JP7297583B2 - electric junction box - Google Patents

electric junction box Download PDF

Info

Publication number
JP7297583B2
JP7297583B2 JP2019137566A JP2019137566A JP7297583B2 JP 7297583 B2 JP7297583 B2 JP 7297583B2 JP 2019137566 A JP2019137566 A JP 2019137566A JP 2019137566 A JP2019137566 A JP 2019137566A JP 7297583 B2 JP7297583 B2 JP 7297583B2
Authority
JP
Japan
Prior art keywords
female screw
locking portion
locking
screw member
orthogonal direction
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.)
Active
Application number
JP2019137566A
Other languages
Japanese (ja)
Other versions
JP2021023010A (en
Inventor
良則 佐野
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Yazaki Corp
Original Assignee
Yazaki Corp
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 Yazaki Corp filed Critical Yazaki Corp
Priority to JP2019137566A priority Critical patent/JP7297583B2/en
Publication of JP2021023010A publication Critical patent/JP2021023010A/en
Application granted granted Critical
Publication of JP7297583B2 publication Critical patent/JP7297583B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Connections By Means Of Piercing Elements, Nuts, Or Screws (AREA)
  • Connection Or Junction Boxes (AREA)

Description

本発明は、電気接続箱に関する。 The present invention relates to electrical junction boxes.

従来、電気接続箱等においては、絶縁性の収容部材の内方に導電部材が収容される。その導電部材は、雌螺子部材と雄螺子部材とによる締結対象物となり、螺合完了状態の雌螺子部材と雄螺子部材とで挟持させることによって、収容部材の内方で固定される。かかる技術については、例えば、下記の特許文献1に開示されている。 2. Description of the Related Art Conventionally, in an electrical connection box or the like, a conductive member is housed inside an insulating housing member. The conductive member becomes an object to be fastened by the female screw member and the male screw member, and is fixed inside the housing member by being sandwiched between the screwed female screw member and the male screw member. Such technology is disclosed, for example, in Patent Document 1 below.

特開平10-92484号公報JP-A-10-92484

ところで、収容部材においては、雌螺子部材と雄螺子部材の内の一方の螺子部材が予め固定されており、その何れか一方の螺子部材の螺子部の位置に合わせて締結対象物が収容された後、その一方の螺子部材に他方の螺子部材を螺合させる。よって、従来は、その一方の螺子部材が収容部材に対してガタ付きの無い状態で予め固定されている。このため、従来は、その一方の螺子部材の螺子部の位置に合わせて締結対象物を設置する際に、公差ばらつき等によって、その一方の螺子部材の螺子部から締結対象物が抵抗力を受けてしまう可能性がある。 By the way, in the accommodating member, one of the female screw member and the male screw member is fixed in advance, and the object to be fastened is accommodated in accordance with the position of the screw portion of either one of the screw members. After that, the other screw member is screwed into the one screw member. Therefore, conventionally, one of the screw members is preliminarily fixed to the housing member without backlash. For this reason, conventionally, when an object to be fastened is installed in accordance with the position of the thread portion of one of the screw members, the object to be fastened receives a resistance force from the thread portion of the one screw member due to variations in tolerance. There is a possibility that

そこで、本発明は、締結対象物を設置する際の力の軽減が可能な電気接続箱を提供することを、その目的とする。 SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an electric connection box capable of reducing the force required to install an object to be fastened.

上記目的を達成する為、本発明は、導電性の締結対象物と、雄螺子部材と、前記雄螺子部材が螺合される雌螺子部材と、前記締結対象物と前記雌螺子部材が収容される絶縁性の収容部材と、前記雄螺子部材が螺合完了状態になるまで前記雌螺子部材を前記収容部材における収容完了位置で仮保持させる仮保持機構と、を備え、前記雌螺子部材は、前記雄螺子部材の雄螺子部が螺合される雌螺子部と、前記雌螺子部における螺子軸方向の一方の端部側に設け、前記雄螺子部材が前記螺合完了状態のときに前記雄螺子部材との間で前記締結対象物を挟持させる挟持部と、前記雌螺子部における前記螺子軸方向の他方の端部側の外方で前記螺子軸方向に対して直交配置された鍔部と、を有し、前記鍔部は、前記螺子軸方向における前記一方の第1壁部と、前記螺子軸方向における前記他方の第2壁部と、前記螺子軸方向に直交する第1直交方向の両端の第1被係止部及び第2被係止部と、を有し、前記仮保持機構は、前記収容部材に設け、前記螺子軸方向で前記第1被係止部の前記第1壁部を係止する第1係止部と、前記収容部材に設け、前記螺子軸方向で前記第2被係止部の前記第1壁部を係止する第2係止部と、前記収容部材に設け、前記螺子軸方向で前記第1被係止部の前記第2壁部を係止する第3係止部と、前記収容部材に設け、前記螺子軸方向で前記第2被係止部の前記第2壁部を係止する第4係止部と、前記収容部材に設け、前記螺子軸方向及び前記第1直交方向に直交する第2直交方向における一方側で前記雌螺子部材を係止する第5係止部と、前記締結対象物に設け、前記第2直交方向における他方側で前記雌螺子部材を係止する第6係止部と、を有し、前記第1係止部と前記第3係止部は、その間で前記螺子軸方向に沿って前記第1被係止部を相対移動させ得るものとして形成され、前記第2係止部と前記第4係止部は、その間で前記螺子軸方向に沿って前記第2被係止部を相対移動させ得るものとして形成され、前記鍔部は、前記第2直交方向における前記一方側の一端に設けた第3被係止部と、前記第2直交方向における前記他方側の他端に設けた第4被係止部と、を有し、前記第6係止部は、前記第4被係止部を係止させるものとして形成されることを特徴としている。 In order to achieve the above object, the present invention provides a conductive fastening object, a male screw member, a female screw member to which the male screw member is screwed, and a connector housing the fastening object and the female screw member. and a temporary holding mechanism for temporarily holding the female screw member at the accommodation completion position in the accommodation member until the male screw member reaches a screwing completion state, wherein the female screw member a female screw portion to which the male screw portion of the male screw member is screwed; a clamping portion that clamps the object to be fastened between itself and the screw member; and a collar portion that is arranged orthogonally to the screw axis direction on the outside of the other end side of the female screw part in the screw axis direction. , wherein the flange portion includes the one first wall portion in the screw axis direction, the other second wall portion in the screw axis direction, and the first orthogonal direction perpendicular to the screw axis direction. A first locked portion and a second locked portion are provided at both ends, and the temporary holding mechanism is provided in the housing member and extends along the first wall of the first locked portion in the direction of the screw axis. a second locking portion provided on the housing member for locking the first wall portion of the second locked portion in the direction of the screw axis; and the housing member a third locking portion provided on the housing member for locking the second wall portion of the first locked portion in the direction of the screw axis; and the second locked portion provided in the housing member in the direction of the screw axis. and a fourth locking portion that locks the second wall portion of the housing member, and is provided on the housing member and engages the female screw member on one side in a second orthogonal direction orthogonal to the screw axis direction and the first orthogonal direction. and a sixth locking portion provided on the object to be fastened and locking the female screw member on the other side in the second orthogonal direction, the first locking portion and the third engaging portion are formed to allow relative movement of the first engaged portion along the direction of the screw shaft therebetween, and the second engaging portion and the fourth engaging portion are: Between them, the second locked portion can be relatively moved along the screw axis direction, and the flange portion is a third locked portion provided at one end of the one side in the second orthogonal direction. and a fourth locked portion provided at the other end of the other side in the second orthogonal direction, wherein the sixth locking portion locks the fourth locked portion. It is characterized by being formed as

