JP3201896U - Capacitor tab terminal storage container - Google Patents

Abstract

【課題】搬送中のコンデンサ用タブ端子同士の絡み合いを効果的に防止し、かつ、従来よりも多数本のコンデンサ用タブ端子を収納して物流コストを削減できるコンデンサ用タブ端子の収納容器を提供する。【解決手段】コンデンサ用タブ端子を収納する第１収納部１０４の内底面が傾斜面に形成された外パック１００と、第１収納部内に所定数のコンデンサ用タブ端子を収納して形成した第１積層体の上面に倣う形状の外底面の第２収納部２０４が設けられ第１収納部内に第２収納部が挿入されたとき第１積層体の上面に第２収納部の外底面が当接する内パック２００と、第２収納部内に所定本数のコンデンサ用タブ端子を収納して形成した第２積層体の上面に倣う形状の外底面の突出部３０４が設けられ第２収納部内に突出部が挿入されたとき第２積層体の上面に突出部の外底面が当接する蓋パック３００とを備えるコンデンサ用タブ端子の収納容器。【選択図】図１Provided is a storage container for a capacitor tab terminal that can effectively prevent entanglement between capacitor tab terminals being conveyed and can store a larger number of capacitor tab terminals than before, thereby reducing distribution costs. To do. An outer pack 100 in which an inner bottom surface of a first storage portion 104 for storing a capacitor tab terminal is formed in an inclined surface, and a first number of capacitor tab terminals formed in a first storage portion. A second storage portion 204 having an outer bottom surface shaped to follow the top surface of the one laminate is provided, and when the second storage portion is inserted into the first storage portion, the outer bottom surface of the second storage portion is in contact with the top surface of the first stack. An inner pack 200 in contact with each other, and a protrusion 304 on the outer bottom surface having a shape following the upper surface of the second laminated body formed by storing a predetermined number of capacitor tab terminals in the second storage portion, are provided in the second storage portion. And a lid pack 300 in which the outer bottom surface of the projecting portion comes into contact with the upper surface of the second laminate when the is inserted. [Selection] Figure 1

Description

本考案は、コンデンサ用タブ端子の収納容器に関するものである。   The present invention relates to a container for a capacitor tab terminal.

図８は、コンデンサ用タブ端子１０を説明するために示す図である。図８（ａ）はコンデンサ用タブ端子１０の正面図であり、図８（ｂ）はコンデンサ用タブ端子１０の側面図である。
コンデンサ用タブ端子１０は、図８に示すように、リード線１２の一端部とリード線１２の直径よりも幅広の平板状の扁平部１６とがリード線１２よりも太い丸棒部１４で連結されている。このようなコンデンサ用タブ端子１０には、加工中に付着した微細な粉末や油等を除去すべく洗浄処理が施されることから、下記特許文献１、２に、コンデンサ用タブ端子の洗浄処理と搬送とに供され得る収納容器として、傾斜面に形成された内底面に、コンデンサ用タブ端子よりも短いスリットが形成された収納部と、この収納部の開口部を覆うように被着される蓋体とから成るものが記載されている。このような収納容器によれば、同一工場内でのコンデンサ用タブ端子の洗浄と搬送とに供することができる。 FIG. 8 is a view for explaining the capacitor tab terminal 10. FIG. 8A is a front view of the capacitor tab terminal 10, and FIG. 8B is a side view of the capacitor tab terminal 10.
As shown in FIG. 8, the capacitor tab terminal 10 is connected to one end portion of the lead wire 12 and a flat plate-like flat portion 16 wider than the diameter of the lead wire 12 by a round bar portion 14 that is thicker than the lead wire 12. Has been. Since the capacitor tab terminal 10 is subjected to a cleaning process to remove fine powder, oil, etc. adhering during processing, the following patent document 1 and 2 describe a capacitor tab terminal cleaning process. As a storage container that can be used for transporting, it is attached so as to cover a storage portion in which a slit shorter than a capacitor tab terminal is formed on an inner bottom surface formed on an inclined surface, and an opening of the storage portion. And a lid comprising a lid. According to such a storage container, it can use for washing | cleaning and conveyance of the tab terminal for capacitors in the same factory.

特開２００２−１８４６５７号公報JP 2002-184657 A 特開２００３−６８５９１号公報JP 2003-68591 A

しかしながら、特許文献１，２に記載されている収納容器は、収納されたコンデンサ用タブ端子を気密状態に保持できず、工場から出荷するコンデンサ用タブ端子の搬送用に用いるには問題があることから、本考案者は収納したコンデンサ用タブ端子を気密状態に保持できる収納容器を搬送用に用いることを試みた。   However, the storage containers described in Patent Documents 1 and 2 cannot hold the stored capacitor tab terminal in an airtight state, and have a problem when used for transporting the capacitor tab terminal shipped from the factory. Therefore, the present inventors tried to use a storage container that can hold the stored capacitor tab terminal in an airtight state.

図９は、従来のコンデンサ用タブ端子の収納容器９２０を説明するために示す図である。図９（ａ）は従来のコンデンサ用タブ端子の収納容器９２０にコンデンサ用タブ端子１０を収納した後、蓋９０２を被着する前の状態を示す図であり、図９（ｂ）は従来のコンデンサ用タブ端子の収納容器９２０にコンデンサ用タブ端子１０を収納した後、蓋９０２を被着した状態を示す図である。従来のコンデンサ用タブ端子の収納容器９２０は、図９（ａ）に示すように、内底面が傾斜面に形成された収納部９００と、収納部９００の開口部を覆うように被着される蓋体９０２とから構成される。収納部９００には、スリット等が形成されておらず、図９（ｂ）に示すように収納部９００の開口部に蓋体９０２を被着することにより、収納部９００内を気密状態に保持できる。   FIG. 9 is a view for explaining a conventional container tab terminal storage container 920 for a capacitor. FIG. 9A is a view showing a state before the lid 902 is attached after the capacitor tab terminal 10 is stored in the conventional capacitor tab terminal storage container 920, and FIG. It is a figure which shows the state which covered the cover 902 after accommodating the tab terminal 10 for capacitors in the storage container 920 of the tab terminal for capacitors. As shown in FIG. 9A, the conventional container tab terminal storage container 920 is attached so as to cover the storage portion 900 whose inner bottom surface is formed as an inclined surface and the opening of the storage portion 900. And a lid 902. The storage portion 900 is not formed with a slit or the like, and the inside of the storage portion 900 is kept airtight by attaching a lid 902 to the opening of the storage portion 900 as shown in FIG. 9B. it can.

ところで、複数本のコンデンサ用タブ端子１０を収納部９００に収納する際には、コンデンサ用タブ端子１０の収納部９００からの取り出しの自動化に伴い、コンデンサ用タブ端子１０の扁平部１６が同一方向を向いて収納されていることが要請されている。このため、図９に示すように、複数本のコンデンサ用タブ端子１０の各々を扁平部１６側が収納部９００の内底面を形成する傾斜面の低部側に位置するように載置して収納すると、扁平部１６側がリード線１２の端部側よりも厚い積層体が形成され、収納部９００に収納できるコンデンサ用タブ端子１０の本数に限界が存在する。   By the way, when the plurality of capacitor tab terminals 10 are stored in the storage portion 900, the flat portions 16 of the capacitor tab terminals 10 are aligned in the same direction as the capacitor tab terminal 10 is automatically removed from the storage portion 900. It is requested to be stored facing. For this reason, as shown in FIG. 9, each of the plurality of capacitor tab terminals 10 is placed and stored such that the flat portion 16 side is positioned on the lower side of the inclined surface that forms the inner bottom surface of the storage portion 900. Then, a laminated body having a flat portion 16 side thicker than the end portion side of the lead wire 12 is formed, and there is a limit to the number of capacitor tab terminals 10 that can be stored in the storage portion 900.

