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JP3533824B2 - Earthquake-resistant box for power supply unit - Google Patents

Earthquake-resistant box for power supply unit

Info

Publication number
JP3533824B2
JP3533824B2 JP12973296A JP12973296A JP3533824B2 JP 3533824 B2 JP3533824 B2 JP 3533824B2 JP 12973296 A JP12973296 A JP 12973296A JP 12973296 A JP12973296 A JP 12973296A JP 3533824 B2 JP3533824 B2 JP 3533824B2
Authority
JP
Japan
Prior art keywords
shaped
box
power supply
reinforcing
supply device
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 - Lifetime
Application number
JP12973296A
Other languages
Japanese (ja)
Other versions
JPH09321452A (en
Inventor
英昭 宮田
紀昭 高橋
実 大塚
Original Assignee
新神戸電機株式会社
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by 新神戸電機株式会社 filed Critical 新神戸電機株式会社
Priority to JP12973296A priority Critical patent/JP3533824B2/en
Publication of JPH09321452A publication Critical patent/JPH09321452A/en
Application granted granted Critical
Publication of JP3533824B2 publication Critical patent/JP3533824B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、例えば充電用等の
電源装置を収納する電源装置用耐震型箱体に関するもの
である。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seismic-resistant box for a power supply device that houses a power supply device for charging or the like.

【0002】[0002]

【従来の技術】原子力発電所等で使用される電源装置用
箱体には、所定の耐震性が要求されている。
2. Description of the Related Art A power supply box used in a nuclear power plant or the like is required to have a predetermined earthquake resistance.

【0003】このような耐震性を満足できる従来の電源
装置用耐震型箱体1は、図8に示す構造であった。
A conventional seismic resistant box 1 for a power supply device which can satisfy such seismic resistance has a structure shown in FIG.

【0004】この電源装置用耐震型箱体1は、箱形フレ
ーム2と、該箱形フレーム2に取り付けられる天井板
3,底板4,左右の側板5とで構成されている。
The seismic-resistant box body 1 for a power supply device comprises a box-shaped frame 2 and a ceiling plate 3, a bottom plate 4, and left and right side plates 5 attached to the box-shaped frame 2.

【0005】箱形フレーム2は、四角形の枠内を格子形
補強体6で補強した左右の側枠体7が左右に所定間隔で
対向配置され、これら左右の側枠体7の上部と下部が複
数の連結アーム8,9で連結され、左右の側枠体7の間
には前後に仕切る補強板10が取り付けられて構成され
ている。この場合、格子形補強体6,側枠体7,連結ア
ーム8,9は、L形や溝形の型鋼、または板金をL形や
溝形に折り曲げたもので形成されている。これら箱形フ
レーム2は、構成部材を溶接することにより構成されて
いる。
In the box-shaped frame 2, right and left side frame bodies 7 in which a rectangular frame is reinforced with a lattice-shaped reinforcement body 6 are arranged opposite to each other at predetermined intervals, and upper and lower portions of the left and right side frame bodies 7 are arranged. A plurality of connecting arms 8 and 9 are connected to each other, and a reinforcing plate 10 for partitioning the front and rear is attached between the left and right side frame bodies 7. In this case, the lattice-shaped reinforcing member 6, the side frame members 7, and the connecting arms 8 and 9 are formed of L-shaped or groove-shaped steel or a sheet metal bent into an L-shaped or grooved shape. These box-shaped frames 2 are constructed by welding constituent members.

【0006】このような箱形フレーム2には、その上面
に天井板3が固定され、底面に底板4が固定され、左右
の側面に側板5がそれぞれ固定されている。これら天井
板3,底板4,側板5の箱形フレーム2に対する固定
は、溶接により行われている。
In such a box-shaped frame 2, a ceiling plate 3 is fixed to its upper surface, a bottom plate 4 is fixed to its bottom surface, and side plates 5 are fixed to its left and right side surfaces, respectively. The ceiling plate 3, the bottom plate 4, and the side plate 5 are fixed to the box-shaped frame 2 by welding.

【0007】このような構造の電源装置用耐震型箱体1
は、最後にその内面や外面に塗装が施される。
A seismic resistant box 1 for a power supply device having such a structure
Finally, the inner and outer surfaces are painted.

【0008】[0008]

【発明が解決しようとする課題】しかしながら、上述し
た如き構造をした従来の電源装置用耐震型箱体1の箱形
フレーム2では、耐震性をもたせるために格子形補強体
6で補強しているので、溶接箇所数が非常に多くなり、
組立工数が増え、コストアップする問題点があり、また
該箱形フレーム2の重量も増え、箱体1の運搬も困難で
あった。
However, the box-shaped frame 2 of the conventional seismic-resistant box body 1 for a power supply device having the above-described structure is reinforced by the lattice-shaped reinforcing body 6 in order to have seismic resistance. Therefore, the number of welding spots is very large,
There is a problem that the number of assembling steps is increased and the cost is increased, the weight of the box-shaped frame 2 is increased, and it is difficult to transport the box 1.

【0009】また、該箱体1が大型で、重量が大きい場
合には、該箱体1が動かし難く、塗装作業もやり難い問
題点があった。
When the box body 1 is large and heavy, it is difficult to move the box body 1 and it is difficult to carry out the painting work.

【0010】本発明の目的は、耐震構造でありながら、
軽量化と、溶接箇所数を減らすことができる電源装置用
耐震型箱体を提供することにある。
The object of the present invention is to provide a seismic resistant structure,
An object of the present invention is to provide a seismic resistant box for a power supply device which can reduce the weight and the number of welding points.

【0011】本発明の目的は、耐震構造でありながら、
軽量化と、溶接箇所数を減らすことができ、しかも大型
化しても、取り扱い易い構造の電源装置用耐震型箱体を
提供することにある。
The object of the present invention is to provide a seismic structure,
An object of the present invention is to provide a seismic-resistant box body for a power supply device which is light in weight, can reduce the number of welding points, and is easy to handle even if it is made large.

【0012】[0012]

【課題を解決するための手段】請求項1に記載の電源装
置用耐震型箱体は、それぞれ四角形をした上枠体と下枠
体とが所定間隔で対向配置され、これら上枠体と下枠体
の左右の側部は縦向きの複数の柱で相互に連結され、こ
れら上枠体と下枠体の背部はX形筋交いで相互に連結さ
れて箱形フレームが構成され、箱形フレームの上枠体に
は天井板が固定され、下枠体には底板が固定され、箱形
フレームの左右の側面には、幅方向の両側部をそれぞれ
裏側にコ字状に曲げてコ字状補強部を設けた側板本体
と、これらコ字状補強部の間で該側板本体の裏面に固定
されたZ状筋交いとからなる補強側板がそれぞれ固定さ
れていることを特徴とする。
According to a first aspect of the present invention, there is provided a seismic-resistant box body for a power supply device in which an upper frame body and a lower frame body each having a quadrangular shape are opposed to each other at a predetermined interval. The left and right side portions of the frame body are connected to each other by a plurality of vertically oriented columns, and the back portions of the upper frame body and the lower frame body are connected to each other by X-shaped braces to form a box-shaped frame. The ceiling plate is fixed to the upper frame body, the bottom plate is fixed to the lower frame body, and the left and right side surfaces of the box-shaped frame are U-shaped by bending both sides in the width direction to the back side. It is characterized in that the side plate main body provided with the reinforcing portion and the reinforcing side plate consisting of the Z-shaped braces fixed to the back surface of the side plate main body between these U-shaped reinforcing portions are fixed.