ここで、前記収容部材に対して前記締結対象物が収容完了状態のときに、前記第5係止部と前記第6係止部は、その間で前記第2直交方向に沿って前記雌螺子部材を相対移動させ得るものとして形成され、前記仮保持機構は、前記収容部材に設け、前記第1直交方向における一方側で前記雌螺子部材を係止する第7係止部と、前記収容部材に設け、前記第1直交方向における他方側で前記雌螺子部材を係止する第8係止部と、を有し、前記第7係止部と前記第8係止部は、その間で前記第1直交方向に沿って前記雌螺子部材を相対移動させ得るものとして形成されることが望ましい。 Here, when the object to be fastened is completely accommodated in the accommodating member, the fifth engaging portion and the sixth engaging portion are interposed between the female screw member along the second orthogonal direction. The temporary holding mechanism is provided in the housing member, and includes a seventh locking portion that locks the female screw member on one side in the first orthogonal direction, and a and an eighth locking portion that locks the female screw member on the other side in the first orthogonal direction, wherein the seventh locking portion and the eighth locking portion are arranged between the first locking portion and the eighth locking portion. It is desirable that the female screw member be formed so as to be able to move relative to each other along the orthogonal direction.

また、前記収容部材は、前記締結対象物と前記雌螺子部材の収容完了位置よりも前記第2直交方向における前記他方側に、前記締結対象物と前記雌螺子部材を収容させる際の挿入用の開口を有することが望ましい。 In addition, the housing member is positioned on the other side in the second orthogonal direction from a housing completion position of the fastening object and the female thread member, and is used for insertion when housing the fastening subject and the female thread member. It is desirable to have openings.

また、前記締結対象物は、前記収容部材に収容される導電部材の板状の連結部であり、前記導電部材は、前記連結部から突出させた前記第6係止部を有することが望ましい。 Further, it is preferable that the object to be fastened is a plate-like connecting portion of a conductive member accommodated in the containing member, and the conductive member has the sixth locking portion protruding from the connecting portion.

また、前記締結対象物は、前記収容部材に収容される導電部材の板状の連結部、及び、前記収容部材の部品収容室に収容される電子部品が備え、前記雌螺子部材の前記挟持部と前記導電部材の前記連結部との間に挿入させる板状の端子部であり、前記導電部材は、前記連結部から突出させた前記第6係止部を有することが望ましい。 The object to be fastened includes a plate-like connecting portion of a conductive member housed in the housing member and an electronic component housed in a component housing chamber of the housing member. and the connecting portion of the conductive member, and the conductive member preferably has the sixth locking portion protruding from the connecting portion.

本発明に係る電気接続箱においては、雌螺子部材が螺子軸方向の力を受けた際に、収容部材に対してその力の向きに雌螺子部材を相対移動させることができる。このため、この電気接続箱においては、雌螺子部材と雄螺子部材とで締結対象物を締結させるべく、雌螺子部材の挟持部上に締結対象物を設置する際に、その雌螺子部材が締結対象物から螺子軸方向の力を受けたとしても、収容部材に対してその力の向きに雌螺子部材を相対移動させることができる。従って、この電気接続箱においては、雌螺子部材の挟持部上に締結対象物を設置する際の力を軽減させることができるので、その設置作業性を向上させることができる。 In the electrical connection box according to the present invention, when the female screw member receives force in the direction of the screw axis, the female screw member can be moved relative to the housing member in the direction of the force. Therefore, in this electric connection box, when the object to be fastened is placed on the clamping portion of the female screw member in order to fasten the object to be fastened with the female screw member and the male screw member, the female screw member is fastened. Even if a force is applied in the direction of the screw axis from the object, the female screw member can be moved relative to the housing member in the direction of the force. Therefore, in this electrical junction box, the force required to install the object to be fastened on the clamping portion of the female thread member can be reduced, so that installation workability can be improved.