しかも、図９（ｂ）に示すように複数本のコンデンサ用タブ端子１０が積層されて気密状態で収納された収納容器を搬送に供すると、コンデンサ用タブ端子１０同士が絡み合って取り出し難くいことがある。このようにコンデンサ用タブ端子１０同士が絡み合った状態で、コンデンサ用タブ端子１０を無理に取り出すと、コンデンサ用タブ端子１０に曲がりが発生することがある。特に、コンデンサ用タブ端子１０を自動取り出しする場合には、このようなコンデンサ用タブ端子１０同士の絡み合いを防止することが要請されている。   Moreover, as shown in FIG. 9B, when a storage container in which a plurality of capacitor tab terminals 10 are stacked and stored in an airtight state is used for transportation, the capacitor tab terminals 10 are entangled and difficult to take out. There is. If the capacitor tab terminal 10 is forcibly taken out in a state where the capacitor tab terminals 10 are intertwined as described above, the capacitor tab terminal 10 may be bent. In particular, when the capacitor tab terminal 10 is automatically taken out, it is required to prevent such entanglement between the capacitor tab terminals 10.

そこで、本考案は、搬送中のコンデンサ用タブ端子同士の絡み合いを効果的に防止し、かつ、従来よりも多数本のコンデンサ用タブ端子を収納できるコンデンサ用タブ端子の収納容器を提供することを目的とする。   Accordingly, the present invention provides a capacitor tab terminal storage container that can effectively prevent entanglement between capacitor tab terminals being transported and can store a larger number of capacitor tab terminals than before. Objective.

本考案者は、前記目的を達成するには、収納容器に所定本数のコンデンサ用タブ端子を収納し、扁平部側がリード線の一端部側よりも厚い積層体が形成されたとき、積層体を形成するコンデンサ用タブ端子が搬送中の振動等で移動しないように、蓋体に収納容器内の空間部を塞ぐ構造物を形成し、かつこの構造物内に所定本数のコンデンサ用タブ端子を収納できれば、従来よりも多数本のコンデンサ用タブ端子を収納できると考え検討した結果、本考案に到達した。   In order to achieve the above-mentioned object, the present inventor stores a predetermined number of capacitor tab terminals in a storage container, and when the laminated body is formed so that the flat part side is thicker than the one end part side of the lead wire, A structure that closes the space in the storage container is formed on the lid so that the capacitor tab terminals to be formed do not move due to vibration during transportation, etc., and a predetermined number of capacitor tab terminals are stored in the structure. As a result of studying that it would be possible to accommodate a larger number of capacitor tab terminals than before, the present invention was reached.

［１］本考案のコンデンサ用タブ端子の収納容器は、リード線の一端部と前記リード線の直径よりも幅広の平板状の扁平部とが前記リード線よりも太い丸棒部で連結された多数本のコンデンサ用タブ端子を収納するコンデンサ用タブ端子の収納容器であって、前記収納容器は、前記コンデンサ用タブ端子を収納する第１収納部の内底面が傾斜面に形成された外パックと、前記第１収納部内に前記傾斜面の低部側に前記扁平部側が位置するように所定本数の前記コンデンサ用タブ端子を収納して形成した第１積層体の上面に倣う形状の外底面の第２収納部が設けられ、前記第１収納部内に前記第２収納部が挿入されて、前記第１収納部内が気密状態となったとき、前記第１積層体の上面に前記第２収納部の前記外底面が当接する内パックと、前記第２収納部内に、前記扁平部側が所定方向を向いた所定本数の前記コンデンサ用タブ端子を収納して形成した第２積層体の上面に倣う形状の外底面の突出部が設けられ、前記第２収納部内に前記突出部が挿入されて、前記第２収納部内が気密状態となったとき、前記第２積層体の上面に前記突出部の前記外底面が当接する蓋パックとを備えることを特徴とするものである。   [1] In the storage container for a capacitor tab terminal of the present invention, one end of a lead wire and a flat plate-like flat portion wider than the diameter of the lead wire are connected by a round bar portion thicker than the lead wire. A storage container for a capacitor tab terminal for storing a plurality of capacitor tab terminals, wherein the storage container is an outer pack in which an inner bottom surface of a first storage portion for storing the capacitor tab terminal is formed on an inclined surface. And an outer bottom surface that follows the upper surface of the first laminate formed by housing a predetermined number of the capacitor tab terminals so that the flat portion side is positioned on the lower side of the inclined surface in the first housing portion. The second storage portion is provided, and when the second storage portion is inserted into the first storage portion and the inside of the first storage portion is in an airtight state, the second storage portion is provided on the upper surface of the first stacked body. An inner pack against which the outer bottom surface of the part contacts, In the second storage portion, there is provided a protrusion on the outer bottom surface shaped like the upper surface of the second laminate formed by storing a predetermined number of the capacitor tab terminals with the flat portion side facing a predetermined direction, A lid pack in which the outer bottom surface of the projecting portion abuts on the upper surface of the second laminated body when the projecting portion is inserted into the second housing portion and the second housing portion is in an airtight state. It is a feature.

本考案のコンデンサ用タブ端子の収納容器によれば、外パックの第１収納部と内パックの第２収納部とに所定本数のコンデンサ用タブ端子を収納できることから、外パックの第１収納部のみに所定本数のコンデンサ用タブ端子を収納する場合に比較して、多数本のコンデンサ用タブ端子を気密状態で収納できる。   According to the container tab terminal storage container of the present invention, since a predetermined number of capacitor tab terminals can be stored in the first storage part of the outer pack and the second storage part of the inner pack, the first storage part of the outer pack As compared with a case where a predetermined number of capacitor tab terminals are stored only in this manner, a large number of capacitor tab terminals can be stored in an airtight state.

また、外パックの第１収納部内に収納したコンデンサ用タブ端子から成る第１積層体の上面は、第１収納部内に挿入された内パックの第２収納部の外底面と当接しており、第１積層体中のコンデンサ用タブ端子は第２収納部の外底面で拘束状態にある。このため、搬送等の際に、収納容器に振動等が加えられても、第１積層体中のコンデンサ用タブ端子は移動するこがなく相互の絡み合いを防止できる。   Further, the upper surface of the first laminated body composed of the capacitor tab terminals stored in the first storage portion of the outer pack is in contact with the outer bottom surface of the second storage portion of the inner pack inserted into the first storage portion, The capacitor tab terminal in the first laminated body is in a restrained state on the outer bottom surface of the second storage portion. For this reason, even if a vibration etc. are added to a storage container at the time of conveyance etc., the tab terminal for capacitors in the 1st laminated body does not move, but can prevent mutual entanglement.