【0013】なお、本発明でZ状筋交いとは、文字通り
のZ状のものばかりでなく、反転させた形状(S状)の
もの(反対側から見ればZ状である。)も含むものであ
る。
In the present invention, the Z-shaped braces include not only literal Z-shaped braces but also inverted shapes (S-shaped) (Z-shaped when viewed from the opposite side).

【0014】このような構造の電源装置用耐震型箱体の
箱形フレームは、補強体として背部にX形筋交いが設け
られているだけであり、軽量化が図れ、また溶接箇所数
を減らすことができる。
The box-shaped frame of the seismic-resistant box body for the power supply device having such a structure is provided with only X-shaped braces on the back as a reinforcing member, which can reduce the weight and reduce the number of welding points. You can

【0015】また、箱形フレームの左右の側面には、幅
方向の両側部をそれぞれ裏側にコ字状に曲げてコ字状補
強部を設けた側板本体と、これらコ字状補強部の間で該
側板本体の裏面に固定されたZ状筋交いとからなる補強
側板をそれぞれ固定しているので、箱形フレームの左右
の補強を該補強側板で図ることができる。
Further, on the left and right side surfaces of the box-shaped frame, the side plate main body provided with U-shaped reinforcing portions by bending both side portions in the width direction to the back side in a U-shape, and between these U-shaped reinforcing portions. Since the reinforcing side plates made of Z-shaped braces fixed to the back surface of the side plate body are fixed, the left and right sides of the box-shaped frame can be reinforced by the reinforcing side plates.

【0016】特に、該補強側板の補強構造は、側板本体
のコ字状補強部とZ状筋交いとの組み合わせ構造なの
で、簡単な構造でありながら十分な強度が得られ、溶接
箇所数も少なく、重量増加も最小限に止めることができ
る。
Particularly, since the reinforcing structure of the reinforcing side plate is a combination structure of the U-shaped reinforcing portion of the side plate body and the Z-shaped braces, sufficient strength can be obtained even with a simple structure, and the number of welding points is small. Weight gain can also be minimized.

【0017】しかもこのような構造の電源装置用耐震型
箱体では、X形筋交いとZ状筋交いとを用いて補強して
いるので、従来のような箱形フレーム内を仕切る補強板
が不要であり、このため該箱形フレーム内への電源装置
の組み込みを容易に行うことができる。
In addition, since the seismic resistant box for a power supply device having such a structure is reinforced by using X-shaped braces and Z-shaped braces, a conventional reinforcing plate for partitioning the inside of the box-shaped frame is not required. Therefore, the power supply device can be easily incorporated in the box-shaped frame.

【0018】請求項2に記載の電源装置用耐震型箱体
は、X形筋交いの中間に横向き筋交いが固定されている
ことを特徴とする。
According to a second aspect of the present invention, there is provided a seismic resistant box for a power supply device characterized in that a lateral braces are fixed in the middle of the X-shaped braces.

【0019】このようにX形筋交いの中間に横向き筋交
いを固定していると、箱形フレームの側部のへこみ,ふ
くらみ等の変形を防止でき、従って該箱形フレームの横
方向の耐震強度を向上させることができる。
By fixing the horizontal braces in the middle of the X-shaped braces in this manner, it is possible to prevent deformation such as dents and bulges on the side portions of the box-shaped frame, and therefore the lateral seismic strength of the box-shaped frame. Can be improved.

【0020】請求項3に記載の電源装置用耐震型箱体
は、複数の単位箱体を隣り合わせに連結して構成され、
各単位箱体は、それぞれ四角形をした上枠体と下枠体と
が所定間隔で対向配置され、これら上枠体と下枠体の側
部は縦向きの複数の柱で相互に連結され、これら上枠体
と下枠体の背部はX形筋交いで相互に連結されて箱形フ
レームが構成され、箱形フレームの上枠体には天井板が
固定され、下枠体には底板が固定され、箱形フレームの
左右の側面には、幅方向の両側部をそれぞれ裏側にコ字
状に曲げてコ字状補強部を設けた側板本体と、これらコ
字状補強部の間で該側板本体の裏面に固定されたZ状筋
交いとからなる補強側板がそれぞれ固定された耐震構造
になっていることを特徴とする。
The seismic resistant box for a power supply according to claim 3 is formed by connecting a plurality of unit boxes adjacent to each other,
Each unit box body, the upper frame body and the lower frame body each having a quadrangle are arranged to face each other at a predetermined interval, and the side portions of the upper frame body and the lower frame body are mutually connected by a plurality of vertically oriented columns, The backs of the upper and lower frames are connected to each other with X-shaped braces to form a box-shaped frame. The ceiling plate is fixed to the upper frame of the box-shaped frame and the bottom plate is fixed to the lower frame. The left and right side surfaces of the box-shaped frame are provided with U-shaped reinforcing portions by bending both side portions in the width direction on the back side in a U shape, and the side plate between these U-shaped reinforcing portions. It is characterized in that it has a seismic structure in which reinforcing side plates made of Z-shaped braces fixed to the back surface of the main body are fixed.

【0021】このように電源装置用耐震型箱体を、複数
の単位箱体を隣り合わせに連結して構成すると、個々の
単位箱体は軽量であり、このため塗装時に該単位箱体を
動かしながら容易に塗装することができ、また運搬や設
置作業も容易に行うことができる。かつまた、複数の単
位箱体を組み合わせ連結して電源装置用耐震型箱体を構
成すると、これら単位箱体を組み合わせる数の増減によ
り、任意の容積のものを容易に形成することができる。
If the seismic resistant box for the power supply is constructed by connecting a plurality of unit boxes side by side in this way, each unit box is lightweight, and therefore the unit boxes can be moved during painting. It can be easily painted and can be easily transported and installed. Moreover, if a plurality of unit boxes are combined and connected to form a seismic-resistant box for a power supply device, an arbitrary volume can be easily formed by increasing or decreasing the number of unit boxes to be combined.

【0022】この場合、単位箱体の箱形フレームは、補
強体として背部にX形筋交いが設けられているだけであ
り、このため軽量化が図れ、また溶接箇所数を減らすこ
とができる。
In this case, the box-shaped frame of the unit box is only provided with the X-shaped braces on the back as a reinforcing member, and therefore the weight can be reduced and the number of welding points can be reduced.