図1は、実施形態1の電気接続箱を示す分解斜視図である。FIG. 1 is an exploded perspective view showing an electrical junction box of Embodiment 1. FIG. 図2は、実施形態1の電気接続箱を示す斜視図である。FIG. 2 is a perspective view showing the electrical junction box of Embodiment 1. FIG. 図3は、実施形態1の電気接続箱を示す平面図であって、雌螺子部材の挿入口側から見た部分拡大図である。FIG. 3 is a plan view showing the electric junction box of Embodiment 1, and is a partially enlarged view seen from the insertion port side of the female screw member. 図4は、図2のX-X線断面図である。4 is a cross-sectional view taken along the line XX of FIG. 2. FIG. 図5は、端子部挿入前の状態を示す断面図である。FIG. 5 is a cross-sectional view showing a state before the terminal portion is inserted. 図6は、図4のA部拡大図である。FIG. 6 is an enlarged view of part A in FIG. 図7は、図2のZ-Z線断面の部分拡大図である。FIG. 7 is a partially enlarged view of the ZZ line cross section of FIG. 図8は、図2のY-Y線断面図であって、収容部材に雌螺子部材と導電部材のみを残した状態を示す部分拡大図である。8 is a cross-sectional view taken along line YY of FIG. 2, and is a partially enlarged view showing a state in which only the female screw member and the conductive member are left in the housing member. 図9は、雌螺子部材を示す斜視図である。FIG. 9 is a perspective view showing a female screw member. 図10は、雌螺子部材を別角度から見た斜視図である。FIG. 10 is a perspective view of the female screw member viewed from another angle. 図11は、一方の導電部材を示す斜視図である。FIG. 11 is a perspective view showing one conductive member. 図12は、他方の導電部材を示す斜視図である。FIG. 12 is a perspective view showing the other conductive member. 図13は、実施形態2の電気接続箱を示す分解斜視図である。FIG. 13 is an exploded perspective view showing the electrical junction box of Embodiment 2. FIG. 図14は、実施形態2の電気接続箱を示す斜視図である。FIG. 14 is a perspective view showing an electrical junction box of Embodiment 2. FIG. 図15は、実施形態2の電気接続箱を示す平面図であって、雌螺子部材の挿入口側から見た部分拡大図である。FIG. 15 is a plan view showing the electric junction box of Embodiment 2, and is a partially enlarged view seen from the insertion port side of the female screw member. 図16は、図14のX-X線断面図である。16 is a cross-sectional view taken along line XX of FIG. 14. FIG. 図17は、連結部挿入前の状態を示す断面図である。FIG. 17 is a cross-sectional view showing a state before the connecting portion is inserted. 図18は、図14のZ-Z線断面の部分拡大図である。18 is a partially enlarged view of the ZZ line cross section of FIG. 14. FIG. 図19は、図14のY-Y線断面図であって、収容部材に雌螺子部材と導電部材のみを残した状態を示す部分拡大図である。19 is a cross-sectional view taken along line YY of FIG. 14, and is a partially enlarged view showing a state in which only the female screw member and the conductive member are left in the housing member. 図20は、導電部材を示す斜視図である。FIG. 20 is a perspective view showing a conductive member.

以下に、本発明に係る電気接続箱の実施形態を図面に基づいて詳細に説明する。尚、この実施形態によりこの発明が限定されるものではない。 EMBODIMENT OF THE INVENTION Below, embodiment of the electric junction box which concerns on this invention is described in detail based on drawing. In addition, this invention is not limited by this embodiment.

[実施形態1]
本発明に係る電気接続箱の実施形態の1つを図1から図12に基づいて説明する。 [Embodiment 1]
One embodiment of an electric connection box according to the present invention will be described with reference to FIGS. 1 to 12. FIG.

図1から図8の符号1は、本実施形態の電気接続箱を示す。その電気接続箱1は、雌螺子部材10と、この雌螺子部材10が収容され且つ固定される絶縁性の収容部材20と、を備える(図1及び図3から図8)。この電気接続箱1は、その収容部材20に雌螺子部材10を固定させる雌螺子固定構造30を備える(図1及び図3から図8)。その雌螺子固定構造30は、雄螺子部材40が螺合完了状態になるまで雌螺子部材10を収容部材20における収容完了位置で仮保持させる仮保持機構30Aを備える。また、この電気接続箱1は、収容部材20に収容される導電性の締結対象物50を備える(図1から図8)。仮保持機構30Aは、収容部材20と締結対象物50とで構成する。この電気接続箱1は、収容部材20の中で締結対象物50を雌螺子部材10と雄螺子部材40とで締結させる締結構造60を備える(図1から図8)。その締結構造60は、締結対象物50と雌螺子部材10と雄螺子部材40と雌螺子固定構造30とで構成される。 Reference numeral 1 in FIGS. 1 to 8 indicates an electric junction box of this embodiment. The electrical junction box 1 comprises a female screw member 10 and an insulating housing member 20 in which the female screw member 10 is housed and fixed (FIGS. 1 and 3 to 8). The electrical connection box 1 has a female screw fixing structure 30 for fixing the female screw member 10 to the housing member 20 (FIGS. 1 and 3 to 8). The female screw fixing structure 30 includes a temporary holding mechanism 30A that temporarily holds the female screw member 10 at the accommodation completion position in the accommodation member 20 until the male screw member 40 reaches the screwing completion state. The electric junction box 1 also includes a conductive fastening object 50 housed in the housing member 20 (FIGS. 1 to 8). 30 A of temporary holding mechanisms are comprised with the accommodating member 20 and the fastening target object 50. As shown in FIG. This electrical connection box 1 has a fastening structure 60 that fastens an object 50 to be fastened with the female screw member 10 and the male screw member 40 in the housing member 20 (FIGS. 1 to 8). The fastening structure 60 is composed of the fastening object 50 , the female screw member 10 , the male screw member 40 , and the female screw fixing structure 30 .

雌螺子部材10は、雄螺子部材40の雄螺子部41が螺合される雌螺子部11を有する(図1、図3、図6、図7、図9及び図10)。雌螺子部11は、円筒状に形成され、その内周面に雌螺子が螺刻されている。また、雄螺子部41は、円柱状に警醒され、その外周面に雄螺子が螺刻されている。 The female threaded member 10 has a female threaded portion 11 into which the male threaded portion 41 of the male threaded member 40 is screwed (FIGS. 1, 3, 6, 7, 9 and 10). The female screw portion 11 is formed in a cylindrical shape, and a female screw is threaded on the inner peripheral surface thereof. In addition, the male screw portion 41 is formed in a cylindrical shape, and a male screw is threaded on the outer peripheral surface thereof.

更に、この雌螺子部材10は、雌螺子部11における螺子軸方向の一方の端部側に設け、雄螺子部材40が螺合完了状態のときに雄螺子部材40との間で締結対象物50を挟持させる挟持部12を有する(図1、図3、図6、図7及び図9)。ここでは、雌螺子部11における螺子軸方向の一方の端面を挟持部12として利用する。雄螺子部材40は、その挟持部12に螺子軸方向で対向配置させ、螺合完了状態のときに挟持部12との間で締結対象物50を挟持させる挟持部42を有する(図3及び図6)。その挟持部42については、例えば、雄螺子部材40の頭部43における雄螺子部41側の環状の壁面、頭部43と雄螺子部41との間に介在させた座金の環状の壁面等を利用する。 Further, the female screw member 10 is provided on one end side of the female screw portion 11 in the screw axis direction, and when the male screw member 40 is in the screwing-completed state, the fastening object 50 is connected to the male screw member 40 . (Figs. 1, 3, 6, 7 and 9). Here, one end surface of the female screw portion 11 in the screw axis direction is used as the holding portion 12 . The male screw member 40 has a clamping portion 42 that is arranged opposite to the clamping portion 12 in the direction of the screw axis and clamps the fastening target 50 between the clamping portion 12 and the clamping portion 12 when screwing is completed (FIGS. 3 and 4). 6). For the clamping portion 42, for example, an annular wall surface on the male screw portion 41 side of the head portion 43 of the male screw member 40, an annular wall surface of a washer interposed between the head portion 43 and the male screw portion 41, and the like are used. use.

