JPS5856245B2 - large capacity transformer - Google Patents
large capacity transformerInfo
- Publication number
- JPS5856245B2 JPS5856245B2 JP10585479A JP10585479A JPS5856245B2 JP S5856245 B2 JPS5856245 B2 JP S5856245B2 JP 10585479 A JP10585479 A JP 10585479A JP 10585479 A JP10585479 A JP 10585479A JP S5856245 B2 JPS5856245 B2 JP S5856245B2
- Authority
- JP
- Japan
- Prior art keywords
- tank
- transformer
- transport
- dish
- shaped lower
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F27/00—Details of transformers or inductances, in general
- H01F27/002—Arrangements provided on the transformer facilitating its transport
Landscapes
- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Housings And Mounting Of Transformers (AREA)
Description
【発明の詳細な説明】
本発明は、変圧器油溝の下部に本タンクと皿状の下タン
クとを接続するフランジ面を有する構造で、変圧器中身
寸法が大きく、輸送時に本タンクを取り外し下タンクに
輸送タンクを結合し、輸送後輸送タンクを本タンクと取
り換えるようにした大容量変圧器に関するものである。Detailed Description of the Invention The present invention has a structure that has a flange surface connecting the main tank and a dish-shaped lower tank at the lower part of the transformer oil groove. This relates to a large-capacity transformer in which a transport tank is connected to a lower tank, and the transport tank is replaced with the main tank after transport.
一般に、このような構造の鉄道輸送用の大容量変圧器は
、本発明の実施例の第1図、第2図に示す如く、鉄心1
及び巻線2などからなる変圧器中身23が内蔵された上
タンクの輸送タンク3及び皿状の下タンク4からなるタ
ンクの長手方向両端に設けられたヒンジ5を吊械式貨車
(図示せず)に取付けて輸送されている。Generally, a large capacity transformer for railway transportation having such a structure has an iron core 1, as shown in FIGS. 1 and 2 of the embodiment of the present invention.
Hinges 5 provided at both longitudinal ends of the tank, which consists of an upper tank transport tank 3 in which the transformer contents 23 consisting of windings 2, etc. are built, and a dish-shaped lower tank 4, are attached to a hanging mechanical freight car (not shown). ) is installed and transported.
そして、タンクの上下ステー6.7は、貨車と一体とな
るフレームを形成し変圧器の荷重を支持している。The upper and lower stays 6.7 of the tank form a frame integrated with the freight car and support the load of the transformer.
このような構造においては、駅のプラットホームからく
る輸送限界により下タンク部が制約される。In such a structure, the lower tank section is restricted by transportation limitations from the station platform.
このため、変圧器中身230重量を支持する皿状の下タ
ンク4を、貨車と結合される上タンクの輸送タンクへ支
持するため、下タンク4底より上下タンク結合フランジ
までステーを立ち上げて上タンク側と結合するか、また
は、別に補助ビームを設けて皿状の下タンクの重量を上
タンクに伝達するように構成する必要がある。Therefore, in order to support the dish-shaped lower tank 4, which supports the 230 weight of the contents of the transformer, to the transportation tank of the upper tank that is connected to the freight car, a stay is raised from the bottom of the lower tank 4 to the upper and lower tank joining flanges. It is necessary to connect it to the tank side or provide a separate auxiliary beam to transmit the weight of the dish-shaped lower tank to the upper tank.
しかし、このような構造にすると、これらのステーやビ
ームの幅の分だけタンク内壁間の幅が狭くなり変圧器中
身の幅が制約される。However, with such a structure, the width between the inner walls of the tank becomes narrower by the width of these stays and beams, and the width of the transformer contents is restricted.
このように幅が制約されることは、今後、実用化される
超超高圧変圧器、特に1000kv級変圧器においては
、著しい輸送上の制約となる。Such width restrictions pose a significant transportation constraint for ultra-high voltage transformers, especially 1000 kV class transformers, which will be put into practical use in the future.
従って、このような幅の制約はできるだけ少ないことが
望ましい。Therefore, it is desirable that such width restrictions be as small as possible.
