JP5933519B2 - Enclosure for electrical equipment storage - Google Patents
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- JP5933519B2 JP5933519B2 JP2013270371A JP2013270371A JP5933519B2 JP 5933519 B2 JP5933519 B2 JP 5933519B2 JP 2013270371 A JP2013270371 A JP 2013270371A JP 2013270371 A JP2013270371 A JP 2013270371A JP 5933519 B2 JP5933519 B2 JP 5933519B2
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- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 4
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Description
本発明は、電気機器(例えば、電磁接触器)を取付け、収納するための筐体に関する。 The present invention relates to a housing for mounting and storing an electrical device (for example, an electromagnetic contactor).
従来、電気機器取付用レールであるDINレールに対応してレール状をなしそのレール延設方向に複数個のセンサアンプを並設可能に形成したセンサアンプ用取付具に対し、1個又は複数個のセンサアンプを取り付けるセンサアンプの取付構造であって、前記センサアンプは、係止部を有するアンプ本体と、該アンプ本体との接続及び前記レール延設方向に並設される他のセンサアンプ又はセンサアンプに付随する他機器との接続を図るためのコネクタ部とが相互に着脱可能に構成され、前記センサアンプ用取付具は、レール延設方向と直交する方向の一方において外側に延出される係止片と、他方において外側に延出されるコネクタ設置片とが設けられ、前記センサアンプ用取付具のコネクタ設置片に前記センサアンプのコネクタ部が設置され、前記アンプ本体の係止部を前記センサアンプ用取付具の係止片に係止させ前記係止片の延出方向と直行する方向への前記アンプ本体の移動を規制しつつ前記レール延設方向と直行する方向に前記アンプ本体が前記コネクタ部に装着されてなるセンサアンプの取付構造が開示されている(例えば、特許文献1参照)。 Conventionally, one or a plurality of sensor amplifier fixtures which are formed in a rail shape corresponding to a DIN rail which is a rail for mounting electrical equipment, and in which a plurality of sensor amplifiers can be arranged in parallel in the rail extending direction. A sensor amplifier mounting structure for mounting the sensor amplifier, wherein the sensor amplifier includes an amplifier main body having a locking portion, and another sensor amplifier connected in parallel with the amplifier main body and the rail extending direction. A connector portion for connecting to other devices attached to the sensor amplifier is configured to be detachable from each other, and the sensor amplifier fixture extends outward in one of the directions orthogonal to the rail extending direction. A locking piece and a connector installation piece extending outward on the other side are provided, and the connector part of the sensor amplifier is installed on the connector installation piece of the sensor amplifier fixture And the rail extension while restricting the movement of the amplifier body in a direction perpendicular to the extending direction of the locking piece by locking the locking portion of the amplifier main body to the locking piece of the sensor amplifier fixture. A sensor amplifier mounting structure is disclosed in which the amplifier body is mounted on the connector portion in a direction perpendicular to the installation direction (see, for example, Patent Document 1).
また、従来、底部にレール取付機構を有する機器を取付けるように構成された機器取付板において、レールの幅と略同寸法に形成されて前記機器を装着するよう構成された取付部を備え、前記取付部は、前記レールの幅と同間隔をもって対向するように穿設された1対の開口部の中間に形成され、前記取付部の前記開口部に面した端部を前記機器のレール取付機構が挟持するように構成した機器取付板が開示されている(例えば、特許文献2参照)。 Further, conventionally, in a device mounting plate configured to mount a device having a rail mounting mechanism at the bottom, the mounting plate is formed to have the same dimension as the rail width and configured to mount the device, The attachment portion is formed in the middle of a pair of openings formed to face each other at the same interval as the width of the rail, and an end portion of the attachment portion facing the opening is a rail attachment mechanism of the device. Has disclosed a device mounting plate configured to be sandwiched (see, for example, Patent Document 2).
しかしながら、上記特許文献1,2に記載された従来の技術によれば、センサアンプ用取付具又は機器取付板は、センサアンプ又は機器を収容する筐体の別部品として製作され、ボルト等により、センサアンプ又は機器と共に筐体に取付られる。そのため、部品点数が多く、生産管理が煩雑でコストアップを招く、という問題がある。 However, according to the conventional techniques described in Patent Documents 1 and 2, the sensor amplifier mounting device or the device mounting plate is manufactured as a separate part of the housing for housing the sensor amplifier or the device, It is attached to the case together with the sensor amplifier or device. Therefore, there are problems that the number of parts is large, production management is complicated, and the cost is increased.
