JP2014078542A - Cooling device for transformer - Google Patents

Cooling device for transformer Download PDF

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JP2014078542A
JP2014078542A JP2012223844A JP2012223844A JP2014078542A JP 2014078542 A JP2014078542 A JP 2014078542A JP 2012223844 A JP2012223844 A JP 2012223844A JP 2012223844 A JP2012223844 A JP 2012223844A JP 2014078542 A JP2014078542 A JP 2014078542A
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transformer
partition plate
housing
main circuit
cooling device
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JP6007714B2 (en
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Tatsuya Toyoshima
達矢 豊嶋
Jukichi Yasuda
寿吉 安田
Hiroshi Shiroichi
洋 城市
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Fuji Electric Co Ltd
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Fuji Electric Co Ltd
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  • Cooling Or The Like Of Electrical Apparatus (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a cooling device for a transformer capable of efficiently cooling the transformer in simple configuration.SOLUTION: A cooling device for a transformer comprises: a casing in which the transformer is accommodated; a ceiling fan for exhaustion disposed at a position, opposing a top face of the transformer, on a top face of the casing; a cooling air intake formed at a position, opposing a base part of the transformer, on a front face of the casing; and a partition plate which is disposed from the front face of the casing to a front face of the transformer and longitudinally partitions the periphery of the transformer within the casing. The partition plate includes: a first partition plate which is disposed between the top face of the transformer and the top face of the casing while extending in a vertical direction; a second partition plate which is disposed while extending from a lower end of the first partition plate to a back side of the transformer; and a third partition plate which is disposed while extending from both side parts of the second partition plate through a side face of the transformer to a bottom face side of the casing.

Description

本発明は、筐体内に配置した変圧器を冷却する変圧器の冷却装置に関する。   The present invention relates to a transformer cooling device for cooling a transformer disposed in a casing.

半導体電力変換装置では、主回路を構成する半導体ユニットと、主回路変圧器等の発熱機器を冷却する部分と、比較的熱に弱い制御プリント板の電気機器で構成した制御ユニットを冷却する部分とを、それぞれ3つの盤(筐体)に分離して収納するようにしている。   In a semiconductor power conversion device, a semiconductor unit that constitutes a main circuit, a portion that cools a heat generating device such as a main circuit transformer, and a portion that cools a control unit that is constituted by an electric device of a control printed board that is relatively resistant to heat, Are stored separately in three panels (housings).

特に、発熱量の多い主回路変圧器を収納する盤(筐体)では、正面に吸気口を設けて天井に設置した冷却ファンで排気する強制換気方式を採用している(例えば、特許文献1参照)。   In particular, a panel (housing) that houses a main circuit transformer with a large amount of heat generation employs a forced ventilation system in which an air inlet is provided in the front and exhausted by a cooling fan installed on the ceiling (for example, Patent Document 1). reference).

この特許文献1に記載の従来例では、筐体内を上部空間及び下部空間に仕切られた変圧器盤が開示されている。この変圧器盤には、冷却ファンにより発生する冷却風が上部空間及び下部空間の相互に流通するのを阻止する筐体内部空間仕切部材となる変圧器側絶縁板と、筐体側絶縁支持部材と、吸気整流板とが設けられている。さらに、この変圧器盤では、冷却ファンの回転により筐体内に発生する冷却風を変圧器のコイルの外周部を包囲する筒状絶縁物内へ導き、変圧器のコイルを冷却するようにした構成が開示されている。   In the conventional example described in Patent Document 1, a transformer panel in which a housing is partitioned into an upper space and a lower space is disclosed. The transformer panel includes a transformer-side insulating plate that serves as a housing internal space partition member that prevents the cooling air generated by the cooling fan from flowing between the upper space and the lower space, and a housing-side insulating support member. And an intake rectifying plate. Further, in this transformer panel, the cooling air generated in the housing by the rotation of the cooling fan is guided into the cylindrical insulator surrounding the outer periphery of the transformer coil, and the transformer coil is cooled. Is disclosed.

また、他の冷却方式としては、変圧器のコイル全体が内側に遊嵌する風導筒を箱体の下部の仕切板から立設した変圧器盤が開示されている(例えば、特許文献2参照)。この変圧器盤では、仕切板の下側の吸気口から内部に吸入された冷却空気を風導筒の内側とコイルの間を上昇させ、一次側のコイルと二次側のコイルを略同一冷却条件で冷却して、温度上昇の差を減らすようにした強制通風形変圧器箱の構成が開示されている。   Further, as another cooling method, a transformer panel is disclosed in which a wind guide tube in which the entire coil of the transformer is loosely fitted inside is erected from a lower partition plate of the box (see, for example, Patent Document 2). ). In this transformer panel, the cooling air sucked into the interior from the lower inlet of the partition plate is raised between the inside of the wind guide tube and the coil, and the primary side coil and the secondary side coil are cooled substantially in the same manner. A configuration of a forced draft transformer box that is cooled under conditions to reduce the difference in temperature rise is disclosed.