ここで、この例示では、締結対象物50として、導電部材70の板状の連結部51と、収容部材20の部品収容室21(図1及び図2)に収容される電子部品80の板状の端子部52と、が設けられている(図1及び図3から図6)。ここで示す導電部材70は、金属等の導電性材料で板状に成形された所謂バスバである。連結部51は、平板状に形成されている。この連結部51には、雄螺子部41を挿通させる円形の貫通孔51aが形成されている(図1、図11及び図12)。一方、電子部品80は、板状の端子部52を備えるものであり、かつ、その端子部52を本体81から突出させた状態で配置させるものであれば如何様なものであってもよい(図1)。端子部52は、雄タブ端子等のような片体状に形成されている。この端子部52には、雄螺子部41を挿通させる円形の貫通孔52aが形成されている(図1)。電子部品80においては、本体81を部品収容室21に収容させ、端子部52を部品収容室21から外方に突出させる。 Here, in this example, the objects 50 to be fastened are the plate-like connection portion 51 of the conductive member 70 and the plate-like electronic component 80 accommodated in the component accommodation chamber 21 (FIGS. 1 and 2) of the accommodation member 20. are provided (FIGS. 1 and 3 to 6). The conductive member 70 shown here is a so-called bus bar formed in a plate shape from a conductive material such as metal. The connecting portion 51 is formed in a flat plate shape. A circular through hole 51a through which the male screw portion 41 is inserted is formed in the connecting portion 51 (FIGS. 1, 11 and 12). On the other hand, the electronic component 80 may be of any type as long as it has a plate-shaped terminal portion 52 and the terminal portion 52 is arranged in a state of protruding from the main body 81 ( Figure 1). The terminal portion 52 is formed in a single piece like a male tab terminal or the like. The terminal portion 52 is formed with a circular through hole 52a through which the male screw portion 41 is inserted (FIG. 1). In the electronic component 80 , the main body 81 is accommodated in the component accommodation chamber 21 and the terminal portion 52 is protruded outward from the component accommodation chamber 21 .

この例示の端子部52は、雌螺子部材10の挟持部12と導電部材70の連結部51との間に挿入させる(図3及び図6)。この端子部52は、その間への挿入完了状態のときに、一方の平面を挟持部12に面接触させ、他方の平面を連結部51の一方の平面に面接触させる。例えば、ここでは、ヒューズを電子部品80の一例として示している。収容部材20においては、予め雌螺子部材10と導電部材70とが収容されており(図5)、電子部品80を部品収容室21に収容していくことによって、端子部52が雌螺子部材10の挟持部12と導電部材70の連結部51との間に挿入されていく(図3、図4及び図6)。この収容部材20においては、その雌螺子部材10と導電部材70の連結部51と電子部品80の端子部52とが収容完了状態のときに、雌螺子部材10の螺子軸と略同軸上に連結部51の貫通孔51aと端子部52の貫通孔52aが配置されている。但し、雌螺子部材10は、後述するように、収容部材20に対して相対移動できるので、その相対移動量の範囲内で、それぞれの貫通孔51a,52aの中心に対して螺子軸が偏心している場合もある。 The illustrated terminal portion 52 is inserted between the holding portion 12 of the female screw member 10 and the connecting portion 51 of the conductive member 70 (FIGS. 3 and 6). When the terminal portion 52 has been completely inserted therebetween, one plane is in surface contact with the clamping portion 12 and the other plane is in surface contact with one plane of the connecting portion 51 . For example, a fuse is shown here as an example of the electronic component 80 . In the accommodating member 20, the female screw member 10 and the conductive member 70 are accommodated in advance (FIG. 5). and the connecting portion 51 of the conductive member 70 (FIGS. 3, 4 and 6). In this accommodating member 20, when the connecting portion 51 of the female screw member 10, the conductive member 70, and the terminal portion 52 of the electronic component 80 are in the accommodated state, they are connected substantially coaxially with the screw shaft of the female screw member 10. A through hole 51a of the portion 51 and a through hole 52a of the terminal portion 52 are arranged. However, since the female screw member 10 can move relative to the housing member 20, as will be described later, the screw shaft is eccentric with respect to the centers of the through holes 51a and 52a within the range of the amount of relative movement. Sometimes there are.

ところで、この例示の電子部品80には、2つの端子部52が設けられている(図1及び図3から図5)。そして、この例示の電気接続箱1においては、それぞれの端子部52毎に対応させた雌螺子部材10と導電部材70とが設けられている。よって、この例示の電気接続箱1には、雌螺子部材10と雄螺子部材40とで締結される連結部51と端子部52の組み合わせが2組設けられている(図3から図5)。換言するならば、この例示の収容部材20には、締結状態を成す雌螺子部材10と雄螺子部材40と連結部51と端子部52の組み合わせが2組収容されている(図3から図5)。尚、それぞれの連結部51については、その内の一方を一方の導電部材70(導電部材70A)が有し、その内の他方を他方の導電部材70(導電部材70B)が有している(図3から図5、図11及び図12)。 By the way, the electronic component 80 of this example is provided with two terminal portions 52 (FIGS. 1 and 3 to 5). In the electrical connection box 1 of this example, the female screw member 10 and the conductive member 70 are provided corresponding to each terminal portion 52 . Therefore, the electrical junction box 1 of this example is provided with two combinations of the connecting portion 51 and the terminal portion 52 that are fastened by the female screw member 10 and the male screw member 40 (FIGS. 3 to 5). In other words, two combinations of the female screw member 10, the male screw member 40, the connecting portion 51, and the terminal portion 52, which are in a fastened state, are accommodated in the illustrated accommodating member 20 (FIGS. 3 to 5). ). Note that one of the connecting portions 51 is owned by one conductive member 70 (conductive member 70A), and the other is owned by the other conductive member 70 (conductive member 70B) ( 3 to 5, 11 and 12).