【0023】また、箱形フレームの左右の側面には、幅
方向の両側部をそれぞれ裏側にコ字状に曲げてコ字状補
強部を設けた側板本体と、これらコ字状補強部の間で該
側板本体の裏面に固定されたZ状筋交いとからなる補強
側板をそれぞれ固定しているので、箱形フレームの左右
の補強を該補強側板で図ることができる。
Further, on the left and right side surfaces of the box-shaped frame, the side plate main body provided with U-shaped reinforcing portions by bending both side portions in the width direction to the back side in a U shape, and between these U-shaped reinforcing portions. Since the reinforcing side plates made of Z-shaped braces fixed to the back surface of the side plate body are fixed, the left and right sides of the box-shaped frame can be reinforced by the reinforcing side plates.

【0024】特に、該補強側板の補強構造は、側板本体
のコ字状補強部とZ状筋交いとの組み合わせ構造なの
で、簡単な構造でありながら十分な強度が得られ、溶接
箇所数も少なく、重量増加も最小限に止めることができ
る。
Particularly, since the reinforcing structure of the reinforcing side plate is a combined structure of the U-shaped reinforcing portion of the side plate body and the Z-shaped braces, sufficient strength can be obtained even with a simple structure, and the number of welding points is small. Weight gain can also be minimized.

【0025】しかもこのような構造の単位箱体では、X
形筋交いとZ状筋交いとを用いて補強しているので、従
来のような箱形フレーム内を仕切る補強板が不要であ
り、このため該箱形フレーム内への電源装置の組み込み
を容易に行うことができる。
Moreover, in the unit box having such a structure, X
Since it is reinforced by using the shape braces and the Z-shaped braces, there is no need for a reinforcing plate for partitioning the inside of the box-shaped frame as in the conventional case. Therefore, the power supply device can be easily incorporated into the box-shaped frame. be able to.

【0026】請求項4に記載の電源装置用耐震型箱体に
おける前後に隣り合う単位箱体は、それぞれのX形筋交
いを向かい合わせ、これらX形筋交いが相互に連結され
ていることを特徴とする。
The unit boxes that are adjacent to each other in the front and rear of the seismic resistant box for a power supply according to claim 4 have their X-shaped braces faced to each other, and these X-shaped braces are connected to each other. To do.

【0027】このように前後に隣り合う単位箱体を、そ
れぞれのX形筋交いを向かい合わせにして配置すると、
前後が開口する構造となり、電源装置の組み込み等も支
障なく行うことができる。また、向かい合わさったX形
筋交いの隙間を利用して、前後の配線を支障なく行うこ
とができる。
When the unit boxes which are adjacent to each other in the front and rear are arranged with their X-shaped braces facing each other,
The structure is open at the front and back, and the power supply device can be installed without any trouble. In addition, the front and rear wiring can be performed without any trouble by utilizing the gap between the X-shaped braces that face each other.

【0028】請求項5に記載の電源装置用耐震型箱体に
おける左右に隣り合う前記単位箱体は、隣り合う補強側
板にZ状筋交いを避けて窓が相対応してそれぞれ設けら
れていることを特徴とする。
In each of the unit boxes that are adjacent to each other in the right and left sides of the seismic-resistant box for a power supply unit according to claim 5, windows are provided corresponding to adjacent reinforcing side plates while avoiding Z-shaped braces. Is characterized by.

【0029】このように左右に隣り合う前記単位箱体
は、隣り合う補強側板にZ状筋交いを避けて窓を相対応
してそれぞれ設けると、左右に隣り合う単位箱体間の配
線を支障なく行うことができる。
In this way, in the unit boxes that are adjacent to each other on the left and right sides, if windows are provided correspondingly on adjacent reinforcing side plates while avoiding Z-shaped braces, the wiring between the unit boxes that are adjacent to each other on the left and right is not hindered. It can be carried out.

【0030】[0030]

【発明の実施の形態】図1乃至図3は、本発明に係る電
源装置用耐震型箱体1における実施の形態の第1例を示
したものである。
1 to 3 show a first example of an embodiment of a seismic resistant box 1 for a power supply device according to the present invention.

【0031】本例の電源装置用耐震型箱体1において
は、それぞれ四角形をした上枠体11と下枠体12とが
所定間隔で対向配置され、これら上枠体11と下枠体1
2の左右の側部はそれぞれ縦向きの2本の柱13で相互
に連結されて、これら上枠体11と下枠体12の背部は
X形筋交い14で相互に連結されて箱形フレーム2が構
成されている。X形筋交い14は、4本のアーム15を
X形に配置して中央を取付け板16で連結することによ
り構成されている。4本のアーム15と取付け板16と
の連結は、ボルト締め,溶接,リベット締め等で行うこ
とができる。X形筋交い14の中間の取付け板16に
は、横向き筋交い17がボルト締め,溶接,リベット締
め等で固定されている。X形筋交い14の各アーム15
の先端は、上枠体11と下枠体12の取付け板18にボ
ルト締め,溶接,リベット締め等で固定されている。こ
の場合、上枠体11,下枠体12,柱13,X形筋交い
14のアーム15,横向き筋交い17は、L形や溝形の
型鋼、または板金をL形や溝形に折り曲げたもので形成
されている。
In the seismic-resistant box body 1 for a power supply device of this example, an upper frame body 11 and a lower frame body 12 each having a quadrangular shape are opposed to each other at a predetermined interval, and the upper frame body 11 and the lower frame body 1 are arranged.
The left and right side portions of 2 are connected to each other by two vertically oriented columns 13, and the back portions of these upper frame body 11 and lower frame body 12 are connected to each other by X-shaped braces 14 to form a box-shaped frame 2 Is configured. The X-shaped brace 14 is configured by arranging four arms 15 in an X-shape and connecting the centers with a mounting plate 16. The four arms 15 and the mounting plate 16 can be connected by bolting, welding, riveting, or the like. A lateral brace 17 is fixed to a mounting plate 16 in the middle of the X-shaped brace 14 by bolting, welding, riveting or the like. Each arm 15 of the X-shaped brace 14
The front end of is fixed to the mounting plate 18 of the upper frame 11 and the lower frame 12 by bolting, welding, riveting, or the like. In this case, the upper frame body 11, the lower frame body 12, the column 13, the arm 15 of the X-shaped braces 14, and the lateral braces 17 are L-shaped or groove-shaped steel bars, or sheet metal bent into L-shaped or grooved shapes. Has been formed.

【0032】このような箱形フレーム2の上枠体11に
は天井板3が固定され、下枠体12には底板4が固定さ
れている。
A ceiling plate 3 is fixed to the upper frame 11 of the box-shaped frame 2 and a bottom plate 4 is fixed to the lower frame 12.