本発明は、上記に鑑みてなされたものであって、部品点数を削減することができ、製作工程を削減することができる電気機器収納用の筐体を得ることを目的とする。 This invention is made | formed in view of the above, Comprising: It aims at obtaining the housing | casing for electrical equipment accommodation which can reduce a number of parts and can reduce a manufacturing process.
上述した課題を解決し、目的を達成するために、本発明は、少なくとも底板及び側板を有し、前記底板に、電気機器の溝に嵌合する嵌合レール部を有するIECレール部を一体的に形成したことを特徴とする。 In order to solve the above-described problems and achieve the object, the present invention integrates an IEC rail portion having at least a bottom plate and a side plate, and having a fitting rail portion that fits into a groove of an electrical device, on the bottom plate. It is characterized by being formed.
この発明によれば、底板に、電気機器の溝に嵌合する嵌合レール部を有するIECレール部を一体的に形成したので、部品点数を削減することができる。また、IECレール部の成形が筐体の成形と同時に行えるため、製作工程を削減することができる。 According to this invention, since the IEC rail part which has the fitting rail part fitted to the groove | channel of an electric equipment was integrally formed in the bottom plate, the number of parts can be reduced. In addition, since the IEC rail part can be formed at the same time as the case, the manufacturing process can be reduced.
以下に、本発明にかかる電気機器収納用の筐体の実施の形態を図面に基づいて詳細に説明する。なお、この実施の形態によりこの発明が限定されるものではない。 Embodiments of a housing for storing electrical equipment according to the present invention will be described below in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.
実施の形態1.
図1は、本発明に係る電気機器収納用の筐体の実施の形態1を示す斜視図であり、図2は、実施の形態1の筐体の正面図であり、図3は、図2のA−A線に沿う断面図であり、図4は、図2のB−B線に沿う断面図である。
Embodiment 1 FIG.
FIG. 1 is a perspective view showing Embodiment 1 of a housing for storing electrical equipment according to the present invention, FIG. 2 is a front view of the housing according to Embodiment 1, and FIG. FIG. 4 is a cross-sectional view taken along line A-B in FIG. 2.
図1〜図4に示すように、実施の形態1の筐体10は、電気機器としての電磁接触器80(図5参照)を収納するための正面が開口した直方体の箱であり、底板11と側板12a,12b,12c,12dを有している。底板11は、電磁接触器80が取付けられる部分が、台状に高く形成されている。筐体10は、電磁接触器80が外部から影響を受けるのを防止し、電磁接触器80の充電部及び可動部に人が接近又は接触するのを防止する。 As shown in FIGS. 1 to 4, the housing 10 of the first embodiment is a rectangular parallelepiped box having an open front for housing an electromagnetic contactor 80 (see FIG. 5) as an electrical device. And side plates 12a, 12b, 12c, 12d. The bottom plate 11 is formed so that a portion to which the electromagnetic contactor 80 is attached is formed in a table shape. The housing 10 prevents the electromagnetic contactor 80 from being affected from the outside, and prevents a person from approaching or contacting the charging unit and the movable unit of the electromagnetic contactor 80.
筐体10は、厚さ0.7mmの鉄板等の金属板をプレス機により絞り成形したものである。図示はしないが、筐体10には蓋が付属している。電磁接触器80を筐体10内に設置し、全ての配線を完了後、蓋を筐体10の開口部に被せ、電磁接触器80全体を覆う。蓋は、筐体10と同様に、厚さ0.7mmの金属板を絞り成形して製作される。 The housing 10 is formed by drawing a metal plate such as an iron plate having a thickness of 0.7 mm using a press. Although not shown, a lid is attached to the housing 10. After the electromagnetic contactor 80 is installed in the housing 10 and all wiring is completed, the lid is placed over the opening of the housing 10 to cover the entire electromagnetic contactor 80. The lid is manufactured by drawing a metal plate having a thickness of 0.7 mm as in the case 10.
電磁接触器80を筐体10及び蓋で覆うことにより、外部からの粉塵や水滴等から電磁接触器80を保護することができる。また、人は、蓋を開けないかぎり電磁接触器80へ触れることができず、充電部に不用意に触れてしまうのを防止することができる。 By covering the electromagnetic contactor 80 with the housing 10 and the lid, the electromagnetic contactor 80 can be protected from external dust and water droplets. Further, a person cannot touch the electromagnetic contactor 80 unless the lid is opened, and can prevent the charging unit from being inadvertently touched.