話を雌螺子部材10に戻すと、この雌螺子部材10は、更に、雌螺子部11における螺子軸方向の他方の端部側の外方で螺子軸方向に対して直交配置された鍔部13を有する(図1及び図3から図10)。その鍔部13は、螺子軸方向における一方の第1壁部(つまり、螺子軸方向で挟持部12側に配置されている第1壁部)13a(図3、図6、図7及び図9)と、螺子軸方向における他方の第2壁部(つまり、螺子軸方向で挟持部12側とは逆側に配置されている第2壁部)13b(図3、図6、図7及び図10)と、を有している。更に、この鍔部13は、螺子軸方向に直交する第1直交方向Go1(図1から図3)の両端の第1被係止部13c及び第2被係止部13d(図3及び図7から図10)と、螺子軸方向及び第1直交方向Go1に直交する第2直交方向Go2(図1、図2及び図4)の両端の第3被係止部13e及び第4被係止部13f(図6及び図8から図10)と、を有している。 Returning to the female threaded member 10, the female threaded member 10 further includes a flange portion 13 arranged perpendicularly to the threaded shaft direction on the outside of the other end side of the threaded portion 11 in the threaded shaft direction. (FIGS. 1 and 3 to 10). The collar portion 13 has one first wall portion in the screw axis direction (that is, the first wall portion arranged on the clamping portion 12 side in the screw axis direction) 13a (FIGS. 3, 6, 7 and 9). ) and the other second wall portion in the screw axis direction (that is, the second wall portion arranged on the side opposite to the clamping portion 12 side in the screw axis direction) 13b (FIGS. 3, 6, 7 and 7). 10) and Further, the flange portion 13 has a first locked portion 13c and a second locked portion 13d (FIGS. 3 and 7) at both ends in a first orthogonal direction Go1 (FIGS. 1 to 3) perpendicular to the screw axis direction. to FIG. 10), and a third locked portion 13e and a fourth locked portion at both ends of a second orthogonal direction Go2 (FIGS. 1, 2 and 4) perpendicular to the screw axis direction and the first orthogonal direction Go1. 13f (FIGS. 6 and 8-10).

ここでの第1直交方向Go1とは、雌螺子部材10を収容部材20に収容する際の挿入方向に対する直交方向と、その挿入方向とは逆向きの方向(例えば、雌螺子部材10を収容部材20から取り外す際の抜去方向)に対する直交方向と、を示している(図1及び図2)。よって、第2直交方向Go2とは、雌螺子部材10を収容部材20に収容する際の挿入方向及び当該挿入方向とは逆向きの方向のことをいう。 Here, the first orthogonal direction Go1 refers to a direction orthogonal to the insertion direction when the female screw member 10 is accommodated in the accommodation member 20, and a direction opposite to the insertion direction (for example, the direction in which the female screw member 10 is inserted into the accommodation member). (Figs. 1 and 2). Therefore, the second orthogonal direction Go2 refers to the insertion direction when the female screw member 10 is accommodated in the accommodation member 20 and the direction opposite to the insertion direction.

この例示の鍔部13は、略矩形の外周を有する平板状に形成されている(図1、図9及び図10)。よって、この例示の鍔部13においては、一方の平面が第1壁部13aとなり、他方の平面が第2壁部13bとなる。また、この例示の鍔部13においては、第1直交方向Go1における一方の辺部が第1被係止部13cとなり、第1直交方向Go1における他方の辺部が第2被係止部13dとなる。また、この例示の鍔部13においては、第2直交方向Go2における一方の辺部が第3被係止部13eとなり、第2直交方向Go2における他方の辺部が第4被係止部13fとなる。 The exemplified collar portion 13 is formed in a flat plate shape having a substantially rectangular outer periphery (FIGS. 1, 9 and 10). Therefore, in this illustrated flange portion 13, one plane serves as the first wall portion 13a, and the other plane serves as the second wall portion 13b. Further, in the flange portion 13 of this example, one side portion in the first orthogonal direction Go1 is the first locked portion 13c, and the other side portion in the first orthogonal direction Go1 is the second locked portion 13d. Become. Further, in the flange portion 13 of this example, one side portion in the second orthogonal direction Go2 is the third locked portion 13e, and the other side portion in the second orthogonal direction Go2 is the fourth locked portion 13f. Become.

尚、この例示の雌螺子部材10は、鍔部13の外周が正方形で、かつ、鍔部13のそれぞれの隅部がそれぞれの辺部に対して45度傾斜させた面取り部を有しているので、螺子軸の軸周りに90度ずつ回転させたその全ての位置において同一の外形を成す。このため、この例示の雌螺子部材10においては、鍔部13の4つの辺部の内の何れも収容部材20への挿入起点となり得る。そこで、この例示の雌螺子部材10においては、収容部材20への挿入起点となる鍔部13の辺部を第3被係止部13eとし、この第3被係止部13eを基準にして、鍔部13の残りの3つの辺部における第1被係止部13cと第2被係止部13dと第4被係止部13fとを定義する。よって、その第1被係止部13cは、収容部材20における収容完了位置の鍔部13において、第1直交方向Go1における一方側の一端に設けられている。そして、第2被係止部13dは、収容部材20における収容完了位置の鍔部13において、第1直交方向Go1における他方側の他端に設けられている。また、第3被係止部13eは、収容部材20における収容完了位置の鍔部13において、第2直交方向Go2における一方側の一端に設けられている。そして、第4被係止部13fは、収容部材20における収容完了位置の鍔部13において、第2直交方向Go2における他方側の他端に設けられている。この例示の鍔部13においては、四隅が各々面取り加工されている。 In this female screw member 10, the outer periphery of the collar portion 13 is square, and each corner portion of the collar portion 13 has a chamfered portion inclined at 45 degrees with respect to each side portion. Therefore, the same external shape is formed at all positions rotated by 90 degrees around the axis of the screw shaft. Therefore, in the illustrated female screw member 10 , any one of the four side portions of the collar portion 13 can serve as an insertion starting point into the housing member 20 . Therefore, in the illustrated female screw member 10, the side portion of the flange portion 13, which is the starting point of insertion into the housing member 20, is defined as the third locked portion 13e. A first locked portion 13c, a second locked portion 13d, and a fourth locked portion 13f in the remaining three side portions of the collar portion 13 are defined. Therefore, the first locked portion 13c is provided at one end on one side in the first orthogonal direction Go1 of the flange portion 13 of the accommodation member 20 at the accommodation completion position. The second locked portion 13d is provided at the other end on the other side in the first orthogonal direction Go1 of the flange portion 13 of the accommodation member 20 at the accommodation completion position. Further, the third locked portion 13e is provided at one end on one side in the second orthogonal direction Go2 of the flange portion 13 of the accommodation member 20 at the accommodation completion position. The fourth locked portion 13f is provided at the other end on the other side in the second orthogonal direction Go2 of the flange portion 13 of the accommodation member 20 at the accommodation completion position. Four corners of the illustrated collar portion 13 are chamfered.