特開2009−76825号公報JP 2009-76825 A 特開2000−232022号公報JP 2000-2322022 A

ここで、上記特許文献1及び2に記載された従来例にあっては、変圧器を収納する筐体の正面側からのみ空気を取り込み、筐体内に取込んだ冷却風を変圧器の周りを通って上方に配置した冷却ファンで外部に排気する強制換気方式となっている。   Here, in the conventional examples described in Patent Documents 1 and 2, the air is taken in only from the front side of the housing that houses the transformer, and the cooling air taken in the housing is passed around the transformer. It is a forced ventilation system that exhausts to the outside with a cooling fan placed through.

しかしながら、上記特許文献1及び2に記載された従来例にあっては、ともに筐体の正面から取込んだ冷却風を変圧器の周りに案内するために、送風ファンと、変圧器のコイルの外周部を包囲する筒状絶縁物及びコイルを遊嵌する風導筒と、これら筒状絶縁部及び風導筒の下部に冷却風を案内する導風機構を必要とする。   However, in the conventional examples described in Patent Documents 1 and 2, in order to guide the cooling air taken from the front of the casing around the transformer, a blower fan and a coil of the transformer are used. A wind guide cylinder that loosely fits a cylindrical insulator and a coil that surrounds the outer peripheral portion, and a wind guide mechanism that guides cooling air to the lower portion of the cylindrical insulating section and the wind guide cylinder are required.

そのため、構成が複雑となるほか、筐体が大型化してしまうという未解決の課題があった。
また、上記特許文献1及び2に記載された従来例では、冷却風の通路を変圧器の周囲のみに制限している。そのため、空気抵抗が大きくなり、冷却ファンの風量が低下し、冷却効率が低下してしまうという未解決の課題もあった。
For this reason, there is an unsolved problem that the configuration becomes complicated and the casing is enlarged.
In the conventional examples described in Patent Documents 1 and 2, the cooling air passage is limited only to the periphery of the transformer. For this reason, there has been an unsolved problem that the air resistance increases, the air volume of the cooling fan decreases, and the cooling efficiency decreases.

さらに、上記特許文献1に記載の従来例にあっては、二次コイルの周囲に筒状絶縁物を設けている。そのため、変圧器自体の設計を変更する必要があり、大幅なコストアップとなってしまい、乾式変圧器として好適なものとは言えないという未解決の課題もあった。   Furthermore, in the conventional example described in Patent Document 1, a cylindrical insulator is provided around the secondary coil. Therefore, it is necessary to change the design of the transformer itself, resulting in a significant cost increase, and there is also an unsolved problem that it cannot be said to be suitable as a dry transformer.

そこで、本発明は、上記従来例の未解決の課題に着目してなされたものであり、簡易な構成で、変圧器を効率よく冷却することができる変圧器の冷却装置を提供することを目的としている。  Accordingly, the present invention has been made paying attention to the unsolved problems of the above-described conventional example, and an object thereof is to provide a transformer cooling device capable of efficiently cooling the transformer with a simple configuration. It is said.

上記の目的を達成するために、本発明によれば、変圧器を収納した筐体と、該筐体の上面における前記変圧器の上面に対向する位置に配置された排気用天井ファンと、前記筐体の正面における前記変圧器の基部に対向する位置に形成された冷却風吸気口と、前記筐体の正面から前記変圧器の前面までの間に配置され、前記筐体内で前記変圧器の周囲を前後に仕切る仕切板を具備し、該仕切板は、前記変圧器の上面と筐体の上面との間に垂直方向に延長して配設された第1の仕切板と、前記第1の仕切板の下端から前記変圧器の背面側に延長して配設された第2の仕切板と、前記第2の仕切板の両側部から前記変圧器の側面を通って前記筐体の下面側に延長して配設された第3の仕切板とを備えることを特徴とする変圧器の冷却装置とする。   In order to achieve the above object, according to the present invention, a casing that houses a transformer, an exhaust ceiling fan that is disposed on a top surface of the casing at a position facing the top surface of the transformer, A cooling air inlet formed at a position facing the base of the transformer at the front of the housing, and disposed between the front of the housing and the front of the transformer, and within the housing of the transformer A partition plate that divides the periphery forward and backward, the partition plate extending vertically between the upper surface of the transformer and the upper surface of the housing; and the first partition plate A second partition plate extending from the lower end of the partition plate to the back side of the transformer, and the lower surface of the housing from both sides of the second partition plate through the side surface of the transformer And a third partition plate extended to the side. A transformer cooling device characterized by comprising:

また、本発明によれば、上記の構成において、前記変圧器の基部と前記筐体の後面との間に配設された第4の仕切板と、前記変圧器の上部と前記筐体の後面との間に配設された第5の仕切板とを備えることを特徴とする変圧器の冷却装置とする。   According to the present invention, in the above configuration, the fourth partition plate disposed between the base of the transformer and the rear surface of the housing, the upper portion of the transformer, and the rear surface of the housing And a fifth partition plate disposed between the two and the cooling device for the transformer.