【0033】箱形フレーム2の左右の側面には、幅方向
の両側部をそれぞれ裏側にコ字状に曲げてコ字状補強部
19aを設けた側板本体19と、これらコ字状補強部1
9aの間で該側板本体19の裏面に固定されたZ状筋交
い20とからなる補強側板21がそれぞれ固定されてい
る。Z状筋交い20は、上下の横アーム22と、これら
横アーム22間を斜めに連結している斜めアーム23と
で構成されている。横アーム22と斜めアーム23との
相互の連結は、図3に示すように突き合わせて溶接する
ことにより行われている。また、横アーム22と斜めア
ーム23とは、それぞれコ字状のアーム本体22a,2
3aの開口側に直交する向きでフランジ部22b,23
bが設けられた構造となっていて、各フランジ部22
b,23bを側板本体19の裏面に当てて溶接で該側板
本体19に固定されている。側板本体19のコ字状補強
部19aは、側板本体19の上下から寸法Lだけ中央に
寄った中央側に設けられている。Z状筋交い20の上下
の横アーム22は、コ字状補強部19aの上下の端部に
図2に示すように対応させて設けられている。
On the left and right side surfaces of the box-shaped frame 2, side plate bodies 19 provided with U-shaped reinforcing portions 19a by bending both side portions in the width direction to the back side, and the U-shaped reinforcing portions 1 are provided.
Reinforcing side plates 21 composed of Z-shaped braces 20 fixed to the back surface of the side plate body 19 are fixed between the portions 9a. The Z-shaped brace 20 is composed of upper and lower lateral arms 22 and an oblique arm 23 that obliquely connects the lateral arms 22. The horizontal arm 22 and the diagonal arm 23 are connected to each other by butting and welding as shown in FIG. Further, the horizontal arm 22 and the diagonal arm 23 are respectively provided with U-shaped arm bodies 22a, 2
Flange portions 22b, 23 in a direction orthogonal to the opening side of 3a.
b is provided, and each flange portion 22
b and 23b are applied to the back surface of the side plate body 19 and fixed to the side plate body 19 by welding. The U-shaped reinforcing portion 19a of the side plate body 19 is provided on the center side of the side plate body 19 which is closer to the center by the dimension L from the upper and lower sides. The upper and lower lateral arms 22 of the Z-shaped braces 20 are provided so as to correspond to the upper and lower ends of the U-shaped reinforcing portion 19a as shown in FIG.

【0034】箱形フレーム2の左右の側面に対するこれ
ら補強側板21の固定は、側板本体19の上下の平坦部
19bを上枠体11と下枠体12の側面に当てて、補強
側板21と箱形フレーム2との相互の接触部分をそれぞ
れ溶接することにより行われている。
The reinforcing side plates 21 are fixed to the left and right side surfaces of the box-shaped frame 2 by applying the upper and lower flat portions 19b of the side plate body 19 to the side surfaces of the upper frame body 11 and the lower frame body 12 and the reinforcing side plate 21 and the box. This is done by welding the mutual contact portions with the shaped frame 2.

【0035】このような電源装置用耐震型箱体1の正面
の開口部には、図示しないが扉が開閉自在に取付けられ
ている。かかる電源装置用耐震型箱体1の内部には、電
源装置が組み込まれる。この際、各柱13は電気部品取
付け部材としても用いられる。
A door (not shown) is openably and closably attached to the front opening of the seismic resistant box 1 for a power supply device. A power supply device is incorporated inside the seismic resistant box 1 for a power supply device. At this time, each pillar 13 is also used as an electric component mounting member.

【0036】このような構造の電源装置用耐震型箱体1
の箱形フレーム2は、補強体として背部にX形筋交い1
4が設けられているだけであり、軽量化が図れ、また溶
接箇所数を減らすことができる。
Earthquake-resistant box body 1 for power supply device having such a structure
The box-shaped frame 2 is an X-shaped bracing 1 on the back as a reinforcement.
Since only 4 is provided, the weight can be reduced and the number of welding points can be reduced.

【0037】また、箱形フレーム2の左右の側面には、
幅方向の両側部をそれぞれ裏側にコ字状に曲げてコ字状
補強部19aを設けた側板本体19と、これらコ字状補
強部19aの間で該側板本体19の裏面に固定されたZ
状筋交い20とからなる補強側板21をそれぞれ固定し
ているので、箱形フレーム2の左右の補強を該補強側板
21で図ることができる。
On the left and right side surfaces of the box-shaped frame 2,
Both side portions in the width direction are each bent to the back side in a U shape to provide a side plate main body 19 provided with a U-shaped reinforcement portion 19a, and a Z fixed to the back surface of the side plate body 19 between the U-shaped reinforcement portions 19a.
Since the reinforcing side plates 21 including the braces 20 are fixed, the left and right reinforcement of the box-shaped frame 2 can be achieved by the reinforcing side plates 21.

【0038】特に、該補強側板21の補強構造は、側板
本体19のコ字状補強部19aとZ状筋交い20との組
み合わせ構造なので、簡単な構造でありながら十分な強
度が得られ、溶接箇所数も少なく、重量増加も最小限に
止めることができる。
In particular, since the reinforcing structure of the reinforcing side plate 21 is a combination structure of the U-shaped reinforcing portion 19a of the side plate body 19 and the Z-shaped braces 20, sufficient strength can be obtained even though it is a simple structure, The number is small and the increase in weight can be minimized.

【0039】しかもこのような構造の電源装置用耐震型
箱体1では、X形筋交い14とZ状筋交い20とを用い
て補強しているので、従来のような箱形フレーム2内を
仕切る補強板10が不要であり、このため該箱形フレー
ム2内への電源装置の組み込みを容易に行うことができ
る。
In addition, since the seismic resistant box 1 for a power supply device having such a structure is reinforced by using the X-shaped braces 14 and the Z-shaped braces 20, the conventional box-shaped frame 2 is reinforced by partitioning. Since the plate 10 is unnecessary, the power supply device can be easily incorporated in the box-shaped frame 2.

【0040】また、X形筋交い14の中間には、横向き
筋交い17を固定しているので、箱形フレーム2の横方
向の耐震強度を向上させることができる。
Since the lateral braces 17 are fixed in the middle of the X-shaped braces 14, the seismic strength of the box-shaped frame 2 in the lateral direction can be improved.

【0041】図4は、横アーム22と斜めアーム23と
の側板本体19に対する溶接の好ましい例を示したもの
である。本例では、図示のように各フランジ部22b,
23bに所定間隔で円形の孔24をあけ、これら孔24
の内周に沿ってフランジ部22b,23bを側板本体1
9に溶接している。
FIG. 4 shows a preferable example of welding of the lateral arm 22 and the diagonal arm 23 to the side plate body 19. In this example, as shown in the drawing, each flange portion 22b,
23b are provided with circular holes 24 at predetermined intervals, and these holes 24
Flanges 22b and 23b along the inner circumference of the side plate body 1
Welded to 9.

【0042】このようにして溶接すると、側板本体19
の表面で溶接箇所が窪むのを抑制することができる。こ
のため従来は、溶接歪みにより側板本体19の表面にで
きる窪みが大きく、この窪みをパテで埋めて平らにして
塗装をする際のパテの埋め込みに多量のパテが必要であ
ったが、本例の場合には円形の溶接のため溶接歪みを小
さくするような力が働き、窪みが小さくなり、少量のパ
テで表面を平らにすることができる。
By welding in this manner, the side plate body 19
It is possible to suppress the depression of the welded portion on the surface of the. For this reason, conventionally, a large recess is formed on the surface of the side plate body 19 due to welding distortion, and a large amount of putty was required to embed the putty when filling the recess with the putty and coating it flatly. In the case of (1), the circular welding causes a force to reduce the welding distortion, the dent becomes small, and the surface can be flattened with a small amount of putty.