なお、電磁接触器80の配線は、筐体10の上下に設けられた円形の切込部12eをドライバー等で打抜き、打抜いた開口部を通して行うことができる。円形の切込部12eは、筐体10の上下の側板12d,12cに夫々2箇所ずつ設けられている。筐体10の底板11には、複数の孔11aが設けられていて、孔11aを利用して、装置等の垂直面に筐体10をネジ止め固定することができる。 The wiring of the electromagnetic contactor 80 can be performed through a punched opening by punching circular notches 12e provided at the top and bottom of the housing 10 with a screwdriver or the like. Two circular cut portions 12e are provided on the upper and lower side plates 12d and 12c of the housing 10, respectively. The bottom plate 11 of the housing 10 is provided with a plurality of holes 11a, and the housing 10 can be screwed and fixed to a vertical surface of the apparatus or the like using the holes 11a.
次に、実施の形態1の筐体10に設けられたIECレール部50について説明する。IECレール部50は、電磁接触器80の底部に設けられている溝(図示せず)に嵌合して電磁接触器80を筐体10に取付けるためのものである。 Next, the IEC rail part 50 provided in the housing 10 of the first embodiment will be described. The IEC rail portion 50 is for fitting the electromagnetic contactor 80 to the housing 10 by fitting in a groove (not shown) provided at the bottom of the electromagnetic contactor 80.
IECレール部50は、筐体10の底板11をプレス機により加工し、底板11を切り曲げることにより形成される。実施の形態1のIECレール部50は、筐体10の中央部より上側に設けられた二つの第1のIECレール部51と、筐体10の中央部に設けられた三つの第2のIECレール部52と、からなる。 The IEC rail portion 50 is formed by processing the bottom plate 11 of the housing 10 with a press and cutting and bending the bottom plate 11. The IEC rail portion 50 according to the first embodiment includes two first IEC rail portions 51 provided above the central portion of the casing 10 and three second IEC rails provided in the central portion of the casing 10. Rail portion 52.
第1、第2のIECレール部51,52は、底板11から切り曲げられて夫々上方、下方へ斜めに立ち上がる支持板51a,52aと、支持板51a,52aの先端から底板11と平行に夫々上方、下方へ延び電磁接触器80の夫々の溝に嵌合する矩形板状の嵌合レール部51b,52bとを有している。支持板51a,52aの正面側には、支持板51a,52aの剛性を高めるためのプレス成形されたリブ51c,52cが形成されている。図示はしないが、支持板51aの二つのリブ51cの間の裏面側に別のリブを形成してもよい。 The first and second IEC rail portions 51 and 52 are cut and bent from the bottom plate 11 and rise obliquely upward and downward, respectively, and parallel to the bottom plate 11 from the tips of the support plates 51a and 52a, respectively. It has rectangular plate-like fitting rail portions 51b and 52b that extend upward and downward and fit into respective grooves of the electromagnetic contactor 80. On the front side of the support plates 51a and 52a, press-formed ribs 51c and 52c for increasing the rigidity of the support plates 51a and 52a are formed. Although not shown, another rib may be formed on the back side between the two ribs 51c of the support plate 51a.
IECレール部50の幅H(嵌合レール部51bの先端と嵌合レール部52bの先端との間の距離)は、IECレールの幅である35mmとなっている。IECレールの35mm幅とすることにより、IEC規格に合う電気機器を取り付けることができる。また、嵌合レール部51bの幅h1は、h1=5mm、嵌合レール部52bの幅h2は、h2=2mm、嵌合レール部51b,52bの底板11からの高さh3は、h3=7mmとなっている。 The width H of the IEC rail 50 (the distance between the tip of the fitting rail 51b and the tip of the fitting rail 52b) is 35 mm, which is the width of the IEC rail. By setting the width of the IEC rail to 35 mm, it is possible to attach an electrical device that meets the IEC standard. The width h 1 of the fitting rail portion 51b is h 1 = 5 mm, the width h 2 of the fitting rail portion 52b is h 2 = 2 mm, and the height h 3 from the bottom plate 11 of the fitting rail portions 51b and 52b. Is h 3 = 7 mm.