更に、内パックの第２収納部内に収納されたコンデンサ用タブ端子から成る第２積層体の上面は、第２収納部内に挿入された蓋パックの突出部の外底面と当接しており、第２積層体中のコンデンサ用タブ端子は突出部の外底面で拘束状態にあることから、搬送等の際に、収納容器に振動等が加えられても、第２積層体中のコンデンサ用タブ端子は移動するこがなく相互の絡み合いを防止できる。   Further, the upper surface of the second laminate including the capacitor tab terminals housed in the second housing portion of the inner pack is in contact with the outer bottom surface of the protruding portion of the lid pack inserted into the second housing portion, 2 Capacitor tab terminals in the laminated body are in a restrained state on the outer bottom surface of the projecting portion. Therefore, even if vibration is applied to the storage container during transportation, etc., the tab terminal for capacitors in the second laminated body Can prevent mutual entanglement without moving.

その結果、本考案のコンデンサ用タブ端子の収納容器によれば、収納されたコンデンサ用タブ端子を拘束状態で搬送できることから、搬送中のコンデンサ用タブ端子同士の絡み合いを効果的に防止し、かつ、従来よりも多数本のコンデンサ用タブ端子を収納できる。
また、収納容器からのコンデンサ用タブ端子の取り出しを簡単に行うことができ、その自動化を図ることができるという効果もある。 As a result, according to the container tab terminal storage container of the present invention, since the stored capacitor tab terminal can be transported in a restrained state, it effectively prevents entanglement between the capacitor tab terminals being transported, and A larger number of capacitor tab terminals can be accommodated than before.
Further, it is possible to easily take out the capacitor tab terminal from the storage container, and there is an effect that the automation can be achieved.

なお、本明細書において、「傾斜面の低部側」とは、第１収納部を重力方向に沿って配置した場合の内底面の深さ位置が最も深くなる側をいう。   In the present specification, the “lower side of the inclined surface” refers to the side where the depth position of the inner bottom surface becomes deepest when the first storage portion is arranged along the direction of gravity.

［２］本考案においては、前記第１積層体が、その上面に位置する前記コンデンサ用タブ端子の一端部と扁平部とが同一高さとなる平坦面となるように構成され、前記第２収納部の前記外底面が平坦面であることが好ましい。   [2] In the present invention, the first stacked body is configured such that one end portion of the capacitor tab terminal located on the upper surface of the first laminated body and the flat portion have a flat surface, and the second storage. The outer bottom surface of the part is preferably a flat surface.

このような構成とすることにより、第２収納部の形状を簡単化でき、かつ、第１積層体の上面と第２収納部の外底面とを全面に亘って当接状態として、第１積層体中のコンデンサ用タブ端子を確実に拘束できる。   By adopting such a configuration, the shape of the second storage portion can be simplified, and the upper surface of the first stacked body and the outer bottom surface of the second storage portion are brought into contact with each other over the entire first stack. Capacitor tab terminals in the body can be securely restrained.

なお、本明細書において、「平坦面」とは、コンデンサ用タブ端子の扁平部側の丸棒部がリード線よりも太いことに起因して、最上位に位置するコンデンサ用タブ端子の一端部と扁平部とが同一高さとなったコンデンサ用タブ端子の上面のことをいう。   In this specification, the term “flat surface” refers to one end portion of the capacitor tab terminal located at the uppermost position because the round bar on the flat portion side of the capacitor tab terminal is thicker than the lead wire. And the flat surface of the capacitor tab terminal having the same height.

［３］本考案においては、前記第２積層体は、その上面が傾斜面となるように構成され、前記突出部の前記外底面が傾斜面に形成されていることが好ましい。   [3] In the present invention, it is preferable that the second laminated body is configured such that an upper surface thereof is an inclined surface, and the outer bottom surface of the protruding portion is formed on the inclined surface.

このような構成とすることにより、第２積層体の上面と突出部の外底面とを全面に亘って当接状態として、第２積層体中のコンデンサ用タブ端子を確実に拘束できる。   By setting it as such a structure, the upper surface of a 2nd laminated body and the outer bottom face of a protrusion part are made into contact state over the whole surface, and the tab terminal for capacitors in a 2nd laminated body can be restrained reliably.

［４］本考案においては、前記外パックに複数の前記第１収納部が形成され、前記第１収納部の各々に対応して前記内パックの前記第２収納部及び前記蓋パックの前記突出部が形成されていることが好ましい。   [4] In the present invention, a plurality of the first storage portions are formed in the outer pack, and the second storage portion of the inner pack and the protrusion of the lid pack correspond to each of the first storage portions. It is preferable that the part is formed.

このような構成とすることにより、コンデンサ用タブ端子の相互の絡み合いを防止しつつ搬送できる。   With such a configuration, the capacitor tab terminals can be conveyed while preventing mutual entanglement.

［５］本考案においては、前記蓋パックの前記突出部が中空体であることが好ましい。   [5] In the present invention, it is preferable that the protruding portion of the lid pack is a hollow body.

このような構成とすることにより、突出部の強度を維持しつつ軽量化することができ、搬送中の振動等による突出部の変形を防止し、第１積層体中のコンデンサ用タブ端子を更に一層確実に拘束できる。   By adopting such a configuration, the weight of the protruding portion can be reduced while maintaining the strength of the protruding portion, the deformation of the protruding portion due to vibration during transportation and the like is prevented, and the capacitor tab terminal in the first laminate is further provided. It can be restrained more reliably.

［６］本考案においては、前記蓋パックの前記突出部が第３収納部を構成し、前記第３収納部内に、前記扁平部側が所定方向に向いて所定本数の前記コンデンサ用タブ端子を収納して形成した第３積層体の上面の形状に倣う形状の外底面の凹部が設けられ、前記第３収納部内に前記凹部が挿入されて、前記第３収納部内が気密状態となったとき、前記第３積層体の上面に前記凹部の前記外底面が当接する蓋体を更に備えることが好ましい。   [6] In the present invention, the protruding portion of the lid pack constitutes a third storage portion, and a predetermined number of the capacitor tab terminals are stored in the third storage portion with the flat portion side facing a predetermined direction. When the concave portion of the outer bottom surface having a shape following the shape of the upper surface of the third laminate formed is provided, and when the concave portion is inserted into the third storage portion, the inside of the third storage portion becomes airtight. It is preferable to further include a lid body that abuts the outer bottom surface of the concave portion on the upper surface of the third laminated body.

このような構成とすることにより、更に多数本のコンデンサ用タブ端子を、相互の絡み合い防止しつつ搬送できる。   With such a configuration, a larger number of capacitor tab terminals can be conveyed while preventing mutual entanglement.

［７］本考案においては、前記第３積層体は、その上面が位置する前記コンデンサ用タブ端子の一端部と扁平部とが同一高さとなる平坦面となるように構成され、前記蓋体の前記凹部の外底面が平坦面であることが好ましい。   [7] In the present invention, the third laminated body is configured such that one end portion of the capacitor tab terminal and the flat portion of which the upper surface is located are a flat surface having the same height, The outer bottom surface of the recess is preferably a flat surface.

このような構成とすることにより、第３積層体の上面と凹部の外底面とを全面に亘って当接状態として、第３積層体中のコンデンサ用タブ端子を確実に拘束できる。   By setting it as such a structure, the upper surface of a 3rd laminated body and the outer bottom face of a recessed part are made into a contact state over the whole surface, and the tab terminal for capacitors in a 3rd laminated body can be restrained reliably.