【0043】図5及び図6は、本発明に係る電源装置用
耐震型箱体1における実施の形態の第2例を示したもの
である。
5 and 6 show a second example of the embodiment of the seismic resistant box 1 for a power supply device according to the present invention.

【0044】本例の電源装置用耐震型箱体1は、図5に
示すように複数の単位箱体1´を隣り合わせに連結して
所要の容積をもつように構成されている。
As shown in FIG. 5, the seismic resistant box 1 for a power supply device of this example is constructed so that a plurality of unit boxes 1'are connected side by side to have a required volume.

【0045】各単位箱体1´は、図1に示す電源装置用
耐震型箱体1を所要の大きさに形成して用いるものであ
って、それぞれ四角形をした上枠体11と下枠体12と
が所定間隔で対向配置され、これら上枠体12と下枠体
13の側部は縦向きの複数の柱13で相互に連結され、
これら上枠体12と下枠体13の背部はX形筋交い14
で相互に連結されて箱形フレーム2が構成され、箱形フ
レーム2の上枠体11には天井板3が固定され、下枠体
12には底板4が固定され、箱形フレーム2の左右の側
面には、幅方向の両側部をそれぞれ裏側にコ字状に曲げ
てコ字状補強部19aを設けた側板本体19と、これら
コ字状補強部19aの間で該側板本体19の裏面に固定
されたZ状筋交い20とからなる補強側板21がそれぞ
れ固定された耐震構造になっている。左右に隣り合わせ
になる側の補強側板21には、Z状筋交い20を避けて
窓25が相対応してそれぞれ設けられている。また、前
後に隣り合う単位箱体1´は、それぞれのX形筋交い1
4を向かい合わせ、これらX形筋交い14が相互にボル
トで連結されている。この場合、X形筋交い14の相互
連結は、相互の取付け板16を向かい合わせて、アーム
15を取付け板16に固定するボルトを共締めすること
により行われている。なお、X形筋交い14の相互連結
は、相互の取付け板16をアーム15の取付け箇所とは
別の位置でボルト締めすることにより行うこともでき
る。
Each unit box 1'is used by forming the seismic resistant box 1 for a power supply device shown in FIG. 1 in a required size, and has a rectangular upper frame 11 and a lower frame, respectively. 12 are arranged to face each other at a predetermined interval, and the side portions of the upper frame body 12 and the lower frame body 13 are connected to each other by a plurality of vertically oriented columns 13.
The backs of the upper frame 12 and the lower frame 13 are X-shaped braces 14
The box-shaped frame 2 is configured by being connected to each other with the ceiling frame 3 fixed to the upper frame body 11 of the box-shaped frame 2 and the bottom plate 4 fixed to the lower frame body 12. On the side surface of the side plate main body 19 provided with U-shaped reinforcing portions 19a by bending both side portions in the width direction to the back side, and the back surface of the side plate main body 19 between the U-shaped reinforcing portions 19a. It has a seismic resistant structure in which the reinforcing side plates 21 composed of the Z-shaped braces 20 fixed to the respective are fixed. Windows 25 are provided correspondingly on the reinforcing side plates 21 on the left and right sides so as to avoid the Z-shaped braces 20. In addition, the unit boxes 1'adjacent to the front and the rear are the respective X-shaped braces 1
4, the X-shaped braces 14 are bolted to each other. In this case, the X-shaped braces 14 are interconnected by mounting the mounting plates 16 to each other and tightening the bolts for fixing the arms 15 to the mounting plates 16. The X-shaped braces 14 can be connected to each other by bolting the mutual mounting plates 16 at positions different from the mounting positions of the arms 15.

【0046】前後左右の単位箱体1´の連結は、ボルト
の締結により行われている。
The front, rear, left and right unit box bodies 1'are connected by fastening bolts.

【0047】このように電源装置用耐震型箱体1を、複
数の単位箱体1´を隣り合わせに連結して構成すると、
個々の単位箱体1´は軽量であり、このため塗装時に該
単位箱体1´を動かしながら容易に塗装することがで
き、また運搬や設置作業も容易に行うことができる。か
つまた、複数の単位箱体1´を組み合わせ連結して電源
装置用耐震型箱体1を構成すると、これら単位箱体1´
を組み合わせる数の増減により、任意の容積のものを容
易に形成することができる。
As described above, when the seismic resistant box 1 for a power supply device is constructed by connecting a plurality of unit boxes 1'adjacent to each other,
Since each unit box 1'is lightweight, it can be easily painted while moving the unit box 1 ', and can be easily transported and installed. Moreover, when a plurality of unit boxes 1 ′ are combined and connected to form a seismic resistant box 1 for a power supply device, these unit boxes 1 ′
By increasing or decreasing the number of combinations, it is possible to easily form an arbitrary volume.

【0048】この場合、単位箱体1´の箱形フレーム2
は、補強体として背部にX形筋交い14が設けられてい
るだけであり、このため軽量化が図れ、また溶接箇所数
を減らすことができる。
In this case, the box-shaped frame 2 of the unit box 1 '
Is only provided with the X-shaped braces 14 on the back as a reinforcing member, and therefore, the weight can be reduced and the number of welding points can be reduced.

【0049】また、箱形フレーム2の左右の側面には、
幅方向の両側部をそれぞれ裏側にコ字状に曲げてコ字状
補強部19aを設けた側板本体19と、これらコ字状補
強部19aの間で該側板本体19の裏面に固定されたZ
状筋交い20とからなる補強側板21をそれぞれ固定し
ているので、箱形フレーム2の左右の補強を該補強側板
21で図ることができる。
On the left and right side surfaces of the box-shaped frame 2,
Both side portions in the width direction are each bent to the back side in a U shape to provide a side plate main body 19 provided with a U-shaped reinforcement portion 19a, and a Z fixed to the back surface of the side plate body 19 between the U-shaped reinforcement portions 19a.
Since the reinforcing side plates 21 including the braces 20 are fixed, the left and right reinforcement of the box-shaped frame 2 can be achieved by the reinforcing side plates 21.

【0050】特に、該補強側板21の補強構造は、側板
本体19のコ字状補強部19aとZ状筋交い20との組
み合わせ構造なので、簡単な構造でありながら十分な強
度が得られ、溶接箇所数も少なく、重量増加も最小限に
止めることができる。
In particular, since the reinforcing structure of the reinforcing side plate 21 is a combination structure of the U-shaped reinforcing portion 19a of the side plate body 19 and the Z-shaped braces 20, sufficient strength can be obtained even though it is a simple structure, The number is small and the increase in weight can be minimized.