また、大容量の変圧器においては、タンクの機械的強度
の向上や充填する絶縁油の量を減少させるため、内部に
収納する変圧器中身である特に巻線外径に適合するよう
に、タンクの側面にその高さ方向にわたって凹部な形成
することも提案されている。In addition, in large-capacity transformers, in order to improve the mechanical strength of the tank and reduce the amount of insulating oil to be filled, the tank is designed to match the outer diameter of the transformer's internal windings. It has also been proposed to form a concave portion on the side surface of the substrate along its height.
本発明はこのような状況に鑑みなされたものであり、輸
送タンクと皿状の下タンクとを結合するフランジ幅を著
しく低減でき、制約された状況においても輸送される変
圧器容量を増大させることができる大容量変圧器を提供
することを目的としたものである。The present invention has been made in view of this situation, and has the object of significantly reducing the width of the flange that connects the transport tank and the dish-shaped lower tank, and increasing the capacity of the transformer to be transported even under restricted conditions. The purpose is to provide a large-capacity transformer that can
本発明の大容量変圧器は、複数の主脚にそれぞれ巻線を
配置してなる変圧器中身を設置する皿状の下タンクに接
合用バンドを設け、このフランジを輸送抜本タンクと交
換される輸送タンクに設けたフランジと着脱自在に結合
し、輸送タンクには変圧器中身に適合する形状に形成さ
れてタンク内側に突出する突出部をタンク側板に設けて
構成する際、この突出部により形成された輸送タンクの
外側部分に下タンク及び輸送タンクのフランジ間を結合
する補強連結手段を設けたものである。In the large-capacity transformer of the present invention, a joining band is provided on a dish-shaped lower tank in which the contents of the transformer are installed, and the flange is replaced with a transport strip tank. When the transport tank is configured with a protrusion that is removably connected to a flange provided on the transport tank, and is formed in a shape that matches the contents of the transformer and protrudes inside the tank, the protrusion is formed by this protrusion. A reinforcing connection means for connecting the flanges of the lower tank and the transport tank is provided on the outer side of the transport tank.
以下本発明の大容量変圧器の一実施例を第1図ないし第
3図により説明する。An embodiment of the large capacity transformer of the present invention will be described below with reference to FIGS. 1 to 3.
皿状の下タンク4と上タンクの輸送タンク3とから形成
されたタンク内には複数個の主脚22を備えた鉄心1と
主脚22に巻回された巻線2とからなる変圧器中身23
が内蔵されており、下タンク4と輸送タンク3とはそれ
ぞれに固定されたフランジ8,8間に気密を保持するた
めガスケット15を介在させボルト14により固定され
ている。Inside the tank formed by a dish-shaped lower tank 4 and an upper transport tank 3 is a transformer consisting of an iron core 1 having a plurality of main legs 22 and a winding 2 wound around the main legs 22. Contents 23
The lower tank 4 and the transport tank 3 are fixed with bolts 14 with a gasket 15 interposed between flanges 8, 8 fixed to each other to maintain airtightness.
フランジ80幅はバッキングに必要な最小のものでよく
、また、皿状の下タンクの底には底ステー9が設けられ
変圧器中身23の荷重を皿状の下タンク3の側壁に伝え
ている。The width of the flange 80 may be the minimum width required for the backing, and a bottom stay 9 is provided at the bottom of the dish-shaped lower tank to transmit the load of the transformer contents 23 to the side wall of the dish-shaped lower tank 3. .
そしてタンクの長手方向については、輸送上の制約は少
なく、長手方向端面フランジ部110幅を広くシ、ボル
トを気密を保持するとともに、皿状の下タンク4の荷重
を輸送タンク3へ伝達するように荷重分担に併用させる
ことは容易である。In the longitudinal direction of the tank, there are few restrictions on transportation, and the width of the longitudinal end flange portion 110 is widened to keep the bolts airtight and to transmit the load of the dish-shaped lower tank 4 to the transportation tank 3. It is easy to use it in conjunction with load sharing.