［８］本考案においては、前記外パックに複数の前記第１収納部が形成され、前記第１収納部の各々に対応して前記内パックの前記第２収納部、前記蓋パックの前記第３収納部及び前記蓋体の前記凹部が形成されていることが好ましい。   [8] In the present invention, a plurality of the first storage portions are formed in the outer pack, and the second storage portion of the inner pack and the first of the lid pack correspond to each of the first storage portions. It is preferable that the recessed part of 3 accommodating parts and the said cover body is formed.

このような構成とすることにより、一の収納容器で更に多数本のコンデンサ用タブ端子を、相互の絡み合いを防止しつつ搬送できることができる。   With such a configuration, a large number of capacitor tab terminals can be conveyed in one storage container while preventing mutual entanglement.

［９］本考案においては、前記収納容器が射出成形で形成されていることが好ましい。   [9] In the present invention, the storage container is preferably formed by injection molding.

このような構成とすることにより、高強度の収納容器を簡単に製造できる。   By setting it as such a structure, a high intensity | strength storage container can be manufactured easily.

実施態様１に係るコンデンサ用タブ端子の収納容器を構成する外パック１００、内パック及び蓋パック３００の各々の正面図及び側面図である。3 is a front view and a side view of each of an outer pack 100, an inner pack, and a lid pack 300 that constitute a storage container for a capacitor tab terminal according to Embodiment 1. FIG. 外パック１００、内パック２００及び蓋パック３００の各々の縦断面図である。3 is a longitudinal sectional view of each of an outer pack 100, an inner pack 200, and a lid pack 300. FIG. 外パック１００、内パック２００及び蓋パック３００を組み合わせてなる実施態様１に係るコンデンサ用タブ端子の収納容器２０の縦断面図である。FIG. 3 is a longitudinal sectional view of the storage container 20 for the capacitor tab terminal according to the first embodiment in which the outer pack 100, the inner pack 200, and the lid pack 300 are combined. 外パック１００内に所定本数のコンデンサ用タブ端子１０を収納した状態を説明する説明図である。FIG. 6 is an explanatory view illustrating a state where a predetermined number of capacitor tab terminals 10 are housed in the outer pack 100. 外パック１００に挿入した内パック２００内に所定本数のコンデンサ用タブ端子１０を収納した状態を説明する説明図である。It is explanatory drawing explaining the state which accommodated the predetermined number of capacitor | condenser tab terminals 10 in the inner pack 200 inserted in the outer pack 100. FIG. 実施態様２に係るコンデンサ用タブ端子の収納容器２２の縦断面図である。6 is a longitudinal sectional view of a storage container 22 for a capacitor tab terminal according to Embodiment 2. FIG. 実施態様２に係るコンデンサ用タブ端子の収納容器２２内に所定本数のコンデンサ用タブ端子１０を収納した状態を説明する説明図である。FIG. 10 is an explanatory diagram for explaining a state in which a predetermined number of capacitor tab terminals 10 are stored in a capacitor tab terminal storage container 22 according to Embodiment 2; コンデンサ用タブ端子１０を説明するために示す図である。It is a figure shown in order to demonstrate the tab terminal 10 for capacitors. 従来のコンデンサ用タブ端子の収納容器９２０を説明するために示す図である。It is a figure shown in order to demonstrate the storage container 920 of the conventional tab terminal for capacitors.

以下、本考案のコンデンサ用タブ端子の収納容器を図に示す実施態様に基づいて詳細に説明する。   Hereinafter, the storage container for the capacitor tab terminal of the present invention will be described in detail based on the embodiment shown in the drawings.

［実施態様１］
図１は、実施態様１に係るコンデンサ用タブ端子の収納容器を構成する外パック１００、内パック及び蓋パック３００の各々の正面図及び側面図である。図１（ａ）−１は外パック１００の正面図であり、図１（ｂ）−１は外パック１００の側面図である。図１（ａ）−２は内パック２００の正面図であり、図１（ｂ）−２は内パック２００の側面図である。図１（ａ）−３は蓋パック３００の正面図であり、図１（ｂ）−３は蓋パック３００の側面図である。外パック１００、内パック２００及び蓋パック３００は、ポリプロピレン（ＰＰ）・ポリスチレン（ＰＳ）・ポリエチレンテレフタレート（ＰＥＴ）などの透明・半透明の樹脂・プラスチックスで形成されており、射出成形で形成されている。
なお、外パック１００、内パック２００及び蓋パック３００は、真空・圧空成形で形成されていてもよい。 [Embodiment 1]
FIG. 1 is a front view and a side view of each of an outer pack 100, an inner pack, and a lid pack 300 that constitute a storage container for a capacitor tab terminal according to the first embodiment. 1A is a front view of the outer pack 100, and FIG. 1B is a side view of the outer pack 100. 1A is a front view of the inner pack 200, and FIG. 1B-2 is a side view of the inner pack 200. FIG. 1A is a front view of the lid pack 300, and FIG. 1B is a side view of the lid pack 300. The outer pack 100, the inner pack 200 and the lid pack 300 are made of transparent / translucent resin / plastics such as polypropylene (PP) / polystyrene (PS) / polyethylene terephthalate (PET), and are formed by injection molding. ing.
The outer pack 100, the inner pack 200, and the lid pack 300 may be formed by vacuum / pressure forming.

図１に示す外パック１００は、図１（ａ）−１に示すように、長方形状の鍔部１０２の長手方向に複数の第１収納部１０４が形成されている。第１収納部１０４は、図１（ｂ）−１に示すように、鍔部１０２から下方に突出されており、その外底面が傾斜面に形成されている。この第１収納部１０４の各々に対応して、図１に示す内パック２００の第２収納部２０４が形成されている。第２収納部２０４の各々は、図１（ａ）−２に示すように、長方形状の鍔部２０２の長手方向に形成されている。第２収納部２０４は、図１（ｂ）−２に示すように、鍔部２０２から下方に突出されており、その外底面が平坦面に形成されている。第２収納部２０４の外側面には、強度向上用の縦リブ２０６が形成されている。この第２収納部２０４の各々に対応して、図１に示す蓋パック３００の突出部３０４が突出している。突出部３０４の各々は、図１（ａ）−３に示すように、長方形状の鍔部３０２の長手方向に形成されている。突出部３０４は、図１（ｂ）−３に示すように、鍔部３０２から下方に突出されており、その外底面が傾斜面に形成されている。   As shown in FIG. 1A, the outer pack 100 shown in FIG. 1 has a plurality of first storage portions 104 formed in the longitudinal direction of the rectangular flange portion 102. As shown in FIG. 1 (b)-1, the first storage portion 104 protrudes downward from the flange portion 102, and its outer bottom surface is formed as an inclined surface. Corresponding to each of the first storage portions 104, the second storage portion 204 of the inner pack 200 shown in FIG. 1 is formed. Each of the 2nd accommodating part 204 is formed in the longitudinal direction of the rectangular collar part 202, as shown to Fig.1 (a) -2. As shown in FIG. 1B-2, the second storage portion 204 protrudes downward from the flange portion 202, and its outer bottom surface is formed as a flat surface. A longitudinal rib 206 for improving the strength is formed on the outer side surface of the second storage portion 204. Corresponding to each of the second storage portions 204, the protruding portion 304 of the lid pack 300 shown in FIG. Each of the protrusions 304 is formed in the longitudinal direction of the rectangular flange 302 as shown in FIG. As shown in FIG. 1 (b) -3, the protruding portion 304 protrudes downward from the flange portion 302, and its outer bottom surface is formed as an inclined surface.