【0051】しかもこのような構造の電源装置用耐震型
箱体1では、X形筋交い14とZ状筋交い20とを用い
て補強しているので、従来のような箱形フレーム2内を
仕切る補強板10が不要であり、このため該箱形フレー
ム2内への電源装置の組み込みを容易に行うことができ
る。
Moreover, in the seismic resistant box body 1 for a power supply device having such a structure, since it is reinforced by using the X-shaped braces 14 and the Z-shaped braces 20, the conventional box-shaped frame 2 is reinforced by partitioning. Since the plate 10 is unnecessary, the power supply device can be easily incorporated in the box-shaped frame 2.

【0052】また、この電源装置用耐震型箱体1におい
ては、前後に隣り合う単位箱体1´を、それぞれのX形
筋交い14を向かい合わせにして配置しているので、前
後が開口する構造となり、電源装置の組み込み等も支障
なく行うことができる。また、向かい合わさったX形筋
交い14の隙間を利用して、前後の配線を支障なく行う
ことができる。
Further, in this seismic-resistant box body 1 for a power supply device, since the unit box bodies 1'adjacent to each other in the front and rear are arranged with their X-shaped braces 14 facing each other, a structure in which the front and rear are opened Therefore, the power supply device can be installed without any trouble. Further, by utilizing the gap between the X-shaped braces 14 facing each other, front and rear wiring can be performed without any trouble.

【0053】また、この電源装置用耐震型箱体1におい
て、左右に隣り合う単位箱体1´は、隣り合う補強側板
21にZ状筋交い20を避けて窓25を相対応してそれ
ぞれ設けているので、左右に隣り合う単位箱体1´間の
配線を支障なく行うことができる。
In the seismic resistant box 1 for a power supply device, the unit boxes 1'adjacent to the left and right are provided with windows 25 corresponding to each other on the adjacent reinforcing side plates 21 while avoiding the Z-shaped braces 20. Therefore, the wiring between the unit boxes 1'adjacent to the left and right can be performed without any trouble.

【0054】固有振動数の指針として、社団法人 日本
電気協会発行の電子力発電所耐震設計技術指針(JEAG46
01-1970 .JEAG4601・補-1984 )がある。この指針で
は、安全保障上特に緊要なものは、耐震性の固有振動数
を20Hz 以上とすることになっている。その試験方法
は、木鎚で叩く方法である。
As a guideline for the natural frequency, a technical guideline for seismic design of electronic power plants issued by the Japan Electric Association (JEAG46
01-1970. JEAG4601 / Supplement-1984). According to this guideline, the most important thing for security is to set the seismic resistant natural frequency to 20 Hz or higher. The test method is a method of hitting with a hammer.

【0055】この試験方法に則り、図1に示す本例の電
源装置用耐震型箱体1の固有振動数を測定した。この測
定は、図7に示すように、該電源装置用耐震型箱体1を
試験用ベース26に固定し、この電源装置用耐震型箱体
1をI〜IVの4方向から木鎚で叩き、そのとき叩く方向
と反対側の面に振動を検出する検出器27を取付けて該
電源装置用耐震型箱体1の振動を検出した。即ち、電源
装置用耐震型箱体1を木鎚で叩くと、検出器27には加
速度に比例した電圧が発生し、この発生した電圧を増幅
器28で増幅し、アナライザ29で波形解析し、X−Y
プロッタ30に結果を出力してプロットした。
According to this test method, the natural frequency of the seismic resistant box 1 for power supply of this example shown in FIG. 1 was measured. In this measurement, as shown in FIG. 7, the seismic resistant box 1 for a power supply device was fixed to a test base 26, and the seismic resistant box 1 for a power supply device was hit with a wooden hammer from four directions I to IV. At that time, a detector 27 for detecting vibration was attached to the surface on the side opposite to the tapping direction to detect the vibration of the seismic resistant box 1 for the power supply device. That is, when the seismic resistant box 1 for a power supply device is hit with a hammer, a voltage proportional to the acceleration is generated in the detector 27, the generated voltage is amplified by the amplifier 28, the waveform is analyzed by the analyzer 29, and X -Y
The results were output to the plotter 30 and plotted.

【0056】図1に示す本発明の構造の電源装置用耐震
型箱体1(本発明品)を6基と、図8に示す従来構造の
電源装置用耐震型箱体1(従来品)を6基とを用いて、
それぞれを木鎚で叩いて測定した固有振動数試験結果の
平均値を表1に示す。
Six seismic-resistant box bodies 1 for the power supply device (invention product) of the structure of the present invention shown in FIG. 1 and six seismic-resistant box bodies 1 for the power supply device (conventional product) of the conventional structure shown in FIG. With 6 units,
Table 1 shows the average value of the natural frequency test results measured by hitting each with a hammer.

【0057】[0057]

【表1】 この表1から明らかなように、本発明品によれば従来品
と比較して固有振動数が7Hz 改善された。
[Table 1] As is clear from Table 1, according to the product of the present invention, the natural frequency was improved by 7 Hz as compared with the conventional product.

【0058】また、実験によると、図1に示す本発明品
は図8に示す従来品に比べて、組立作業においては約30
%の工数低減が図れ、重量においては約30%軽減でき
た。
Further, according to the experiment, the product of the present invention shown in FIG. 1 is about 30 in the assembling work as compared with the conventional product shown in FIG.
%, And the weight has been reduced by about 30%.

【0059】また、図5に示す分割タイプの構造にする
と、分割塗装作業により作業性の向上が図れ、更に個々
の箱体の軽量化により、運搬作業や設置作業も楽にな
る。
Further, if the split type structure shown in FIG. 5 is used, the workability can be improved by the split coating work, and the weight and weight of each individual box can facilitate the transportation and installation work.

【0060】[0060]

【発明の効果】請求項1に記載の電源装置用耐震型箱体
は、それぞれ四角形をした上枠体と下枠体とを所定間隔
で対向配置し、これら上枠体と下枠体の左右の側部は縦
向きの複数の柱で相互に連結し、これら上枠体と下枠体
の背部はX形筋交いで相互に連結して箱形フレームを構
成しているので、このような構造の箱形フレームの補強
体は背部のX形筋交いだけであり、軽量化が図れ、また
溶接箇所数を減らすことができる。
According to the seismic-resistant box body for a power supply device of claim 1, a rectangular upper frame body and a lower frame body are arranged to face each other at a predetermined interval. The sides of are connected to each other by a plurality of vertically oriented columns, and the backs of these upper and lower frames are connected to each other with X-shaped braces to form a box-shaped frame. The box-shaped frame reinforcing body has only the X-shaped braces on the back, which makes it possible to reduce the weight and reduce the number of welding points.

【0061】また、箱形フレームの左右の側面には、幅
方向の両側部をそれぞれ裏側にコ字状に曲げてコ字状補
強部を設けた側板本体と、これらコ字状補強部の間で該
側板本体の裏面に固定されたZ状筋交いとからなる補強
側板をそれぞれ固定しているので、箱形フレームの左右
の補強を該補強側板で図ることができる。
Further, on the left and right side surfaces of the box-shaped frame, the side plate main body is provided with U-shaped reinforcing portions by bending both side portions in the width direction to the back side in a U shape, and between these U-shaped reinforcing portions. Since the reinforcing side plates made of Z-shaped braces fixed to the back surface of the side plate body are fixed, the left and right sides of the box-shaped frame can be reinforced by the reinforcing side plates.