収容部材20は、合成樹脂等の絶縁性材料で成形される。この収容部材20とは、筐体等のような箱状に成形されたものであってもよく、その筐体の中に収容され且つ保持される所謂ブロックとして成形されたものであってもよい。ここでは、ブロックとして成形された収容部材20を例示している。 The housing member 20 is molded from an insulating material such as synthetic resin. The housing member 20 may be formed in the shape of a box such as a housing, or may be formed as a so-called block that is housed and held in the housing. . Here, the receiving member 20 molded as a block is illustrated.

この収容部材20においては、先に示した部品収容室21が形成されている。この部品収容室21には、開口(電子部品挿入口)21aを介して電子部品80が2つの端子部52側から挿入されていく(図1及び図2)。電子部品80においては、その挿入方向に向けて本体81から2つの端子部52が突出させられている。よって、収容部材20においては、本体81が部品収容室21に対して収容完了位置のときに、2つの端子部52が部品収容室21の外方に突出させられている。収容部材20は、その部品収容室21から外方に突出させられた端子部52が収容される端子収容室22を備える(図1から図8)。 In this housing member 20, the component housing chamber 21 shown above is formed. An electronic component 80 is inserted into the component storage chamber 21 from the two terminal portions 52 through an opening (electronic component insertion opening) 21a (FIGS. 1 and 2). In the electronic component 80, two terminal portions 52 are projected from the main body 81 in the insertion direction. Therefore, in the housing member 20 , the two terminal portions 52 protrude outward from the component housing chamber 21 when the main body 81 is in the housing completion position with respect to the component housing chamber 21 . The accommodating member 20 has a terminal accommodating chamber 22 in which a terminal portion 52 projecting outward from the component accommodating chamber 21 is accommodated (FIGS. 1 to 8).

端子収容室22には、雌螺子部材10と連結部51も収容される。よって、この端子収容室22は、雌螺子収容室と言い換えることもできる。この端子収容室22は、雌螺子部材10と雄螺子部材40と連結部51と端子部52の組み合わせ毎に設けられている(図3から図5及び図7)。それぞれの端子収容室22は、螺子軸方向に沿って並べて配置される。端子収容室22は、部品収容室21に対する電子部品80の挿抜方向で開口21aとは逆側に開口22aを有している(図1から図6及び図8)。雌螺子部材10と連結部51は、その開口22aを介して電子部品80の挿入方向とは逆向きで端子収容室22に挿入されていく。つまり、収容部材20は、締結対象物50としての連結部51と雌螺子部材10の収容完了位置よりも第2直交方向Go2における他方側に、その締結対象物50としての連結部51と雌螺子部材10を収容させる際の挿入用の開口22aを有している。 The female screw member 10 and the connecting portion 51 are also accommodated in the terminal accommodating chamber 22 . Therefore, the terminal accommodating chamber 22 can also be called a female screw accommodating chamber. The terminal accommodating chamber 22 is provided for each combination of the female screw member 10, the male screw member 40, the connecting portion 51, and the terminal portion 52 (FIGS. 3 to 5 and 7). Each terminal accommodating chamber 22 is arranged side by side along the direction of the screw axis. The terminal accommodating chamber 22 has an opening 22a on the side opposite to the opening 21a in the inserting/removing direction of the electronic component 80 with respect to the component accommodating chamber 21 (FIGS. 1 to 6 and 8). The female screw member 10 and the connecting portion 51 are inserted into the terminal accommodating chamber 22 through the opening 22a in a direction opposite to the direction in which the electronic component 80 is inserted. In other words, the housing member 20 is positioned on the other side in the second orthogonal direction Go2 of the accommodation completion position of the connecting portion 51 as the fastening object 50 and the female screw member 10. It has an opening 22a for inserting the member 10 therein.

連結部51と端子部52は、端子収容室22の中で雌螺子部材10と雄螺子部材40とによって締結される。端子収容室22には、収容完了状態の雌螺子部材10の螺子軸の延長線上に、雌螺子部材10と雄螺子部材40の螺合作業を行うための開口(作業口)22bが形成されている(図1及び図2)。 The connecting portion 51 and the terminal portion 52 are fastened by the female screw member 10 and the male screw member 40 in the terminal accommodating chamber 22 . An opening (work opening) 22b for screwing the female screw member 10 and the male screw member 40 is formed in the terminal accommodating chamber 22 on the extension line of the screw shaft of the female screw member 10 in the housed state. (Figs. 1 and 2).