図２は、外パック１００、内パック２００及び蓋パック３００の各々の縦断面図である。図２（ａ）は外パック１００の縦断面図であり、図２（ｂ）は内パック２００の縦断面図であり、図２（ｃ）は蓋パック３００の縦断面図である。
外パック１００の第１収納部１０４は、図２（ａ）に示すように、内面が平滑面に形成されており、その開口縁に沿って鍔部１０２が下向きのコ字状に曲折されて形成されている。更に、第１収納部１０４の内底面も、その外底面と同様に傾斜面に形成されている。
内パック２００の第２収納部２０４は、図２（ｂ）に示すように、内面は平滑面であって、その開口縁に沿って鍔部２０２が下向きのコ字状に曲折されて形成されている。鍔部２０２のコ字状部は、第２収納部２０４が第１収納部１０４内に挿入されたとき、第１収納部１０４の鍔部１０２に挿入される部分である。この第２収納部２０４の内底面は、外底面と同様に平坦面に形成されている。
また、蓋パック３００の突出部３０４は、図２（ｃ）に示すように、断面形状が三角形の中空体であって、その外底面は平滑な傾斜面に形成されている。この突出部３０４の上面周縁に沿って形成された鍔部３０２は、下向きのコ字状に曲折されて形成されている。鍔部３０２のコ字状部は、突出部３０４が第２収納部２０４内に挿入されたとき、第２収納部２０４の鍔部２０２に挿入される部分である。 FIG. 2 is a longitudinal sectional view of each of the outer pack 100, the inner pack 200 and the lid pack 300. 2A is a longitudinal sectional view of the outer pack 100, FIG. 2B is a longitudinal sectional view of the inner pack 200, and FIG. 2C is a longitudinal sectional view of the lid pack 300. FIG.
As shown in FIG. 2A, the first storage portion 104 of the outer pack 100 has an inner surface formed as a smooth surface, and the collar portion 102 is bent in a downward U-shape along the opening edge. Is formed. Furthermore, the inner bottom surface of the first storage portion 104 is also formed with an inclined surface, like the outer bottom surface.
As shown in FIG. 2B, the second storage portion 204 of the inner pack 200 has a smooth inner surface and is formed by bending the flange portion 202 into a downward U-shape along the opening edge. ing. The U-shaped portion of the collar portion 202 is a portion that is inserted into the collar portion 102 of the first storage portion 104 when the second storage portion 204 is inserted into the first storage portion 104. The inner bottom surface of the second storage portion 204 is formed as a flat surface like the outer bottom surface.
Further, as shown in FIG. 2 (c), the protruding portion 304 of the lid pack 300 is a hollow body having a triangular cross-sectional shape, and the outer bottom surface is formed into a smooth inclined surface. The flange 302 formed along the upper surface periphery of the protrusion 304 is formed by bending in a downward U-shape. The U-shaped portion of the flange 302 is a portion that is inserted into the flange 202 of the second storage portion 204 when the protruding portion 304 is inserted into the second storage portion 204.

このような図１〜図２に示す外パック１００、内パック２００及び蓋パック３００が組み合わせられて図３に示すコンデンサ用タブ端子の収納容器２０が形成される。図３は、外パック１００、内パック２００及び蓋パック３００を組み合わせてなる実施態様１に係るコンデンサ用タブ端子の収納容器２０の縦断面図である。つまり、外パック１００の第１収納部１０４に挿入した内パック２００の第２収納部２０４内に、蓋パック３００の突出部３０４を挿入することにより、図３に示すコンデンサ用タブ端子の収納容器２０とすることができる。このようにして組み立てられるコンデンサ用タブ端子の収納容器２０内に、図４及び図５に示すように、所定本数のコンデンサ用タブ端子１０が収納される。図４は、外パック１００内に所定本数のコンデンサ用タブ端子１０を収納した状態を説明する説明図である。図４（ａ）〜図４（ｃ）は外パック１００内にコンデンサ用タブ端子１０を収納する際の工程図である。図５は、外パック１００に挿入した内パック２００内に所定本数のコンデンサ用タブ端子１０を収納した状態を説明する説明図である。図５（ａ）〜図５（ｃ）は内パック２００内にコンデンサ用タブ端子１０を収納する際の工程図である。   The outer pack 100, the inner pack 200, and the lid pack 300 shown in FIGS. 1 to 2 are combined to form the capacitor tab terminal storage container 20 shown in FIG. FIG. 3 is a longitudinal sectional view of the capacitor tab terminal storage container 20 according to the first embodiment, which is formed by combining the outer pack 100, the inner pack 200, and the lid pack 300. That is, by inserting the protruding portion 304 of the lid pack 300 into the second storage portion 204 of the inner pack 200 inserted into the first storage portion 104 of the outer pack 100, the container tab terminal storage container shown in FIG. 20 can be set. As shown in FIGS. 4 and 5, a predetermined number of capacitor tab terminals 10 are accommodated in the container tab terminal storage container 20 assembled in this manner. FIG. 4 is an explanatory view illustrating a state where a predetermined number of capacitor tab terminals 10 are housed in the outer pack 100. 4A to 4C are process diagrams when the capacitor tab terminal 10 is housed in the outer pack 100. FIG. FIG. 5 is an explanatory view illustrating a state where a predetermined number of capacitor tab terminals 10 are housed in the inner pack 200 inserted into the outer pack 100. FIGS. 5A to 5C are process diagrams when the capacitor tab terminal 10 is housed in the inner pack 200. FIG.

先ず図４（ａ）に示すように、外パック１００の第１収納部１０４内に所定本数のコンデンサ用タブ端子１０を収納する。その際に、コンデンサ用タブ端子１０の各々を、扁平部１６側が第１収納部１０４内の傾斜面の低部側に位置するように収納する。収納されたコンデンサ用タブ端子１０が所定方向を向いて収納されていることにより、コンデンサ用タブ端子１０の取り出し作業をスムーズに行うことができる。このように第１収納部１０４の内底面に沿って所定本数のコンデンサ用タブ端子１０を収納すると、コンデンサ用タブ端子１０が扁平部１６側の丸棒部１４がリード線１２よりも太いことから、第１収納部１０４の内底面に形成される第１積層体１０６の扁平部１６側がリード線１２側よりも次第に厚くなり、上面に位置するコンデンサ用タブ端子１０の一端部と扁平部１６とが同一高さとなる、上面が平坦面の第１積層体１０６が形成される。   First, as shown in FIG. 4A, a predetermined number of capacitor tab terminals 10 are stored in the first storage portion 104 of the outer pack 100. At that time, each of the capacitor tab terminals 10 is stored such that the flat portion 16 side is positioned on the lower side of the inclined surface in the first storage portion 104. Since the stored capacitor tab terminal 10 is stored in a predetermined direction, the capacitor tab terminal 10 can be taken out smoothly. Thus, when a predetermined number of capacitor tab terminals 10 are stored along the inner bottom surface of the first storage portion 104, the round tab portion 14 on the flat portion 16 side of the capacitor tab terminal 10 is thicker than the lead wire 12. The flat portion 16 side of the first laminated body 106 formed on the inner bottom surface of the first storage portion 104 becomes gradually thicker than the lead wire 12 side, and one end of the capacitor tab terminal 10 located on the upper surface and the flat portion 16 Are formed at the same height, and the first laminated body 106 having a flat upper surface is formed.