【0062】特に、この補強側板の補強構造は、側板本
体のコ字状補強部とZ状筋交いとの組み合わせ構造なの
で、簡単な構造でありながら十分な強度が得られ、溶接
箇所数も少なく、重量増加も最小限に止めることができ
る。
In particular, since the reinforcing structure of the reinforcing side plate is a combination structure of the U-shaped reinforcing portion of the side plate body and the Z-shaped braces, sufficient strength can be obtained even with a simple structure, and the number of welding points is small. Weight gain can also be minimized.

【0063】しかもこのような構造の電源装置用耐震型
箱体では、X形筋交いとZ状筋交いとを用いて補強して
いるので、従来のような箱形フレーム内を仕切る補強板
が不要であり、このため該箱形フレーム内への電源装置
の組み込みを容易に行うことができる。
Moreover, since the seismic resistant box for a power supply device having such a structure is reinforced by using X-shaped braces and Z-shaped braces, a conventional reinforcing plate for partitioning the inside of the box-shaped frame is not required. Therefore, the power supply device can be easily incorporated in the box-shaped frame.

【0064】請求項2に記載の電源装置用耐震型箱体で
は、X形筋交いの中間に横向き筋交いを固定しているの
で、箱形フレームの側部の変形を防止することができ、
該箱形フレームの横方向の耐震強度を向上させることが
できる。
In the seismic resistant box for the power supply according to the second aspect, since the lateral braces are fixed in the middle of the X-shaped braces, it is possible to prevent the side portions of the box-shaped frame from being deformed.
It is possible to improve the lateral seismic strength of the box-shaped frame.

【0065】請求項3に記載の電源装置用耐震型箱体
は、複数の単位箱体を隣り合わせに連結して構成してい
るので、個々の単位箱体は軽量であり、このため塗装時
に該単位箱体を動かしながら容易に塗装することがで
き、また運搬や設置作業も容易に行うことができる。か
つまた、複数の単位箱体を組み合わせ連結して電源装置
用耐震型箱体を構成しているので、これら単位箱体を組
み合わせる数の増減により、任意の容積のものを容易に
形成することができる。
Since the seismic resistant box for a power supply unit according to claim 3 is formed by connecting a plurality of unit boxes adjacent to each other, each unit box is lightweight, and therefore, each unit box is It can be easily painted while moving the unit box, and can be easily transported and installed. Moreover, since a plurality of unit boxes are combined and connected to form a seismic-resistant box for a power supply device, it is possible to easily form an arbitrary volume by increasing or decreasing the number of units to be combined. it can.

【0066】また、単位箱体の箱形フレームは、補強体
として背部にX形筋交いが設けられているだけであり、
このため軽量化が図れ、また溶接箇所数を減らすことが
できる。
Further, the box-shaped frame of the unit box is only provided with the X-shaped braces on the back as a reinforcing body,
Therefore, the weight can be reduced, and the number of welding points can be reduced.

【0067】また、箱形フレームの左右の側面には、幅
方向の両側部をそれぞれ裏側にコ字状に曲げてコ字状補
強部を設けた側板本体と、これらコ字状補強部の間で該
側板本体の裏面に固定されたZ状筋交いとからなる補強
側板をそれぞれ固定しているので、箱形フレームの左右
の補強を該補強側板で図ることができる。
Further, on the left and right side surfaces of the box-shaped frame, both side portions in the width direction are respectively bent to the back side in a U shape to provide a U-shaped reinforcement portion, and between the U-shaped reinforcement portions. Since the reinforcing side plates made of Z-shaped braces fixed to the back surface of the side plate body are fixed, the left and right sides of the box-shaped frame can be reinforced by the reinforcing side plates.

【0068】特に、該補強側板の補強構造は、側板本体
のコ字状補強部とZ状筋交いとの組み合わせ構造なの
で、簡単な構造でありながら十分な強度が得られ、溶接
箇所数も少なく、重量増加も最小限に止めることができ
る。
In particular, since the reinforcing structure of the reinforcing side plate is a combination structure of the U-shaped reinforcing portion of the side plate body and the Z-shaped braces, sufficient strength can be obtained even with a simple structure, and the number of welding points is small. Weight gain can also be minimized.

【0069】しかもこのような構造の単位箱体では、X
形筋交いとZ状筋交いとを用いて補強しているので、従
来のような箱形フレーム内を仕切る補強板が不要であ
り、このため該箱形フレーム内への電源装置の組み込み
を容易に行うことができる。
Moreover, in the unit box having such a structure, X
Since it is reinforced by using the shape braces and the Z-shaped braces, there is no need for a reinforcing plate for partitioning the inside of the box-shaped frame as in the conventional case. Therefore, the power supply device can be easily incorporated into the box-shaped frame. be able to.

【0070】請求項4に記載の電源装置用耐震型箱体で
は、前後に隣り合う単位箱体を、それぞれのX形筋交い
を向かい合わせにして配置しているので、前後が開口す
る構造となり、電源装置の組み込み等も支障なく行うこ
とができる。また、向かい合わさったX形筋交いの隙間
を利用して、前後の配線を支障なく行うことができる。
In the seismic resistant box for a power supply unit according to claim 4, since the unit boxes adjacent to each other in the front and rear are arranged with their X-shaped braces facing each other, the structure has an opening in the front and back. The power supply device can be installed without any trouble. In addition, the front and rear wiring can be performed without any trouble by utilizing the gap between the X-shaped braces that face each other.

【0071】請求項5に記載の電源装置用耐震型箱体に
おける左右に隣り合う前記単位箱体は、隣り合う補強側
板にZ状筋交いを避けて窓が相対応してそれぞれ設けて
いるので、左右に隣り合う単位箱体間の配線を支障なく
行うことができる。
Since the right and left adjacent unit boxes in the seismic resistant box for a power supply according to claim 5 are provided with windows corresponding to each other on the adjacent reinforcing side plates while avoiding Z-shaped braces, Wiring between the unit boxes adjacent to each other on the left and right can be performed without any trouble.

【図面の簡単な説明】[Brief description of drawings]

【図1】本発明に係る電源装置用耐震型箱体における実
施の形態の第1例の分解斜視図である。
FIG. 1 is an exploded perspective view of a first example of an embodiment of a seismic resistant box for a power supply device according to the present invention.

【図2】図1で用いている補強側板の裏面側の要部斜視
図である。
FIG. 2 is a perspective view of an essential part on the back surface side of the reinforcing side plate used in FIG.

【図3】図2に示す補強側板のZ状筋交いにおけるコー
ナ部の正面図である。
FIG. 3 is a front view of a corner portion of the reinforcing side plate shown in FIG. 2 in a Z-shaped bracing.

【図4】補強側板の側板本体に対するZ状筋交いの溶接
の仕方を示す斜視図である。
FIG. 4 is a perspective view showing how to weld the Z-shaped braces to the side plate body of the reinforcing side plate.