そして、皿状の下タンク4よりの荷重は底ステー10に
より側板とフランジ8へ伝達される。The load from the dish-shaped lower tank 4 is transmitted to the side plate and flange 8 by the bottom stay 10.
第1図に示す如く、タンク内の巻線2相互間または巻線
2と側脚26間に形成される三角形の空隙部分25には
変圧器中身23に適合する形状に形成されてタンク内側
に突出した突出部12がタンク側板に形成され、突出部
12により形成された輸送タンク3の外側に空間部分2
4が形成されている。As shown in FIG. 1, a triangular gap 25 formed between the windings 2 in the tank or between the windings 2 and the side leg 26 is formed in a shape that fits the transformer contents 23 and is placed inside the tank. A protruding protrusion 12 is formed on the tank side plate, and a space 2 is formed on the outside of the transport tank 3 formed by the protrusion 12.
4 is formed.
空間部分24の下部の皿状の下タンク4には第3図に示
す如く、タンク内側に補助ステー13が設けられ底板か
らの力をフランジ8へ伝えるようになっている。As shown in FIG. 3, the dish-shaped lower tank 4 at the bottom of the space 24 is provided with an auxiliary stay 13 inside the tank so as to transmit the force from the bottom plate to the flange 8.
そして、輸送タンク3と皿状の下タンク4の各フランジ
8間を空間部分24に取付けた補強ボルト17により固
着する補強連結手段を設けている。Further, a reinforcing connection means is provided in which the flanges 8 of the transportation tank 3 and the dish-shaped lower tank 4 are fixed by reinforcing bolts 17 attached to the space portion 24.
伺この部分の気密はガスケット16により保持される。This part is kept airtight by a gasket 16.
21は輸送限界である。21 is the transportation limit.
このように本実施例の大容量変圧器は、絶縁上不要な空
間を利用して輸送タンクと皿状の下タンクを強度的に補
強する補強連結手段を設けているので、変圧器中身重量
を支持する皿状の下タンクを上下ステーを備えた輸送タ
ンクに強固に支持させることができる。In this way, the large-capacity transformer of this embodiment is provided with a reinforcing connection means that strengthens the transport tank and the dish-shaped lower tank by utilizing unnecessary space for insulation purposes, so that the weight of the contents of the transformer can be reduced. The dish-shaped lower tank to be supported can be firmly supported by the transportation tank equipped with upper and lower stays.
尚、変圧器を現地に輸送後は、輸送タンクを本タンクと
交換する。After transporting the transformer to the site, the transport tank will be replaced with the main tank.
従って、輸送タンクと皿状の下タンクとを結合するフラ
ンジ幅は最小でよく、輸送される変圧器容量を増大させ
ることができる。Therefore, the width of the flange connecting the transport tank and the dish-shaped lower tank can be minimized, and the capacity of the transformer to be transported can be increased.
上記実施例は、フランジ面がタンク底面と箱ステーから
なる下ステーとの中間にある場合について述べたが、巻
線の直径に応じて下ステー下面まで上げること、または
底ステーとほぼ同じ位置まで下げることも可能で同様の
作用効果を有する。In the above embodiment, the flange surface is located midway between the bottom of the tank and the lower stay consisting of a box stay, but depending on the diameter of the winding, it may be raised to the bottom surface of the lower stay, or to almost the same position as the bottom stay. It is also possible to lower it and have similar effects.
第4図はフランジ8の接続部分の補強連結手段の他の実
施例を示す。FIG. 4 shows another embodiment of the reinforcing connection means of the connecting part of the flange 8.
上記実施例と異るところは、上記実施例が補強ボルト1
7により補強連結手段を形成しているのに対し、本実施
例は皿状の下タンク4のフランジ8に固着した吊上用ス
テー18を、輸送タンク3に固定した受座27にピン1
9、カバー20、ねじを介し固着したものであり、上記
実施例と同様の作用効果を有する。The difference from the above embodiment is that the above embodiment has a reinforcing bolt 1.
7 forms a reinforcing connection means, whereas in this embodiment, a lifting stay 18 fixed to a flange 8 of a dish-shaped lower tank 4 is connected to a pin 1 on a seat 27 fixed to a transport tank 3.