また、本発明によれば、上記の構成において、前記排気用天井ファンが、ファン中心軸線が前記変圧器の巻線部の前後方向の中心位置と略一致するように配置されていることを特徴とする変圧器の冷却装置とする。   According to the present invention, in the above configuration, the exhaust ceiling fan is arranged such that a fan center axis substantially coincides with a center position in a front-rear direction of a winding portion of the transformer. And a transformer cooling device.

また、本発明によれば、上記の構成において、前記排気用天井ファンが、幅方向に複数台並列に設置されていることを特徴とする変圧器の冷却装置とする。   According to the present invention, in the above configuration, a plurality of the exhaust ceiling fans are installed in parallel in the width direction.

本発明により、簡易な構成で、効率よく冷却することができる変圧器の冷却装置を実現することができる。   According to the present invention, it is possible to realize a transformer cooling device that can be efficiently cooled with a simple configuration.

本発明の実施例を示す正面図である。It is a front view which shows the Example of this invention. 図1の前面板を取り外した正面図である。It is the front view which removed the front board of FIG. 図2のA−A線上の断面図である。It is sectional drawing on the AA line of FIG. 図2のB−B線上の断面図である。It is sectional drawing on the BB line of FIG. 図2のC−C線上の断面図である。It is sectional drawing on the CC line of FIG.

以下に、図面を参照しながら、本発明の実施の一形態について説明する。ただし、以下の記載は、あくまでも本発明の例示であり、これに限定されるものではない。つまり、当分野で通常の知識を有する者によって、本発明の技術的思想内で多くの変形実施を行うことが可能である。   An embodiment of the present invention will be described below with reference to the drawings. However, the following description is merely an example of the present invention, and the present invention is not limited to this. That is, it is possible for a person having ordinary knowledge in the field to implement many modifications within the technical idea of the present invention.

〔本発明の実施例の構成〕
図1〜5は、本発明の実施例を示す図である。以下に、図1〜5により、本発明の実施例の構成を説明する。
[Configuration of the embodiment of the present invention]
1-5 is a figure which shows the Example of this invention. The configuration of the embodiment of the present invention will be described below with reference to FIGS.

図1は、本発明の実施例を示す正面図である。図2は、図1の前面板を取り外した正面図である。図3は、図2のA−A線上の断面図である。図4は、図2のB−B線上の断面図である。図5は、図2のC−C線上の断面図である。1は筐体、1aは前面板、1bは後面板、1cは上面板、1dは底面板、1eは左側面板、1fは右側面板、2は主回路変圧器、2Uは開閉扉、2Lは正面カバー、3a及び3bは冷却風吸気口、4は網状部材、5a及び5bは排気用天井ファン、6は第1の仕切板、7は第2の仕切板、8a〜cは第3の仕切板、9は第4の仕切板、10は第5の仕切板、11は第1の通風路、12は第2の通風路である。   FIG. 1 is a front view showing an embodiment of the present invention. FIG. 2 is a front view with the front plate of FIG. 1 removed. 3 is a cross-sectional view taken along the line AA in FIG. 4 is a cross-sectional view taken along line BB in FIG. FIG. 5 is a cross-sectional view taken along the line CC of FIG. 1 is a housing, 1a is a front plate, 1b is a rear plate, 1c is a top plate, 1d is a bottom plate, 1e is a left side plate, 1f is a right side plate, 2 is a main circuit transformer, 2U is a door, 2L is a front panel Covers, 3a and 3b are cooling air inlets, 4 is a mesh member, 5a and 5b are exhaust ceiling fans, 6 is a first partition plate, 7 is a second partition plate, and 8a to c are third partition plates. , 9 is a fourth partition plate, 10 is a fifth partition plate, 11 is a first ventilation path, and 12 is a second ventilation path.

筐体1(盤)は、前面板1a、後面板1b、上面板1c、底面板1d、左側面板1e及び右側面板1fとで直方体形状に形成されている。この筐体1内の略中央部に3相の主回路変圧器2が三相の巻線部Lu、Lv及びLwを幅方向に並列させた状態で収納されている。   The housing 1 (board) is formed in a rectangular parallelepiped shape with a front plate 1a, a rear plate 1b, a top plate 1c, a bottom plate 1d, a left side plate 1e, and a right side plate 1f. A three-phase main circuit transformer 2 is housed in a substantially central portion of the housing 1 with three-phase winding portions Lu, Lv, and Lw arranged in parallel in the width direction.

主回路変圧器2は、例えば半導体スイッチング素子を有するインバータ回路等の電力変換装置の3相出力と負荷との間に接続されるものである。この主回路変圧器2の基部2aの底面は、筐体1の底面板1dに固定されている。   The main circuit transformer 2 is connected between a three-phase output of a power converter such as an inverter circuit having a semiconductor switching element and a load. The bottom surface of the base portion 2 a of the main circuit transformer 2 is fixed to the bottom plate 1 d of the housing 1.