図1及び図4に示すように、嵌合レール部51b,52bは、横方向に波形に形成されている。嵌合レール部51b,52bの板厚は、0.7mmであるが、波形の山の頂部から谷の底部までの外形高さ寸法tは、t=1mmとなっている。また、波形の山の頂部から隣の谷の底部までのピッチは、2mmとなっている。このピッチは、できる限り短い方がよい。ピッチが長いと、嵌合レール部51b,52bは、単なる歪んだレールとなってしまう。波形に形成された嵌合レール部51b,52bは、平板状のレールに比べて強度が高い。 As shown in FIG.1 and FIG.4, the fitting rail parts 51b and 52b are formed in the waveform in the horizontal direction. The plate thickness of the fitting rail portions 51b and 52b is 0.7 mm, but the external height dimension t from the top of the corrugated mountain to the bottom of the valley is t = 1 mm. The pitch from the top of the corrugated mountain to the bottom of the adjacent valley is 2 mm. This pitch should be as short as possible. When the pitch is long, the fitting rail portions 51b and 52b are simply distorted rails. The fitting rail portions 51b and 52b formed in the corrugated shape have higher strength than the flat rail.
1mmよりも薄い板厚、例えば、厚さ0.7mmの鉄板をプレス機により絞り成形して筐体10を作り、筐体10の底板11にプレス切り曲げにより平板状の嵌合レール部を成形すると、嵌合レール部の板厚も0.7mmとなる。この平板状の嵌合レール部を波形とし、波形の山の頂部から谷の底部までの外形高さ寸法を1mmとすることにより、1mmの板厚の嵌合レール部として使用することができる。 A plate thickness thinner than 1 mm, for example, a 0.7 mm thick iron plate is formed by drawing with a press machine to form a housing 10, and a flat fitting rail portion is formed by pressing and bending the bottom plate 11 of the housing 10. Then, the plate thickness of the fitting rail portion is also 0.7 mm. By making this flat fitting rail part into a corrugated shape and setting the outer height dimension from the top of the corrugated peak to the bottom of the trough to be 1 mm, it can be used as a fitting rail having a thickness of 1 mm.
また、IECレール規格は、板厚1mmの他に、2.3mm、3mm等の板厚のものがあるが、本発明の波形の嵌合レール部を採用すれば、波形の高さを変更することにより、板厚2.3mmのレールや、板厚3mmのレールに相当する嵌合レール部が得られる。その場合、波形の山の頂部から隣の谷の底部までのピッチは、適宜変更する。また、実施の形態1の嵌合レール部51b,52bは波形であるが、この波形は、三角波形や、台形波形や、矩形波形であってもよい。 Further, the IEC rail standard has a plate thickness of 2.3 mm, 3 mm, etc. in addition to a plate thickness of 1 mm. If the corrugated fitting rail portion of the present invention is adopted, the height of the waveform is changed. Thus, a rail with a plate thickness of 2.3 mm and a fitting rail portion corresponding to a rail with a plate thickness of 3 mm are obtained. In this case, the pitch from the top of the corrugated mountain to the bottom of the adjacent valley is changed as appropriate. Moreover, although the fitting rail parts 51b and 52b of Embodiment 1 are waveforms, this waveform may be a triangular waveform, a trapezoidal waveform, or a rectangular waveform.
さらに、実施の形態1の嵌合レール部51b,52bは、波形の山の頂部から谷の底部までの外形高さ寸法を、IECレール規格の1mmとしたが、この外形高さ寸法を、1.05mm(105%)以上1.3mm(130%)以下としてもよい。1.05mm(105%)以上1.3mm(130%)以下とする範囲は、嵌合レール部51b,52bの全範囲でもよいし、一部の範囲でもよい。波形の外形高さ寸法をIECレール規格の1mmより若干大きくすることにより、1mm規格に対応した電気機器を取り付ける場合、嵌合レール部51b,52bの波形の山の頂部及び谷の底部が、電気機器の溝に食込み、電気機器の横ズレが起き難くなる。 Further, in the fitting rail portions 51b and 52b of the first embodiment, the outer height from the top of the corrugated mountain to the bottom of the valley is 1 mm of the IEC rail standard. It may be 0.05 mm (105%) or more and 1.3 mm (130%) or less. The range of 1.05 mm (105%) or more and 1.3 mm (130%) or less may be the entire range of the fitting rail portions 51b and 52b, or may be a partial range. When attaching an electric device corresponding to the 1 mm standard by making the outer height of the corrugation slightly larger than 1 mm of the IEC rail standard, the top of the corrugated mountain and the bottom of the valley of the fitting rail parts 51b and 52b are electrically It becomes difficult to cause a lateral shift of the electric device by biting into the groove of the device.