このように上面が平坦面の第１積層体１０６が形成された外パック１００の第１収納部１０４内には、図４（ｂ）に示すように内パック２００の第２収納部２０４が挿入される。この第２収納部２０４の挿入の際に、第２収納部２０４の外側面に形成された縦リブ２０６により第１収納部１０４内への第２収納部２０４の挿入をスムーズに行うことができる。第１収納部１０４内に挿入された第２収納部２０４の外底面の平坦面は、図４（ｃ）に示すように第１収納部１０４内に形成された第１積層体１０６の上面の平坦面の全面に当接しつつ、第２収納部２０４の鍔部２０２のコ字状部は、第１収納部１０４の鍔部１０２に挿入される。このように第２収納部２０４の外底面に上面の全面が当接した第１収納部１０４内の第１積層体１０６を形成するコンデンサ用タブ端子１０の各々は、第１収納部１０４内に気密状態で収納されつつ、第２収納部２０４の外底面により拘束される。   As shown in FIG. 4B, the second storage portion 204 of the inner pack 200 is inserted into the first storage portion 104 of the outer pack 100 in which the first laminated body 106 having a flat upper surface is formed. Is done. When the second storage unit 204 is inserted, the second storage unit 204 can be smoothly inserted into the first storage unit 104 by the vertical ribs 206 formed on the outer surface of the second storage unit 204. . The flat surface of the outer bottom surface of the second storage unit 204 inserted into the first storage unit 104 is the top surface of the first stacked body 106 formed in the first storage unit 104 as shown in FIG. The U-shaped portion of the flange portion 202 of the second storage portion 204 is inserted into the flange portion 102 of the first storage portion 104 while being in contact with the entire surface of the flat surface. As described above, each of the capacitor tab terminals 10 forming the first laminated body 106 in the first storage unit 104 whose entire upper surface is in contact with the outer bottom surface of the second storage unit 204 is disposed in the first storage unit 104. While being stored in an airtight state, it is restrained by the outer bottom surface of the second storage portion 204.

図４（ｃ）に示すように第１収納部１０４内に挿入された第２収納部２０４内には、更に図５（ａ）に示すように所定本数のコンデンサ用タブ端子１０を収納する。その際に、コンデンサ用タブ端子１０の各々は、扁平部１６側が所定方向を向くように収納される。このため、第２収納部２０４の平坦な内底面上に所定本数のコンデンサ用タブ端子１０を載置して形成された第２積層体２０６の上面は傾斜面となっている。このような第２積層体２０６が内部に形成された第２収納部２０４には、図５（ｂ）に示すように蓋パック３００の突出部３０４が挿入され、図５（ｃ）に示すように突出部３０４の外底面の傾斜面が第２積層体２０６の上面の傾斜面の全面と当接しつつ、突出部３０４の鍔部３０２のコ字状部が第２収納部１０４の鍔部２０２に挿入される。このように突出部３０４の外底面に上面の全面が当接した第２収納部１０４内の第２積層体２０６を形成するコンデンサ用タブ端子１０の各々は気密状態で収納されつつ、突出部３０４の傾斜面により拘束されている。また、突出部３０４は中空体であることから、強度が向上されており、突出部３０４の傾斜面と第２積層体２０６の傾斜面とが当接しても、突出部３０４は歪むことがなく、第２積層体２０６を形成するコンデンサ用タブ端子１０を確実に拘束できる。   As shown in FIG. 4C, a predetermined number of capacitor tab terminals 10 are further housed in the second housing portion 204 inserted into the first housing portion 104, as shown in FIG. 5A. At that time, each of the capacitor tab terminals 10 is accommodated so that the flat portion 16 side faces a predetermined direction. For this reason, the upper surface of the second laminated body 206 formed by placing the predetermined number of capacitor tab terminals 10 on the flat inner bottom surface of the second storage portion 204 is an inclined surface. As shown in FIG. 5B, the protruding portion 304 of the lid pack 300 is inserted into the second storage portion 204 in which the second stacked body 206 is formed, as shown in FIG. The U-shaped portion of the flange 302 of the protrusion 304 is the flange 202 of the second storage portion 104 while the inclined surface of the outer bottom surface of the protrusion 304 is in contact with the entire inclined surface of the upper surface of the second stacked body 206. Inserted into. In this way, each of the capacitor tab terminals 10 forming the second stacked body 206 in the second storage portion 104 whose upper surface is in contact with the outer bottom surface of the protrusion 304 is stored in an airtight state, while the protrusion 304. It is restrained by the inclined surface. Further, since the protruding portion 304 is a hollow body, the strength is improved, and even if the inclined surface of the protruding portion 304 and the inclined surface of the second laminated body 206 come into contact with each other, the protruding portion 304 is not distorted. The capacitor tab terminal 10 forming the second stacked body 206 can be reliably restrained.

図５（ｃ）に示す収納容器は、第１収納部１０４内に収納された第１積層体１０６及び第２収納部２０４内に収納された第２積層体２０６の各々を形成するコンデンサ用タブ端子１０は、気密状態で収納されつつ、第２収納部２０４の外底面や突出部３０４の傾斜面により拘束されている。このためコンデンサ用タブ端子１０を輸出等の長距離搬送に供しても、微細粒子の進入等を防止しつつ、搬送中の振動等によりコンデンサ用タブ端子１０が動いて相互に絡み合うことを防止して、収納した当初の状態を保持できる。従って、収納容器からコンデンサ用タブ端子１０を取り出すとき、コンデンサ用タブ端子１０を一本一本簡単に取り出すことができ、取出しの自動化に資することができる。
また、所定本数のコンデンサ用タブ端子１０を第１収納部１０４と第２収納部２０４とに収納できるので、第１収納部１０４のみに収納した場合よりもコンデンサ用タブ端子１０の収納本数を増加できる。 The storage container shown in FIG. 5C is a capacitor tab that forms each of the first stacked body 106 stored in the first storage portion 104 and the second stacked body 206 stored in the second storage portion 204. The terminal 10 is constrained by the outer bottom surface of the second storage portion 204 and the inclined surface of the protruding portion 304 while being stored in an airtight state. For this reason, even if the capacitor tab terminal 10 is used for long-distance conveyance such as export, the entry of the fine particles is prevented and the capacitor tab terminal 10 is prevented from moving and entangled due to vibration during conveyance. Thus, it is possible to maintain the original state of storage. Therefore, when taking out the capacitor tab terminals 10 from the storage container, the capacitor tab terminals 10 can be easily taken out one by one, which can contribute to automation of the take-out.
In addition, since the predetermined number of capacitor tab terminals 10 can be stored in the first storage portion 104 and the second storage portion 204, the number of capacitor tab terminals 10 stored can be increased as compared with the case where the capacitor tab terminals 10 are stored only in the first storage portion 104. it can.