筐体1の前面板1aは上下2段で幅方向に2列の開閉扉2U及び正面カバー2Lを備えている。下段の正面カバー2Lの主回路変圧器2の基部2aに対向する位置に冷却風吸気口3a及び3bが形成されている。これら冷却風吸気口3a及び3bのそれぞれは、網状部材4で覆われている。   The front plate 1a of the housing 1 is provided with two rows of upper and lower doors 2U and a front cover 2L in the width direction in two steps. Cooling air inlets 3a and 3b are formed at positions facing the base 2a of the main circuit transformer 2 of the lower front cover 2L. Each of the cooling air inlets 3 a and 3 b is covered with a mesh member 4.

また、筐体1の内部における主回路変圧器2の前後方向の中央部の周囲を囲むように筐体1の前後を仕切る第1〜3の仕切板6〜8が配置されている。第1〜3の仕切板6〜8は、第1の仕切板6とこれに連接する第2の仕切板7及び第3の仕切板8a〜cとによって、正面から見て主回路変圧器2を囲むU字形状に形成されている。   Moreover, the 1st-3rd partition plates 6-8 which partition the front and rear of the housing | casing 1 are arrange | positioned so that the circumference | surroundings of the center part of the front-back direction of the main circuit transformer 2 in the inside of the housing | casing 1 may be enclosed. The first to third partition plates 6 to 8 include the main circuit transformer 2 as viewed from the front by the first partition plate 6, the second partition plate 7 and the third partition plates 8a to 8c connected thereto. It is formed in a U-shape that surrounds.

第1の仕切板6は、筐体1の上部を前後に仕切るように上面板1cから下方へ延長して配置されている。さらに、この第1の仕切板6の下端から、後方へ延長するように第2の仕切部7が設けられている。そして、この第2の仕切板7の後端には、さらに下方へ延長し、主回路変圧器2の前面と所定の隙間を空けて対向する第3の仕切板8aが設けられている。   The first partition plate 6 is arranged extending downward from the upper surface plate 1c so as to partition the upper portion of the housing 1 forward and backward. Furthermore, the 2nd partition part 7 is provided so that it may extend back from the lower end of this 1st partition plate 6. As shown in FIG. The rear end of the second partition plate 7 is provided with a third partition plate 8a that extends further downward and faces the front surface of the main circuit transformer 2 with a predetermined gap.

また、側部仕切板である第3の仕切板8b及び8cは、内側面が第3の仕切板8aの左右両端から主回路変圧器2の左右端部に対して所定の隙間を開けて下方に延長するとともに、左右側面板1e及び1fに達する幅に形成されている。   In addition, the third partition plates 8b and 8c, which are side partition plates, have an inner surface below a predetermined gap with respect to the left and right end portions of the main circuit transformer 2 from the left and right ends of the third partition plate 8a. And a width reaching the left and right side plates 1e and 1f.

こうして、第1の仕切板6、第2の仕切板7及び第3の仕切板8a〜cによって、主回路変圧器2の基部2aから一次巻線L1及び二次巻線L2の間の隙間g1を通過する第1の通風路11が形成されている。   Thus, the gap g1 between the primary winding L1 and the secondary winding L2 from the base 2a of the main circuit transformer 2 by the first partition plate 6, the second partition plate 7, and the third partition plates 8a to 8c. The 1st ventilation path 11 which passes through is formed.

さらに、主回路変圧器2の基部2aの後方には、主回路変圧器2の後面と後面板1bとの間に、第4の仕切板9が配設されている。また、主回路変圧器2と後面板1bとの間の空間を上方から塞ぐように、主回路変圧器2と所定の隙間を空けて近接した位置から後面板1bまで達する第5の仕切板10が設けられている。この第5の仕切板10は、図3に示すとおり、平面から見て主回路変圧器2を囲むU字形状に形成されている。   Further, a fourth partition plate 9 is disposed behind the base portion 2a of the main circuit transformer 2 between the rear surface of the main circuit transformer 2 and the rear plate 1b. Further, a fifth partition plate 10 reaching the rear plate 1b from a position close to the main circuit transformer 2 with a predetermined gap so as to block the space between the main circuit transformer 2 and the rear plate 1b from above. Is provided. As shown in FIG. 3, the fifth partition plate 10 is formed in a U shape that surrounds the main circuit transformer 2 as viewed from above.

こうして、主回路変圧器2の背面側と第4の仕切板9と第5の仕切板10とによって、主回路変圧器2の背面側を通過する第2の通風路12が形成されている。
また、上述のとおり、筐体1の上面板1cの主回路変圧器2に対向する位置に、2つの排気用天井ファン5a,5bが配設されている。これら排気用天井ファン5a,5bのそれぞれは、図5に示すように、ファン中心軸線Lfが主回路変圧器2の前後方向の中央位置と対応するように上面板1cに配設されている。
Thus, the second ventilation path 12 passing through the back side of the main circuit transformer 2 is formed by the back side of the main circuit transformer 2, the fourth partition plate 9, and the fifth partition plate 10.
Further, as described above, the two exhaust ceiling fans 5a and 5b are disposed at a position of the upper surface plate 1c of the housing 1 facing the main circuit transformer 2. As shown in FIG. 5, each of these exhaust ceiling fans 5 a and 5 b is disposed on the upper surface plate 1 c so that the fan center axis Lf corresponds to the center position in the front-rear direction of the main circuit transformer 2.