IECレール部50への電磁接触器80の取付け方は、まず、電磁接触器80の一方の溝を第1のIECレール部51の嵌合レール部51bへ当てがう。当てがった電磁接触器80を下方へ押し下げると、嵌合レール部51bが電磁接触器80の一方の溝に嵌合する。この一方の溝の底には、バネが挿入されていて、バネを圧縮してさらに電磁接触器80を押し下げると、電磁接触器80の他方の溝が第2のIECレール部52の嵌合レール部52bの先端の位置まで押し下げられる。押し下げる力を弱めると、前記のバネの復元力により、電磁接触器80が上方へ押し上げられ、嵌合レール部52bが電磁接触器80の他方の溝に嵌合し、電磁接触器80が筐体10に取り付けられる。 In order to attach the electromagnetic contactor 80 to the IEC rail portion 50, first, one groove of the electromagnetic contactor 80 is applied to the fitting rail portion 51 b of the first IEC rail portion 51. When hit Therefore depressing the electromagnetic contactor 80 downward, the fitting rail portion 51b is fitting engagement in one of the grooves of the electromagnetic contactor 80. A spring is inserted into the bottom of the one groove, and when the spring is compressed and the electromagnetic contactor 80 is further pushed down, the other groove of the electromagnetic contactor 80 becomes the fitting rail of the second IEC rail portion 52. It is pushed down to the position of the tip of the part 52b. When the pressing force is weakened, the electromagnetic contactor 80 is pushed upward by the restoring force of the spring, the fitting rail portion 52b is fitted into the other groove of the electromagnetic contactor 80, and the electromagnetic contactor 80 is the housing. 10 is attached.
実施の形態1の電気機器収納用の筐体10によれば、筐体10とIECレール部50とが一体化された一部品であるため、正規のIECレールを筐体10内に設置する必要がなく、部品点数の削減を図ることができる。また、IECレール部50の成形が筐体10の成形と同時に行えるため、製作工程の削減を図ることができる。 According to the housing 10 for storing electrical equipment according to the first embodiment, since the housing 10 and the IEC rail unit 50 are an integrated part, it is necessary to install a regular IEC rail in the housing 10. Therefore, the number of parts can be reduced. Further, since the formation of the IEC rail portion 50 can be performed simultaneously with the formation of the housing 10, the manufacturing process can be reduced.
実施の形態2.
図5は、実施の形態2の筐体に電磁接触器を収納した状態を示す正面図である。図5に示すように、実施の形態2の筐体20の底板21、側板22a,22b,22c,22d及び孔21aは、実施の形態1の筐体10の底板11、側板12a,12b,12c,12d及び孔11aと変わるところはない。実施の形態2の筐体20が実施の形態1の筐体10と変わるところは、IECレール部60の第1、第2のIECレール部61,62の嵌合レール部61b,62bが波形でなく平板状であることである。
Embodiment 2. FIG.
FIG. 5 is a front view showing a state in which the electromagnetic contactor is housed in the housing of the second embodiment. As shown in FIG. 5, the bottom plate 21, side plates 22a, 22b, 22c, and 22d and the hole 21a of the housing 20 of the second embodiment are the same as the bottom plate 11, side plates 12a, 12b, and 12c of the housing 10 of the first embodiment. 12d and the hole 11a. The difference between the case 20 of the second embodiment and the case 10 of the first embodiment is that the fitting rail portions 61b and 62b of the first and second IEC rail portions 61 and 62 of the IEC rail portion 60 have waveforms. It is a flat plate shape.
嵌合レール部61b,62bの板厚は、筐体20を成形する板材の厚さと絞り具合によるが、板厚0.7mmの板材を用いて筐体20及びIECレール部60を成形する場合、嵌合レール部61b,62bの厚さも概ね0.7mm程度となる。IECレールの板厚1mmに対応した電磁接触器80の場合、板厚0.7mmの板材にて成形した嵌合レール部61b,62bに溝を嵌合させることは可能であるが、電磁接触器80の溝と嵌合レール部61b,62bとの間に若干(0.3mm)のガタつきを生じることとなる。 The plate thickness of the fitting rail portions 61b and 62b depends on the thickness of the plate material forming the housing 20 and the degree of drawing, but when the housing 20 and the IEC rail portion 60 are formed using a plate material having a plate thickness of 0.7 mm, The thickness of the fitting rail portions 61b and 62b is also approximately 0.7 mm. In the case of the electromagnetic contactor 80 corresponding to the plate thickness of 1 mm of the IEC rail, the groove can be fitted to the fitting rail portions 61b and 62b formed of a plate material having a plate thickness of 0.7 mm. A slight backlash (0.3 mm) occurs between the 80 grooves and the fitting rail portions 61b and 62b.