［実施態様２］
図１〜図５に示す実施態様１では、蓋パック３００の突出部３０４が中空体であったが、図６に示すように蓋パック３００の突出部３０４を、所定本数のコンデンサ用タブ端子１０を収納できる第３収納部３０８としたコンデンサ用タブ端子の収納容器２２であってもよい。このコンデンサ用タブ端子の収納容器２２を構成する外パック１００及び内パック２００は、図１〜図５に示すコンデンサ用タブ端子の収納容器２０のものと同一であり、詳細な説明を省略する。図６に示す第３収納部３０８は、その開口縁に沿って鍔部３０４が形成されおり、その内底面が傾斜面に形成されている。このような第３収納部３０８には、図６に示すように蓋体４００に形成された外底面が平坦面の凹部４０４が挿入されてコンデンサ用タブ端子の収納容器２２が構成される。 [Embodiment 2]
In Embodiment 1 shown in FIGS. 1 to 5, the protrusion 304 of the lid pack 300 is a hollow body. However, as shown in FIG. 6, the protrusion 304 of the lid pack 300 is connected to a predetermined number of capacitor tab terminals 10. It may be the storage container 22 for the capacitor tab terminal as the third storage portion 308 capable of storing the battery. The outer pack 100 and the inner pack 200 constituting the capacitor tab terminal storage container 22 are the same as those of the capacitor tab terminal storage container 20 shown in FIGS. 1 to 5 and will not be described in detail. The third storage portion 308 shown in FIG. 6 has a flange portion 304 formed along an opening edge thereof, and an inner bottom surface thereof is formed as an inclined surface. As shown in FIG. 6, the concave portion 404 having a flat outer bottom surface formed on the lid 400 is inserted into the third storage portion 308 as described above, thereby forming the storage container 22 for the capacitor tab terminal.

図６に示すコンデンサ用タブ端子の収納容器２２内に所定本数のコンデンサ用タブ端子１０を収納した状態を図７に示す。コンデンサ用タブ端子の収納容器２２を構成する外パック１００の第１収納部１０４及び内パック２００の第２収納部２０４の各々に所定本数のコンデンサ用タブ端子１０を、収納した状態で、第３収納部３０８内に、図７に示すように、コンデンサ用タブ端子１０の各々を、扁平部１６側が第３収納部３０４内の傾斜面の低部側に位置するように収納して、図７に示す第３積層体３０６を形成する。第３積層体３０６は、その上面に位置するコンデンサ用タブ端子１０の扁平部１６とが同一高さとなり、上面が平坦面となる。   FIG. 7 shows a state where a predetermined number of capacitor tab terminals 10 are stored in the capacitor tab terminal storage container 22 shown in FIG. In a state where a predetermined number of capacitor tab terminals 10 are stored in each of the first storage portion 104 of the outer pack 100 and the second storage portion 204 of the inner pack 200 constituting the storage tab 22 for the capacitor tab terminal, As shown in FIG. 7, each of the capacitor tab terminals 10 is stored in the storage portion 308 such that the flat portion 16 side is positioned on the lower side of the inclined surface in the third storage portion 304. A third stacked body 306 shown in FIG. The third laminated body 306 has the same height as the flat portion 16 of the capacitor tab terminal 10 located on the upper surface thereof, and the upper surface is a flat surface.

このような第３積層体３０６が形成された第３収納部３０８には、図７に示すように蓋体４００に形成された底面が平坦面の凹部４０４が挿入され、第３積層体３０６の上面と凹部４０４の外底面とが当接する。このように蓋体４００の凹部４０４の外底面と上面の全面が当接する第３積層体３０６を形成するコンデンサ用タブ端子１０の各々は、気密状態で収納されつつ、凹部４０４の外底面に拘束される。   A recess 404 having a flat bottom surface formed on the lid 400 is inserted into the third storage unit 308 in which the third stacked body 306 is formed as shown in FIG. The upper surface and the outer bottom surface of the recess 404 abut. Thus, each of the capacitor tab terminals 10 forming the third laminated body 306 in which the outer bottom surface and the entire upper surface of the recess 404 of the lid body 400 are in contact with each other is restrained to the outer bottom surface of the recess 404 while being housed in an airtight state. Is done.

このような図６に示すコンデンサ用タブ端子の収納容器２２によれば、第１収納部１０４、第２収納部２０４及び第３収納部３０８に所定本数のコンデンサ用タブ端子１０を収納できるので、図３に示すコンデンサ用タブ端子の収納容器２０よりも収納できるコンデンサ用タブ端子１０を増加できる。また、図６に示すコンデンサ用タブ端子の収納容器２２では、第１収納部１０４の第１積層体１０６、第２収納部２０４の第２積層体２０６及び第３積層体３０６の各々を形成するコンデンサ用タブ端子１０を気密状態で収納されつつ、拘束されているから、輸出等の長距離の搬送に供しても、微細粒子の進入等を防止しつつ、搬送中の振動等によりコンデンサ用タブ端子１０が動いて相互に絡み合うことを防止して、収納した当初の状態を保持できる。
尚、図６に示すコンデンサ用タブ端子の収納容器２２は、図３に示すコンデンサ用タブ端子の収納容器２０よりも収納できるコンデンサ用タブ端子１０の本数が増加することから、第１収納部１０４、第２収納部２０４及び第３収納部３０８の強度を向上すべく、各収納部の壁厚等を厚くすることが好ましい。 According to the capacitor tab terminal storage container 22 shown in FIG. 6, a predetermined number of capacitor tab terminals 10 can be stored in the first storage portion 104, the second storage portion 204, and the third storage portion 308. It is possible to increase the number of capacitor tab terminals 10 that can be stored as compared with the container tab terminal storage container 20 shown in FIG. In the capacitor tab terminal storage container 22 shown in FIG. 6, the first stacked body 106 of the first storage portion 104, the second stacked body 206 of the second storage portion 204, and the third stacked body 306 are formed. Since the capacitor tab terminal 10 is stored and restrained in an airtight state, even if the capacitor tab terminal 10 is transported over a long distance such as export, the capacitor tab is prevented by the vibration during the transport while preventing the entry of fine particles. The terminal 10 can be prevented from moving and entangled with each other, and the initial state of storage can be maintained.
Note that the number of capacitor tab terminals 10 that can be stored in the capacitor tab terminal storage container 22 shown in FIG. 6 is larger than that of the capacitor tab terminal storage container 20 shown in FIG. In order to improve the strength of the second storage unit 204 and the third storage unit 308, it is preferable to increase the wall thickness of each storage unit.

本考案のコンデンサ用タブ端子の収納容器は、輸出等の長距離の搬送用として好適に用いることができる。   The capacitor tab terminal storage container of the present invention can be suitably used for long-distance transportation such as export.