なお、筐体1内における主回路変圧器2の基部2a側には、冷却風吸気口3a及び3bが配設されている。
〔本発明の実施例の動作〕
次に、図1〜5により、本発明の実施例の動作を説明する。
Note that cooling air inlets 3 a and 3 b are disposed on the base 2 a side of the main circuit transformer 2 in the housing 1.
[Operation of the embodiment of the present invention]
Next, the operation of the embodiment of the present invention will be described with reference to FIGS.

先ず、第1の通風路11を通過する冷却風の流れについて説明する。
排気用天井ファン5a及び5bは、その中心軸線Lfが主回路変圧器2の中央位置と対応する位置であって、第1の通風路11の上方に配置されている。さらに、主回路変圧器2の左右側縁と筐体1の左右側面板1e及び1fとの間は、第3の仕切板(側部仕切板)8b及び8cによって閉塞されている。これにより、第1の通風路11は、一次巻線L1及び二次巻線L2の間の隙間g1及び基部2aを介して筐体1の前面板1aに配設された冷却風吸気口3a及び3bに連結されている。
First, the flow of cooling air passing through the first ventilation path 11 will be described.
The exhaust ceiling fans 5 a and 5 b are disposed above the first ventilation path 11 at a position where the center axis Lf corresponds to the center position of the main circuit transformer 2. Further, the left and right side edges of the main circuit transformer 2 and the left and right side plates 1e and 1f of the housing 1 are closed by third partition plates (side partition plates) 8b and 8c. Accordingly, the first ventilation path 11 includes the cooling air intake port 3a disposed on the front plate 1a of the housing 1 via the gap g1 between the primary winding L1 and the secondary winding L2 and the base portion 2a, and It is connected to 3b.

ここで、排気用天井ファン5a及び5bを回転駆動することにより、冷却風吸気口3a及び3bから外気が冷却風として筐体1内に取り込まれる。
筐体1内に取り込まれた冷却風は、主回路変圧器2の左右縁と筐体1の左右側面板1e及び1fとの間が第3の仕切板(側部仕切板)8b及び8cによって閉塞されているため、主回路変圧器2の基部2aに集中して向かう。そして、基部2aから、主回路変圧器2の一次巻線L1及び二次巻線L2の間の隙間g1、並びに二次巻線L2と第3の仕切板(側部仕切板)8b及び8cとの間の隙間を通って上方に抜ける。
Here, by rotating and driving the exhaust ceiling fans 5a and 5b, outside air is taken into the housing 1 as cooling air from the cooling air inlets 3a and 3b.
The cooling air taken into the housing 1 is divided between the left and right edges of the main circuit transformer 2 and the left and right side plates 1e and 1f of the housing 1 by third partition plates (side partition plates) 8b and 8c. Since it is blocked, it is concentrated on the base 2a of the main circuit transformer 2. From the base 2a, the gap g1 between the primary winding L1 and the secondary winding L2 of the main circuit transformer 2, the secondary winding L2, and the third partition plates (side partition plates) 8b and 8c Exit upward through the gap between.

また、基部2aから主回路変圧器2の前面側を抜ける冷却風は、主回路変圧器2と筐体1の上面板1cとの間が第1の仕切板6、第2の仕切板7及び第3の仕切板8aで前後方向に閉塞されているため、主回路変圧器2の上部付近へ流入して上方に抜ける。   In addition, the cooling air passing through the front side of the main circuit transformer 2 from the base 2a has a first partition plate 6, a second partition plate 7 and a space between the main circuit transformer 2 and the upper surface plate 1c of the housing 1. Since it is blocked in the front-rear direction by the third partition plate 8a, it flows into the vicinity of the upper part of the main circuit transformer 2 and exits upward.

これらの第1の通風路11を通過して上方へ抜けた冷却風は、排気用天井ファン5a及び5bによって外部に排出される。
このように、第1の通風路11は、第1の仕切板6、第2の仕切板7及び第3の仕切板8a〜cによって冷却風の通路を制約したことにより、冷却風の流れを一次巻線L1及び二次巻線L2の近傍に集中させることができる。特に、筐体1内に取り込まれた冷却風は、二次巻線L2の正面に当たり、主回路変圧器2の一次巻線L1及び二次巻線L2の間の隙間g1、並びに二次巻線L2と第3の仕切板(側部仕切板)8b及び8cとの間の隙間を通って上方に抜ける。そのため、冷却風を効率よく主回路変圧器2の一次巻線L1及び二次巻線L2側面に当てることができる。
The cooling air that has passed through the first ventilation path 11 and has escaped upward is discharged to the outside by the exhaust ceiling fans 5a and 5b.
Thus, the first ventilation path 11 restricts the flow of the cooling air by the first partition plate 6, the second partition plate 7, and the third partition plates 8 a to 8 c, thereby reducing the flow of the cooling air. It can be concentrated in the vicinity of the primary winding L1 and the secondary winding L2. In particular, the cooling air taken into the housing 1 hits the front surface of the secondary winding L2, and the gap g1 between the primary winding L1 and the secondary winding L2 of the main circuit transformer 2 and the secondary winding. It passes upward through a gap between L2 and the third partition plates (side partition plates) 8b and 8c. Therefore, the cooling air can be efficiently applied to the side surfaces of the primary winding L1 and the secondary winding L2 of the main circuit transformer 2.