尚、この例示の導電部材70Aは、矩形の平板状の主体71を有している(図1、図11及び図12)。その主体71は、4つの辺部を有している。この例示の導電部材70Aにおいては、その主体71の交差する2つの辺部の内の一方に同一平面上で雄タブ端子72を設け、その内の他方に同一平面上で連結部51を設けている(図1、図11及び図12)。雄タブ端子72は、端子収容室22に対する連結部51の挿入方向に沿って主体71から突出させる。この例示の導電部材70Aにおいては、その主体71と雄タブ端子72についても収容部材20に収容される。導電部材70Bについては、その導電部材70Aと同じように、主体71と雄タブ端子72を有している(図12)。また、この例示の収容部材20には、電子部品80とは別に、電子部品(例えば、ヒューズ)85(図2)が収容される部品収容室23(図1)と、電子部品(例えば、ヒューズ)86(図2)が収容される部品収容室24(図1)と、が形成されている。一方の導電部材70Aの雄タブ端子72は、部品収容室23に収容された電子部品85に電気接続させる。また、他方の導電部材70Bの雄タブ端子は、2つの部品収容室24に各々収容された電子部品86に電気接続させる。 The conductive member 70A of this example has a rectangular plate-like main body 71 (FIGS. 1, 11 and 12). Its main body 71 has four sides. In this exemplified conductive member 70A, a male tab terminal 72 is provided on one of two intersecting sides of a main body 71 on the same plane, and a connecting portion 51 is provided on the other of them on the same plane. (Figs. 1, 11 and 12). The male tab terminal 72 protrudes from the main body 71 along the insertion direction of the connecting portion 51 into the terminal receiving chamber 22 . In this exemplified conductive member 70A, the main body 71 and the male tab terminal 72 are also housed in the housing member 20. As shown in FIG. The conductive member 70B has a main body 71 and a male tab terminal 72 (FIG. 12), like the conductive member 70A. In addition to the electronic component 80, the illustrated housing member 20 includes a component housing chamber 23 (FIG. 1) housing an electronic component (eg, fuse) 85 (FIG. 2), and an electronic component (eg, fuse) 85 (FIG. 2). ) 86 (FIG. 2) is formed therein. A male tab terminal 72 of one conductive member 70A is electrically connected to an electronic component 85 housed in the component housing chamber 23 . Also, the male tab terminals of the other conductive member 70B are electrically connected to the electronic components 86 housed in the two component housing chambers 24, respectively.

仮保持機構30Aは、先に示したように、収容部材20と締結対象物50とで構成する。この仮保持機構30Aは、その収容部材20の端子収容室22毎に設けている。この仮保持機構30Aは、収容部材20の端子収容室22に設け、螺子軸方向で第1被係止部13cの第1壁部13aを係止する第1係止部31と、収容部材20の端子収容室22に設け、螺子軸方向で第2被係止部13dの第1壁部13aを係止する第2係止部32と、を有する(図3、図7及び図9)。また、この仮保持機構30Aは、収容部材20の端子収容室22に設け、螺子軸方向で第1被係止部13cの第2壁部13bを係止する第3係止部33と、収容部材20の端子収容室22に設け、螺子軸方向で第2被係止部13dの第2壁部13bを係止する第4係止部34と、を有する(図3及び図7)。また、この仮保持機構30Aは、収容部材20の端子収容室22に設け、第2直交方向Go2における一方側で雌螺子部材10を係止する第5係止部35と、締結対象物50に設け、第2直交方向Go2における他方側で雌螺子部材10を係止する第6係止部36と、を有する(図6及び図8)。また、この仮保持機構30Aは、収容部材20の端子収容室22に設け、第1直交方向Go1における一方側で雌螺子部材10を係止する第7係止部37と、収容部材20の端子収容室22に設け、第1直交方向Go1における他方側で雌螺子部材10を係止する第8係止部38と、を有する(図3、図7及び図8)。仮保持機構30Aは、これら第1から第8の係止部31-38によって、雌螺子部材10を雄螺子部材40が螺合完了状態になるまで仮保持させる。 30 A of temporary holding mechanisms are comprised by the accommodating member 20 and the fastening target object 50, as shown previously. 30 A of this temporary holding|maintenance mechanism is provided for each terminal accommodating chamber 22 of the accommodating member 20. As shown in FIG. The temporary holding mechanism 30A is provided in the terminal accommodating chamber 22 of the accommodating member 20, and includes a first engaging portion 31 for engaging the first wall portion 13a of the first engaged portion 13c in the direction of the screw axis. and a second locking portion 32 which is provided in the terminal receiving chamber 22 and locks the first wall portion 13a of the second locked portion 13d in the direction of the screw axis (FIGS. 3, 7 and 9). Further, the temporary holding mechanism 30A is provided in the terminal accommodating chamber 22 of the accommodating member 20, and includes a third engaging portion 33 for engaging the second wall portion 13b of the first engaged portion 13c in the direction of the screw axis; A fourth locking portion 34 is provided in the terminal accommodating chamber 22 of the member 20 and locks the second wall portion 13b of the second locked portion 13d in the direction of the screw axis (FIGS. 3 and 7). Further, the temporary holding mechanism 30A is provided in the terminal accommodating chamber 22 of the accommodating member 20, and the fifth engaging portion 35 for engaging the female screw member 10 on one side in the second orthogonal direction Go2 and a sixth locking portion 36 for locking the female screw member 10 on the other side in the second orthogonal direction Go2 (FIGS. 6 and 8). The temporary holding mechanism 30A is provided in the terminal accommodating chamber 22 of the accommodating member 20, and includes a seventh engaging portion 37 for engaging the female screw member 10 on one side in the first orthogonal direction Go1, and a terminal of the accommodating member 20. An eighth locking portion 38 provided in the housing chamber 22 and locking the female screw member 10 on the other side in the first orthogonal direction Go1 (FIGS. 3, 7 and 8). The temporary holding mechanism 30A temporarily holds the female screw member 10 by means of these first to eighth locking portions 31-38 until the male screw member 40 reaches the screwing completion state.

第1係止部31と第2係止部32は、第2直交方向Go2に沿って延在させている。雌螺子部材10の雌螺子部11は、その第1係止部31と第2係止部32の間に介在させ、その間から突出させる(図7)。 The first locking portion 31 and the second locking portion 32 extend along the second orthogonal direction Go2. The female threaded portion 11 of the female threaded member 10 is interposed between the first engaging portion 31 and the second engaging portion 32 and protrudes therefrom (FIG. 7).

第1係止部31と第3係止部33は、その間で螺子軸方向に沿って第1被係止部13cを相対移動させ得るものとして形成される(図3及び図7)。そして、第2係止部32と第4係止部34は、その間で螺子軸方向に沿って第2被係止部13dを相対移動させ得るものとして形成される(図3及び図7)。つまり、この仮保持機構30Aにおいては、第1係止部31と第3係止部33との間及び第2係止部32と第4係止部34との間で鍔部13に対して螺子軸方向の間隔を空けておくことによって、収容部材20に対して雌螺子部材10を螺子軸方向に沿って相対移動させる。よって、この仮保持機構30Aにおいては、第3係止部33や第4係止部34に向けた螺子軸方向の力が雌螺子部材10に作用した際に、その力の掛かる方向に雌螺子部材10を移動させることができる。 The first engaging portion 31 and the third engaging portion 33 are formed so that the first engaged portion 13c can be relatively moved therebetween along the direction of the screw shaft (FIGS. 3 and 7). The second engaging portion 32 and the fourth engaging portion 34 are formed so as to allow the second engaged portion 13d to move relatively therebetween along the direction of the screw shaft (FIGS. 3 and 7). In other words, in this temporary holding mechanism 30A, between the first locking portion 31 and the third locking portion 33 and between the second locking portion 32 and the fourth locking portion 34, the flange portion 13 is By leaving a space in the screw axis direction, the female screw member 10 is moved relative to the housing member 20 along the screw axis direction. Therefore, in this temporary holding mechanism 30A, when a force acting on the female screw member 10 toward the third engaging portion 33 or the fourth engaging portion 34 in the direction of the screw axis, the female screw is displaced in the direction in which the force is applied. Member 10 can be moved.