１０・・・コンデンサ用タブ端子、１２・・・リード線、１４・・・丸棒部、１６・・・扁平部、２０，２２，９２０・・・コンデンサ用タブ端子の収納容器、１００・・・外パック、１０２，２０２，３０２，４０２・・・鍔部、１０４・・・第１収納部、１０６・・・第１積層体、２００・・・内パック、２０４・・・第２収納部、２０６・・・縦リブ、２０６・・・第２積層体、３００・・・蓋パック、３０４・・・突出部、３０６・・・第３積層体、３０８・・・第３収納部、４００，９０２・・・蓋体、４０４・・・凹部、９００・・・収納部   DESCRIPTION OF SYMBOLS 10 ... Capacitor tab terminal, 12 ... Lead wire, 14 ... Round bar part, 16 ... Flat part, 20, 22, 920 ... Storage container of capacitor tab terminal, 100 ... Outer pack, 102, 202, 302, 402 ... collar part, 104 ... first storage part, 106 ... first laminate, 200 ... inner pack, 204 ... second storage part , 206 ... vertical ribs, 206 ... second laminated body, 300 ... lid pack, 304 ... protrusion, 306 ... third laminated body, 308 ... third storage part, 400 , 902 ... Lid, 404 ... Recess, 900 ... Storage part

Claims (9)

リード線の一端部と前記リード線の直径よりも幅広の平板状の扁平部とが前記リード線よりも太い丸棒部で連結された多数本のコンデンサ用タブ端子を収納するコンデンサ用タブ端子の収納容器であって、
前記収納容器は、前記コンデンサ用タブ端子を収納する第１収納部の内底面が傾斜面に形成された外パックと、
前記第１収納部内に前記傾斜面の低部側に前記扁平部側が位置するように所定本数の前記コンデンサ用タブ端子を収納して形成した第１積層体の上面に倣う形状の外底面の第２収納部が設けられ、前記第１収納部内に前記第２収納部が挿入されて、前記第１収納部内が気密状態となったとき、前記第１積層体の上面に前記第２収納部の前記外底面が当接する内パックと、
前記第２収納部内に、前記扁平部側が所定方向を向いた所定本数の前記コンデンサ用タブ端子を収納して形成した第２積層体の上面に倣う形状の外底面の突出部が設けられ、前記第２収納部内に前記突出部が挿入されて、前記第２収納部内が気密状態となったとき、前記第２積層体の上面に前記突出部の前記外底面が当接する蓋パックとを備えることを特徴とするコンデンサ用タブ端子の収納容器。 A capacitor tab terminal for housing a plurality of capacitor tab terminals in which one end portion of a lead wire and a flat plate-like flat portion wider than the diameter of the lead wire are connected by a round bar portion thicker than the lead wire. A storage container,
The storage container includes an outer pack in which an inner bottom surface of a first storage portion that stores the capacitor tab terminal is formed as an inclined surface;
The outer bottom surface of a shape that follows the top surface of the first laminate formed by housing a predetermined number of the capacitor tab terminals so that the flat portion side is positioned on the lower side of the inclined surface in the first housing portion. 2 storage portions are provided, and when the second storage portion is inserted into the first storage portion and the inside of the first storage portion is in an airtight state, the second storage portion is disposed on the upper surface of the first stacked body. An inner pack against which the outer bottom surface abuts;
In the second storage portion, there is provided a protrusion on the outer bottom surface shaped to follow the upper surface of the second laminate formed by storing a predetermined number of the capacitor tab terminals with the flat portion side facing a predetermined direction, When the protrusion is inserted into the second storage portion and the inside of the second storage portion is in an airtight state, a lid pack is provided in which the outer bottom surface of the protrusion contacts the upper surface of the second laminate. Capacitor tab terminal storage container. 前記第１積層体が、その上面に位置する前記コンデンサ用タブ端子の一端部と扁平部とが同一高さとなる平坦面となるように構成され、前記第２収納部の前記外底面が平坦面であることを特徴とする請求項１に記載のコンデンサ用タブ端子の収納容器。   The first laminated body is configured such that one end of the capacitor tab terminal located on the upper surface of the first laminated body and the flat portion have a flat surface, and the outer bottom surface of the second storage portion is a flat surface. The storage container for a capacitor tab terminal according to claim 1. 前記第２積層体は、その上面が傾斜面となるように構成され、前記突出部の前記外底面が傾斜面に形成されていることを特徴とする請求項１又は請求項２に記載のコンデンサ用タブ端子の収納容器。   3. The capacitor according to claim 1, wherein the second stacked body is configured such that an upper surface thereof is an inclined surface, and the outer bottom surface of the projecting portion is formed on the inclined surface. Tab terminal storage container. 前記外パックに複数の前記第１収納部が形成され、前記第１収納部の各々に対応して前記内パックの前記第２収納部及び前記蓋パックの前記突出部が形成されていることを特徴とする請求項１〜３のいずれか一項に記載のコンデンサ用タブ端子の収納容器。   A plurality of the first storage portions are formed in the outer pack, and the second storage portion of the inner pack and the protruding portion of the lid pack are formed corresponding to each of the first storage portions. The storage container for a capacitor tab terminal according to any one of claims 1 to 3. 前記蓋パックの前記突出部が中空体であることを特徴とする請求項１〜４のいずれか一項に記載のコンデンサ用タブ端子の収納容器。   The container tab terminal storage container according to any one of claims 1 to 4, wherein the protrusion of the lid pack is a hollow body. 前記蓋パックの前記突出部が第３収納部を構成し、
前記第３収納部内に、前記扁平部側が所定方向に向いて所定本数の前記コンデンサ用タブ端子を収納して形成した第３積層体の上面の形状に倣う形状の外底面の凹部が設けられ、前記第３収納部内に前記凹部が挿入されて、前記第３収納部内が気密状態となったとき、前記第３積層体の上面に前記凹部の前記外底面が当接する蓋体を更に備えることを特徴とする請求項１〜４のいずれか一項に記載のコンデンサ用タブ端子の収納容器。 The protruding portion of the lid pack constitutes a third storage portion,
In the third storage portion, there is provided a concave portion on the outer bottom surface that follows the shape of the top surface of the third laminate formed by storing the predetermined number of capacitor tab terminals with the flat portion side facing the predetermined direction. When the concave portion is inserted into the third storage portion, and the inside of the third storage portion is in an airtight state, the lid further includes a lid body that abuts the outer bottom surface of the concave portion on the upper surface of the third stacked body. The storage container for a capacitor tab terminal according to any one of claims 1 to 4. 前記第３積層体は、その上面が位置する前記コンデンサ用タブ端子の一端部と扁平部とが同一高さとなる平坦面となるように構成され、前記蓋体の前記凹部の外底面が平坦面であることを特徴とする請求項６に記載のコンデンサ用タブ端子の収納容器。   The third laminated body is configured such that one end of the capacitor tab terminal on which the upper surface is located and the flat portion are a flat surface having the same height, and the outer bottom surface of the concave portion of the lid is a flat surface. The storage container for capacitor tab terminals according to claim 6. 前記外パックに複数の前記第１収納部が形成され、前記第１収納部の各々に対応して前記内パックの前記第２収納部、前記蓋パックの前記第３収納部及び前記蓋体の前記凹部が形成されていることを特徴とする請求項６又は請求項７に記載のコンデンサ用タブ端子の収納容器。   A plurality of the first storage portions are formed in the outer pack, and the second storage portion of the inner pack, the third storage portion of the lid pack, and the lid body corresponding to each of the first storage portions The container for a tab terminal for a capacitor according to claim 6 or 7, wherein the concave portion is formed. 前記収納容器が射出成型で形成されていることを特徴とする請求項１〜８のいずれか一項に記載のコンデンサ用タブ端子の収納容器。   The said container is formed by injection molding, The container container of the tab terminal for capacitors as described in any one of Claims 1-8 characterized by the above-mentioned.

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