9. The cover 20 is fixed via screws, and has the same effect as the above embodiment.
以上記述した如く本発明の大容量変圧器は、輸送タンク
と皿状の下タンクとを結合するフランジ幅を著しく狭く
しても強固に連結支持できるから、輸送制限内で輸送可
能な変圧器容量を増大させることができる効果を有する
ものである。As described above, the large-capacity transformer of the present invention can be firmly connected and supported even if the width of the flange connecting the transport tank and the dish-shaped lower tank is significantly narrowed, so that the transformer capacity can be transported within transport limits. It has the effect of increasing the
第1図は本発明の大容量変圧器の一実施例の第2図のI
−I矢視断面図、第2図は第1図の正面図、第3図は第
2図の■−■矢視断面拡大図、第4図は本発明の大容量
変圧器の他の実施例の第3図と同部分の断面図である。
1・・・・・・鉄心、2・・・・・・巻線、3・・・・
・・輸送タンク、4・・・・・・下タンク、8・・・・
・・フランジ、12・・・・・・突出部、17・・・・
・・補強ボルト、18・・・・・・吊上用ステー19・
・・・・・ピン、20・・・・・・カバー、22・・・
・・・主脚、23・・・・・・変圧器中身、24・・・
・・・空間部分、27・・・・・・受座。FIG. 1 shows I in FIG. 2 of an embodiment of the large capacity transformer of the present invention.
- I arrow sectional view, FIG. 2 is a front view of FIG. 1, FIG. 3 is an enlarged cross-sectional view of FIG. It is a sectional view of the same part as FIG. 3 of an example. 1...Iron core, 2...Winding, 3...
...Transport tank, 4...Lower tank, 8...
...Flange, 12...Protrusion, 17...
...Reinforcement bolt, 18...Hoisting stay 19.
...Pin, 20...Cover, 22...
...Main landing gear, 23...Transformer contents, 24...
...Space part, 27...Catch seat.
Claims (1)
身を皿状に形成した下タンクに設置し、前記下タンクに
設ける接合用フランジを輸送抜本タンクと交換される輸
送タンクに設けるフランジと着脱自在に結合し、前記輸
送タンクには、変圧器中身に適合する形状に形成されて
タンク内側に突出する突出部をタンク側板に設けるもの
において、該突出部により形成された輸送タンクの外側
の空間部分には、前記下タンク及び輸送タンクのフラン
ジ間を結合する補強結合手段を設けたことを特徴とする
大容量変圧器。1 The contents of a transformer consisting of a plurality of main legs with windings arranged respectively are installed in a dish-shaped lower tank, and a joining flange provided on the lower tank is a flange provided on a transport tank that is replaced with a transport main tank. and the transportation tank is provided with a protrusion on the tank side plate that is formed in a shape that conforms to the contents of the transformer and protrudes inside the tank, and the outer side of the transportation tank formed by the protrusion is A large-capacity transformer characterized in that a reinforcing coupling means is provided in the space portion for coupling the flanges of the lower tank and the transport tank.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10585479A JPS5856245B2 (en) | 1979-08-22 | 1979-08-22 | large capacity transformer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP10585479A JPS5856245B2 (en) | 1979-08-22 | 1979-08-22 | large capacity transformer |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5630709A JPS5630709A (en) | 1981-03-27 |
JPS5856245B2 true JPS5856245B2 (en) | 1983-12-14 |
Family
ID=14418572
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP10585479A Expired JPS5856245B2 (en) | 1979-08-22 | 1979-08-22 | large capacity transformer |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS5856245B2 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS57204198A (en) * | 1981-06-10 | 1982-12-14 | Hitachi Ltd | Frame with printed board container |
CN107610895A (en) * | 2017-09-28 | 2018-01-19 | 江苏容源电力设备有限公司 | A kind of heat sinking oil tank of transformer |
-
1979
- 1979-08-22 JP JP10585479A patent/JPS5856245B2/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
JPS5630709A (en) | 1981-03-27 |
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