【図5】本発明に係る電源装置用耐震型箱体における実
施の形態の第2例の斜視図である。
FIG. 5 is a perspective view of a second example of an embodiment of a seismic resistant box for a power supply device according to the present invention.

【図6】第2例で用いている補強側板の斜視図である。FIG. 6 is a perspective view of a reinforcing side plate used in a second example.

【図7】電源装置用耐震型箱体の固有振動数の測定の仕
方を示す斜視図である。
FIG. 7 is a perspective view showing how to measure the natural frequency of the seismic resistant box for a power supply device.

【図8】従来の電源装置用耐震型箱体の分解斜視図であ
る。
FIG. 8 is an exploded perspective view of a conventional seismic resistant box for a power supply device.

【符号の説明】 1 電源装置用耐震型箱体 1´ 単位箱体 2 箱形フレーム 3 天井板 4 底板 5 側板 6 格子形補強体 7 側枠体 8,9 連結アーム 10 補強板 11 上枠体 12 下枠体 13 柱 14 X形筋交い 15 アーム 16 取付け板 17 横向き筋交い 18 取付け板 19 側板本体 19a コ字状補強部 20 Z状筋交い 21 補強側板 22 横アーム 23 斜めアーム 22a,23a アーム本体 22b,23b フランジ部 24 孔 25 窓 26 試験用ベース 27 検出器 28 増幅器 29 アナライザ 30 X−Yプロッタ[Explanation of symbols] 1 Seismic resistant box for power supply 1'unit box 2 box frame 3 ceiling board 4 bottom plate 5 side plates 6 Lattice type reinforcement 7 side frame 8,9 connecting arm 10 Reinforcing plate 11 Upper frame 12 Lower frame 13 pillars 14 X-shaped braces 15 arms 16 Mounting plate 17 Sideways Brace 18 Mounting plate 19 Side plate body 19a U-shaped reinforcing portion 20 Z-shaped braces 21 Reinforcement side plate 22 Side arm 23 diagonal arm 22a, 23a arm body 22b, 23b Flange part 24 holes 25 windows 26 Test Base 27 detectors 28 amplifier 29 Analyzer 30 XY plotter

フロントページの続き (56)参考文献 特開 平4−48692(JP,A) 特開 平7−160936(JP,A) 特開 平4−293864(JP,A) 特開 昭53−131180(JP,A) 特開 平1−175800(JP,A) 実開 昭50−151122(JP,U) 実開 平2−128840(JP,U) 特表 平6−506161(JP,A) (58)調査した分野(Int.Cl.7,DB名) H05K 5/02 Continuation of the front page (56) Reference JP-A-4-48692 (JP, A) JP-A-7-160936 (JP, A) JP-A-4-293864 (JP, A) JP-A-53-131180 (JP , A) Japanese Unexamined Patent Publication No. 1-175800 (JP, A) Actually open 50-151122 (JP, U) Actually open 2-128840 (JP, U) Special table 6-506161 (JP, A) (58) Fields investigated (Int.Cl. 7 , DB name) H05K 5/02

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 それぞれ四角形をした上枠体と下枠体と
が所定間隔で対向配置され、これら上枠体と下枠体の左
右の側部は縦向きの複数の柱で相互に連結された箱形フ
レームの前記上枠体に天井板が固定され、前記下枠体
板が固定された電源装置用耐震型箱体において、 前記箱形フレームの左右の側面には、幅方向の両側部を
それぞれ裏側にコ字状に曲げてコ字状補強部を設けた側
板本体と、これらコ字状補強部の間で該側板本体の裏面
に固定されたZ状筋交いとからなる補強側板がそれぞれ
固定されており、前記箱形フレームを構成している 前記上枠体と前記下枠
体の背部は、4本のアームと取り付け板を備えて、前記
4本のアームと前記取り付け板とがボルト締めされた
形筋交いで相互に連結されていることを特徴とする電源
装置用耐震型箱体。
1. An upper frame body and a lower frame body each having a quadrangular shape are arranged to face each other at a predetermined interval, and left and right side portions of the upper frame body and the lower frame body are connected to each other by a plurality of vertically oriented columns. It said top frame of the box-shaped frame in the ceiling plate is fixed to the lower frame
In a seismic-resistant box body for a power supply device with a fixed bottom plate, on the left and right side surfaces of the box-shaped frame, side plates provided with U-shaped reinforcements by bending both sides in the width direction to the back side respectively. Reinforcing side plates, which are composed of a main body and Z-shaped braces fixed to the back surface of the side plate main body between the U-shaped reinforcing portions, are fixed, respectively, and the upper frame body forming the box-shaped frame. The back of the lower frame body includes four arms and a mounting plate ,
X with four arms and the mounting plate bolted together
A seismic-resistant box for a power supply device, characterized in that they are connected to each other with a shape bracing.
【請求項2】 前記X形筋交いの中間には横向き筋交い
が固定されていることを特徴とする請求項1に記載の電
源装置用耐震型箱体。
2. The seismic resistant box for a power supply device according to claim 1, wherein a lateral bracing is fixed in the middle of the X-shaped bracing.
JP12973296A 1996-05-24 1996-05-24 Earthquake-resistant box for power supply unit Expired - Lifetime JP3533824B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP12973296A JP3533824B2 (en) 1996-05-24 1996-05-24 Earthquake-resistant box for power supply unit

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP12973296A JP3533824B2 (en) 1996-05-24 1996-05-24 Earthquake-resistant box for power supply unit

Publications (2)

Publication Number Publication Date
JPH09321452A JPH09321452A (en) 1997-12-12
JP3533824B2 true JP3533824B2 (en) 2004-05-31

Family

ID=15016840

Family Applications (1)

Application Number Title Priority Date Filing Date
JP12973296A Expired - Lifetime JP3533824B2 (en) 1996-05-24 1996-05-24 Earthquake-resistant box for power supply unit

Country Status (1)

Country Link
JP (1) JP3533824B2 (en)

Families Citing this family (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4406315B2 (en) 2004-05-07 2010-01-27 オリンパス株式会社 Electronic equipment housing structure
JP4953315B2 (en) * 2007-12-07 2012-06-13 独立行政法人理化学研究所 Power supply housing, pulse power supply
CN105072847A (en) * 2015-07-23 2015-11-18 柳州市蓝光电源科技有限责任公司 Waterproof cabinet with emergency power supply
CN107484404B (en) * 2017-09-25 2023-09-12 成都泵类应用技术研究所 High-strength aviation anti-impact anti-seismic shielding case
CN108260312A (en) * 2018-01-30 2018-07-06 和信精密科技(吴江)有限公司 A kind of quake-proof machine cabinet
CN110312384A (en) * 2019-06-10 2019-10-08 和信精密科技(吴江)有限公司 A kind of shockproof door for cabinet
CN110554752B (en) * 2019-10-16 2023-05-05 广州酷迈电子产品有限公司 Multiple protection computer mainframe

Also Published As

Publication number Publication date
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