次に、第2の通風路12を通過する冷却風の流れについて説明する。
上述のとおり、冷却風吸気口3a及び3bから筐体1内に取り込まれた冷却風は、基部2aに達した後、その一部が、主回路変圧器2の背面側に形成された第2の通風路12へ流入する。
Next, the flow of cooling air passing through the second ventilation path 12 will be described.
As described above, after the cooling air taken into the housing 1 from the cooling air inlets 3a and 3b reaches the base 2a, a part thereof is formed on the back side of the main circuit transformer 2. Flows into the ventilation path 12.

そして、第2の通風路12へ流入した冷却風は、主回路変圧器2の基部2aの後面と後面板1bとの間に第4の仕切板9が配設されているため、主回路変圧器2の背面側を通って上方に抜ける。   And since the cooling air which flowed into the 2nd ventilation path 12 has the 4th partition plate 9 arrange | positioned between the rear surface of the base 2a of the main circuit transformer 2, and the rear surface board 1b, main circuit transformation Pass upward through the back side of the vessel 2.

さらに、主回路変圧器2の背面側を通過した冷却風は、主回路変圧器2の後側縁と筐体1の後面板1bとの間が第5の仕切板10によって閉塞されているため、主回路変圧器2の上部付近で、第1の通風路11に合流する。   Furthermore, the cooling air that has passed through the back side of the main circuit transformer 2 is blocked by the fifth partition plate 10 between the rear edge of the main circuit transformer 2 and the rear plate 1b of the housing 1. In the vicinity of the upper part of the main circuit transformer 2, it joins the first ventilation path 11.

これらの第2の通風路12を通過して上方へ抜けた冷却風は、排気用天井ファン5a及び5bによって外部に排出される。
〔本発明の実施例の効果〕
かくして本発明の実施例によれば、主回路変圧器の各巻線部Lu、Lv、Lwは、それらの内部の一次巻線L1及び二次巻線L2間の空間部を通る冷却風と、各巻線部Lu、Lv、Lwの前面側を通る冷却風と、各巻線部Lu、Lv、Lwの背面側を通る冷却風とによって、内部及び表面側の双方で冷却される。これにより、主回路変圧器2の発熱部である各巻線部Lu、Lv、Lwを効率良く強制冷却することができる。
The cooling air that has passed through the second ventilation path 12 and has flowed upward is exhausted to the outside by the exhaust ceiling fans 5a and 5b.
[Effect of the embodiment of the present invention]
Thus, according to the embodiment of the present invention, each winding portion Lu, Lv, Lw of the main circuit transformer includes cooling air passing through a space portion between the primary winding L1 and the secondary winding L2 therein, and each winding portion. Cooling is performed both internally and on the surface side by cooling air passing through the front side of the line portions Lu, Lv, and Lw and cooling air passing through the back side of each of the winding portions Lu, Lv, and Lw. Thereby, each coil part Lu, Lv, Lw which is a heat generating part of the main circuit transformer 2 can be forcibly cooled efficiently.

しかも、冷却風吸気口3a及び3bと排気用天井ファン5a及び5bとの間の冷却風通路が複数形成されているため、冷却風の通路面積を大きくすることができる。
さらに、上記の作用効果は、筐体1内に第1の仕切板6、第2の仕切板7及び第3の仕切板8a〜cを設けるだけでよく、全体の構成を簡易化することができ、筐体1が大型化することを抑制することができるとともに、製造コストが嵩むことも抑制することができる。
In addition, since a plurality of cooling air passages are formed between the cooling air inlets 3a and 3b and the exhaust ceiling fans 5a and 5b, the passage area of the cooling air can be increased.
Further, the above-described effects can be achieved simply by providing the first partition plate 6, the second partition plate 7, and the third partition plates 8 a to 8 c in the housing 1, thereby simplifying the overall configuration. In addition, it is possible to suppress an increase in size of the housing 1 and to suppress an increase in manufacturing cost.