板厚1mmの板材を用いて筐体20及びIECレール部60を成形する場合、嵌合レール部61b,62bの厚さも概ね1mm程度となる。IECレールの板厚1mmに対応した電磁接触器80の場合、板厚1mmの板材にて成形した嵌合レール部61b,62bに溝を嵌合させると、ガタつきなく嵌合させることができる。 When the casing 20 and the IEC rail portion 60 are formed using a plate material having a thickness of 1 mm, the thickness of the fitting rail portions 61b and 62b is also approximately 1 mm. In the case of the electromagnetic contactor 80 corresponding to the plate thickness of 1 mm of the IEC rail, if the groove is fitted to the fitting rail portions 61b and 62b formed of a plate material having a plate thickness of 1 mm, it can be fitted without backlash.
IECレール部60による電磁接触器80の取り付けの場合、嵌合レール部61b,62bの軸方向については、嵌合レール部61b,62bと電磁接触器80の溝との嵌合力にもよるが、電磁接触器80が軸方向に動いてしまう可能性がある。この動きを防止するために、横ズレ防止爪13a,13b(図2、図5参照)を設置している。この横ズレ防止爪13a,13bを、電磁接触器80の側面に当てるか、又は、底面の肉盗み部等に挿入することにより、電磁接触器80の横ズレを防止することができる。 When the electromagnetic contactor 80 is attached by the IEC rail portion 60, the axial direction of the fitting rail portions 61b and 62b depends on the fitting force between the fitting rail portions 61b and 62b and the groove of the electromagnetic contactor 80. The electromagnetic contactor 80 may move in the axial direction. In order to prevent this movement, lateral misalignment prevention claws 13a and 13b (see FIGS. 2 and 5) are installed. The lateral displacement of the electromagnetic contactor 80 can be prevented by applying the lateral displacement prevention claws 13a and 13b to the side surface of the electromagnetic contactor 80 or by inserting the lateral contact prevention claws 13a and 13b into a meat stealing portion or the like on the bottom surface.
実施の形態3.
実施の形態1,2の筐体10,20は金属板製であるが、筐体を樹脂により形成し、実施の形態1,2のIECレール部50,60と同一の形状のIECレール部を樹脂により一体に形成してもよい。筐体を樹脂製とすれば、金属のプレス型や絞り型よりも安価な型により筐体を形成することができ、IECレール部の寸法精度も確保し易い。
Embodiment 3 FIG.
The casings 10 and 20 of the first and second embodiments are made of a metal plate. However, the casing is formed of resin, and the IEC rail portion having the same shape as the IEC rail portions 50 and 60 of the first and second embodiments is formed. You may form integrally with resin. If the casing is made of resin, the casing can be formed by a mold that is less expensive than a metal press mold or a drawing mold, and the dimensional accuracy of the IEC rail portion can be easily secured.
10,20 筐体、11,21 底板、11a,21a 孔、12a,12b,12c,12d,22a,22b,22c,22d 側板、12e 切込部、13a,13b 横ズレ防止爪、50,60 IECレール部、51,61 第1のIECレール部、52,62 第2のIECレール部、51a,52a 支持板、51b,52b,61b,62b 嵌合レール部、51c,52c リブ、80 電磁接触器(電気機器)。 10, 20 housing, 11, 21 bottom plate, 11a, 21a hole, 12a, 12b, 12c, 12d, 22a, 22b, 22c, 22d side plate, 12e notch, 13a, 13b lateral displacement prevention claw, 50, 60 IEC Rail part, 51, 61 First IEC rail part, 52, 62 Second IEC rail part, 51a, 52a Support plate, 51b, 52b, 61b, 62b Fitting rail part, 51c, 52c Rib, 80 Electromagnetic contactor (Electrical equipment).
Claims (6)
前記底板に、
前記底板から立ち上がる支持板と、
前記支持板の先端から前記底板と平行に延び電気機器の溝に嵌合する嵌合レール部と、
を有するIECレール部を一体的に形成し、
前記支持板に、前記支持板の剛性を高めるリブを形成したことを特徴とする電気機器収納用の筐体。 Having at least a bottom plate and side plates,
On the bottom plate,
A support plate rising from the bottom plate;
A fitting rail portion extending in parallel with the bottom plate from the tip of the support plate and fitting into a groove of an electrical device ;
Integrally forming the IEC rail section having,
A housing for storing electrical equipment , wherein a rib for increasing the rigidity of the support plate is formed on the support plate .
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