the structure of semicircular, between the split face of two points of stems of each single frame wound core (1), angle is 60 °, a point stem for adjacent single frame rewinding material pieces together winding stem (2), and each winding stem (2) is wound with winding, the upper winding be wound around of each winding stem (2) is equipped with source side winding (3) and valve side winding (4), described source side winding (3) comprises main winding and Phase shift winding.
2. 24 pulse wave rewinding material rectifier transformers according to claim 1, it is characterized in that: the source side winding (3) of every phase is all split into two division windings, and two division windings are separately positioned on two winding stems (2), described two division windings are respectively the positive Phase shift winding of this phase and negative Phase shift winding, and are connected in parallel between two division windings.
3. 24 pulse wave rewinding material rectifier transformers according to claim 2, it is characterized in that: on the winding stem (2) of iron core, described source side winding (3) is followed successively by positive Phase shift winding A counterclockwise along clockwise or edge, positive Phase shift winding B, positive Phase shift winding C, negative Phase shift winding A, negative Phase shift winding B and negative Phase shift winding C, described negative Phase shift winding A, negative between Phase shift winding B and negative Phase shift winding C with around to, described positive Phase shift winding A, between positive Phase shift winding B and positive Phase shift winding C with around to, the spaced winding of positive Phase shift winding and negative Phase shift winding is to identical or contrary.
4. 24 pulse wave rewinding material rectifier transformers according to claim 1, it is characterized in that: when it is applied to oil immersed type product or gas-insulated product, it also comprises fuel tank (5) and multiple radiator (7), fuel tank (5) adopts hollow cylinder structure, fuel tank (5) middle part is provided with vertical heat radiation air flue (6), fuel tank (5) bottom arranges inlet channel, to dispel the heat, air flue (6) and inlet channel form stack effect, and multiple radiator (7) is circumferentially arranged along the tank wall outer surface of fuel tank (5).
5. 24 pulse wave rewinding material rectifier transformers according to claim 1, it is characterized in that: when it is applied to dry type product, a vacant cylindrical region slightly larger than a coil diameter size in the middle of six winding stems (2), thus make the heat radiation air flue that cylindrical region self-assembling formation one is vertical, inlet channel is designed in the bottom of transformer, to dispel the heat, air flue and inlet channel form stack effect, blower fan (8) is provided with inside transformer bottom, on blower fan (8) top, certain distance is provided with deep bead (9), deep bead (9) leaves enough distances with the winding on six winding stems (2).
6. 24 pulse wave rewinding material rectifier transformers according to claim 5, is characterized in that: described deep bead (9) is conical structure or six prismatic structures.
Priority Applications (1)
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CN201520637353.2U CN204884804U (en) | 2015-08-21 | 2015-08-21 | 24 rectifier transformer unshakable in one's determination is rolled up to pulse wave |
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CN201520637353.2U CN204884804U (en) | 2015-08-21 | 2015-08-21 | 24 rectifier transformer unshakable in one's determination is rolled up to pulse wave |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105006352A (en) * | 2015-08-21 | 2015-10-28 | 常州太平洋电力设备(集团)有限公司 | 24-pulse wound core rectifier transformer |
CN111326318A (en) * | 2020-02-26 | 2020-06-23 | 广州地铁设计研究院股份有限公司 | Traction rectification dry-type transformer, transformer system and control method thereof |
-
2015
- 2015-08-21 CN CN201520637353.2U patent/CN204884804U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105006352A (en) * | 2015-08-21 | 2015-10-28 | 常州太平洋电力设备(集团)有限公司 | 24-pulse wound core rectifier transformer |
CN105006352B (en) * | 2015-08-21 | 2017-03-08 | 常州太平洋电力设备(集团)有限公司 | 24 pulse wave rewinding material rectifier transformers |
CN111326318A (en) * | 2020-02-26 | 2020-06-23 | 广州地铁设计研究院股份有限公司 | Traction rectification dry-type transformer, transformer system and control method thereof |
CN111326318B (en) * | 2020-02-26 | 2021-08-24 | 广州地铁设计研究院股份有限公司 | Traction rectification dry-type transformer, transformer system and control method thereof |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20151216 Effective date of abandoning: 20171114 |