これにより、主回路変圧器2は強制空冷を前提とした設定を行うことができ、小型化が可能となる。
また、冷却風を筐体1の正面側に設けた冷却風吸気口3a及び3bからのみ吸気するので、筐体1の背面側に吸気口を設ける必要がない。さらに、冷却風を筐体1の正面側に設けた冷却風吸気口3a及び3bからのみ吸気するので、筐体1の背面側に吸気用スペースを設ける必要がないことから、筐体1の背面側を壁等に接触させて配置することが可能となる。
Thereby, the main circuit transformer 2 can be set on the premise of forced air cooling, and can be downsized.
Further, since the cooling air is sucked only from the cooling air intake ports 3 a and 3 b provided on the front side of the housing 1, it is not necessary to provide the intake port on the back side of the housing 1. Further, since the cooling air is sucked only from the cooling air intake ports 3a and 3b provided on the front side of the casing 1, it is not necessary to provide an intake space on the rear side of the casing 1, so that the rear surface of the casing 1 It is possible to place the side in contact with a wall or the like.

以上により、主回路変圧器2を収納した筐体1の小型化及び設置スペースの縮小化が可能となる。
そのほか、第3の仕切板8aは、主回路変圧器2の前面に近接して配置されている。そのため、製作過程において、主回路変圧器2を配置した後に、第3の仕切板8aの長さを調整することができる。主回路変圧器2に対して第3の仕切板8aの長さが足りない場合には長さを延ばし、長さが超過している場合には、第3の仕切板8aの長さを短縮化することができる。このとき、第3の仕切板8aのみの長さを調整するだけでよいため、簡易に第3の仕切板8a〜cと主回路変圧器2との配置関係を調整することができる。
As described above, the housing 1 housing the main circuit transformer 2 can be reduced in size and the installation space can be reduced.
In addition, the third partition plate 8 a is disposed close to the front surface of the main circuit transformer 2. Therefore, in the manufacturing process, after the main circuit transformer 2 is arranged, the length of the third partition plate 8a can be adjusted. When the length of the third partition plate 8a is insufficient with respect to the main circuit transformer 2, the length is increased, and when the length is longer, the length of the third partition plate 8a is shortened. Can be At this time, since it is only necessary to adjust the length of only the third partition plate 8a, the arrangement relationship between the third partition plates 8a to 8c and the main circuit transformer 2 can be easily adjusted.

このため、どのようなサイズの主回路変圧器であっても、簡易に筐体1内の強制空冷構造を形成することができる。
なお、上記実施例では、第1の通風路11及び第2の通風路12を備えた場合について説明したが、これに限定されるものではない。第4の仕切板9及び第5の仕切板10を省略し、第1の通風路11のみを備えた構成とすることもできる。この場合であっても、筐体1内に導かれる冷却風は、第1の通風路11を通過することにより、主回路変圧器2の前面、並びに内部の一次巻線L1及び二次巻線L2間の空間部を冷却することができるため、全体としても冷却効率を向上させることができる。
For this reason, even if it is the main circuit transformer of what size, the forced air cooling structure in the housing | casing 1 can be formed easily.
In addition, although the said Example demonstrated the case where the 1st ventilation path 11 and the 2nd ventilation path 12 were provided, it is not limited to this. The fourth partition plate 9 and the fifth partition plate 10 may be omitted, and only the first ventilation path 11 may be provided. Even in this case, the cooling air guided into the housing 1 passes through the first ventilation path 11, so that the front surface of the main circuit transformer 2 and the primary winding L 1 and the secondary winding inside the main circuit transformer 2. Since the space between L2 can be cooled, the cooling efficiency can be improved as a whole.

また、上記実施例では、筐体1の正面側に2つの冷却吸気口3a及び3bを形成した場合について説明したが、これに限定されるものではない。横長の1つ又は3つ以上の冷却風吸気口を形成するようにしてもよい。   Moreover, although the said Example demonstrated the case where the two cooling inlets 3a and 3b were formed in the front side of the housing | casing 1, it is not limited to this. You may make it form 1 or 3 or more horizontally long cooling-air inlets.

さらに、上記実施例では、変圧器として主回路変圧器を適用した場合について説明したが、これに限定されるものではない。筐体1に任意の変圧器を収納する場合に本発明を適用することができる。   Furthermore, although the case where the main circuit transformer was applied as a transformer was demonstrated in the said Example, it is not limited to this. The present invention can be applied when an optional transformer is housed in the housing 1.

そのほか、上記実施例では、筐体の正面部を開閉扉2U及び正面カバー2Lにより上下2段で構成した場合について説明したが、これに限定されるものではない。正面カバー2Lの代わりに開閉扉を使用するようにしてもよい。   In addition, in the above-described embodiment, the case where the front portion of the casing is configured by the upper and lower doors 2U and the front cover 2L has been described in two stages, but is not limited thereto. An opening / closing door may be used instead of the front cover 2L.

1 筐体
1a 前面板
1b 後面板
1c 上面板
1d 底面板
1e 左側面板
1f 右側面板
2 主回路変圧器
2U 開閉扉
2L 正面カバー
3a及び3b 冷却風吸気口
4 網状部材
5a及び5b 排気用天井ファン
6 第1の仕切板
7 第2の仕切板
8a〜c 第3の仕切板
9 第4の仕切板
10 第5の仕切板
11 第1の通風路
12 第2の通風路
DESCRIPTION OF SYMBOLS 1 Housing | casing 1a Front plate 1b Rear surface plate 1c Upper surface plate 1d Bottom surface plate 1e Left side surface plate 1f Right side surface plate 2 Main circuit transformer 2U Opening / closing door 2L Front cover 3a and 3b Cooling air inlet 4 Net members 5a and 5b Exhaust ceiling fan 6 1st partition plate 7 2nd partition plates 8a-c 3rd partition plate 9 4th partition plate 10 5th partition plate 11 1st ventilation path 12 2nd ventilation path

Claims (4)

変圧器を収納した筐体と、
該筐体の上面における前記変圧器の上面に対向する位置に配置された排気用天井ファンと、
前記筐体の正面における前記変圧器の基部に対向する位置に形成された冷却風吸気口と、
前記筐体の正面から前記変圧器の前面までの間に配置され、前記筐体内で前記変圧器の周囲を前後に仕切る仕切板を具備し、
該仕切板は、前記変圧器の上面と筐体の上面との間に垂直方向に延長して配設された第1の仕切板と、
前記第1の仕切板の下端から前記変圧器の背面側に延長して配設された第2の仕切板と、
前記第2の仕切板の両側部から前記変圧器の側面を通って前記筐体の下面側に延長して配設された第3の仕切板とを備えることを特徴とする変圧器の冷却装置。
A housing containing a transformer;
An exhaust ceiling fan disposed at a position facing the upper surface of the transformer on the upper surface of the housing;
A cooling air inlet formed at a position facing the base of the transformer at the front of the housing;
It is arranged between the front of the housing and the front of the transformer, and comprises a partition plate that partitions the periphery of the transformer back and forth in the housing,
The partition plate is a first partition plate that extends vertically between the upper surface of the transformer and the upper surface of the housing; and
A second partition plate disposed extending from the lower end of the first partition plate to the back side of the transformer;
A transformer cooling device comprising: a third partition plate arranged to extend from both sides of the second partition plate through the side surface of the transformer to the lower surface side of the housing. .
請求項1に記載の変圧器の冷却装置において、
前記変圧器の基部と前記筐体の後面との間に配設された第4の仕切板と、
前記変圧器の上部と前記筐体の後面との間に配設された第5の仕切板とを備えることを特徴とする変圧器の冷却装置。
The transformer cooling device according to claim 1,
A fourth partition plate disposed between the base of the transformer and the rear surface of the housing;
A transformer cooling device, comprising: a fifth partition plate disposed between an upper portion of the transformer and a rear surface of the housing.
請求項1又は2に記載の変圧器の冷却装置において、
前記排気用天井ファンが、ファン中心軸線が前記変圧器の巻線部の前後方向の中心位置と略一致するように配置されていることを特徴とする変圧器の冷却装置。
In the cooling device of the transformer according to claim 1 or 2,
The transformer cooling device, wherein the exhaust ceiling fan is arranged such that a fan center axis substantially coincides with a center position in a front-rear direction of a winding portion of the transformer.
請求項1乃至3のいずれか1項に記載の変圧器の冷却装置において、
前記排気用天井ファンが、幅方向に複数台並列に設置されていることを特徴とする変圧器の冷却装置。
The transformer cooling device according to any one of claims 1 to 3,
A cooling device for a transformer, wherein a plurality of the exhaust ceiling fans are installed in parallel in the width direction.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016220416A (en) * 2015-05-21 2016-12-22 富士電機株式会社 Semiconductor electric power conversion device

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2459322A (en) * 1945-03-16 1949-01-18 Allis Chalmers Mfg Co Stationary induction apparatus
JP2006166643A (en) * 2004-12-09 2006-06-22 Meidensha Corp Cooling apparatus of transformer board
JP2008148421A (en) * 2006-12-08 2008-06-26 Meidensha Corp Uninterruptible power supply unit or inverter apparatus
JP2008277482A (en) * 2007-04-27 2008-11-13 Meidensha Corp Air-cooled transformer panel
JP2012050269A (en) * 2010-08-27 2012-03-08 Fuji Electric Co Ltd Cooling device for transformer

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2459322A (en) * 1945-03-16 1949-01-18 Allis Chalmers Mfg Co Stationary induction apparatus
JP2006166643A (en) * 2004-12-09 2006-06-22 Meidensha Corp Cooling apparatus of transformer board
JP2008148421A (en) * 2006-12-08 2008-06-26 Meidensha Corp Uninterruptible power supply unit or inverter apparatus
JP2008277482A (en) * 2007-04-27 2008-11-13 Meidensha Corp Air-cooled transformer panel
JP2012050269A (en) * 2010-08-27 2012-03-08 Fuji Electric Co Ltd Cooling device for transformer

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016220416A (en) * 2015-05-21 2016-12-22 富士電機株式会社 Semiconductor electric power conversion device

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