第5係止部35は、第2直交方向Go2で雌螺子部11を係止させるものであってもよく、第2直交方向Go2で第3被係止部13eを係止させるものであってもよい。この例示では、第2直交方向Go2で第3被係止部13eに対向配置される端子収容室22の壁部を第5係止部35として利用している(図6及び図8)。 The fifth locking portion 35 may lock the female screw portion 11 in the second orthogonal direction Go2, and may lock the third locked portion 13e in the second orthogonal direction Go2. good too. In this example, the wall portion of the terminal receiving chamber 22 arranged to face the third locked portion 13e in the second orthogonal direction Go2 is used as the fifth locking portion 35 (FIGS. 6 and 8).

第6係止部36は、第2直交方向Go2で雌螺子部11を係止させるものであってもよく、第2直交方向Go2で第4被係止部13fを係止させるものであってもよい。この第6係止部36は、雌螺子部材10における被係止位置まで締結対象物50から突出させ、その被係止位置に対向配置させる。この例示の第6係止部36は、第4被係止部13fを係止させるものとして形成される。ここでは、締結対象物50としての連結部51を有する導電部材70(70A,70B)に第6係止部36を設ける(図6及び図8)。つまり、この例示の導電部材70(70A,70B)は、連結部51から突出させた第6係止部36を有している(図3から図6、図11及び図12)。ここでは、連結部51の平面に対する直交方向に向けて連結部51から折り曲げた片部を第6係止部36として利用している。 The sixth locking portion 36 may lock the female screw portion 11 in the second orthogonal direction Go2, and may lock the fourth locked portion 13f in the second orthogonal direction Go2. good too. The sixth locking portion 36 projects from the fastening object 50 to the locked position in the female screw member 10 and is arranged to face the locked position. The illustrated sixth locking portion 36 is formed to lock the fourth locked portion 13f. Here, the sixth locking portion 36 is provided on the conductive member 70 (70A, 70B) having the connecting portion 51 as the fastening target 50 (FIGS. 6 and 8). That is, the illustrated conductive member 70 (70A, 70B) has the sixth locking portion 36 protruding from the connecting portion 51 (FIGS. 3 to 6, FIGS. 11 and 12). Here, a piece bent from the connecting portion 51 in the direction perpendicular to the plane of the connecting portion 51 is used as the sixth locking portion 36 .

ここで、収容部材20に対して締結対象物50としての連結部51が収容完了状態のときに、第5係止部35と第6係止部36は、その間で第2直交方向Go2に沿って雌螺子部材10を相対移動させ得るものとして形成される(図6及び図8)。そこで、この例示では、収容部材20に対して締結対象物50としての連結部51が収容完了状態のときに、第5係止部35と第3被係止部13eとの間に第2直交方向Go2の隙間を設け、かつ、第6係止部36と第4被係止部13fとの間に第2直交方向Go2の隙間を設ける。 Here, when the connecting portion 51 as the fastening target 50 is in the accommodation completion state with respect to the accommodation member 20, the fifth locking portion 35 and the sixth locking portion 36 are arranged along the second orthogonal direction Go2 therebetween. 6 and 8). Therefore, in this example, when the connecting portion 51 as the object to be fastened 50 is completely accommodated in the accommodating member 20, the second orthogonal position is provided between the fifth locking portion 35 and the third locked portion 13e. A gap in the direction Go2 is provided, and a gap in the second orthogonal direction Go2 is provided between the sixth locking portion 36 and the fourth locked portion 13f.

第7係止部37は、第1直交方向Go1で雌螺子部11を係止させるものであってもよく、第1直交方向Go1で第1被係止部13cを係止させるものであってもよい。例えば、第7係止部37は、雌螺子部11を係止させる場合、第1係止部31との共用化を図ってもよい。この例示では、第1直交方向Go1で第1被係止部13cに対向配置される端子収容室22の壁部を第7係止部37として利用している(図3、図7及び図8)。 The seventh locking portion 37 may lock the female screw portion 11 in the first orthogonal direction Go1, and may lock the first locked portion 13c in the first orthogonal direction Go1. good too. For example, when locking the female screw portion 11 , the seventh locking portion 37 may be shared with the first locking portion 31 . In this example, the wall portion of the terminal receiving chamber 22 arranged to face the first locked portion 13c in the first orthogonal direction Go1 is used as the seventh locking portion 37 (FIGS. 3, 7 and 8). ).

第8係止部38は、第1直交方向Go1で雌螺子部11を係止させるものであってもよく、第1直交方向Go1で第2被係止部13dを係止させるものであってもよい。例えば、第8係止部38は、雌螺子部11を係止させる場合、第2係止部32との共用化を図ってもよい。この例示では、第1直交方向Go1で第2被係止部13dに対向配置される壁部を第8係止部38として利用している(図3、図7及び図8)。 The eighth locking portion 38 may lock the female screw portion 11 in the first orthogonal direction Go1, and may lock the second locked portion 13d in the first orthogonal direction Go1. good too. For example, when locking the female screw portion 11, the eighth locking portion 38 may be shared with the second locking portion 32. FIG. In this example, the wall portion facing the second locked portion 13d in the first orthogonal direction Go1 is used as the eighth locking portion 38 (FIGS. 3, 7 and 8).

ここで、この例示の第7係止部37と第8係止部38は、その間で第1直交方向Go1に沿って雌螺子部材10を相対移動させ得るものとして形成される(図3、図7及び図8)。そこで、この例示では、第1係止部31と雌螺子部11との間及び第2係止部32と雌螺子部11との間に各々第1直交方向Go1の隙間を設け、かつ、第7係止部37と第1被係止部13cとの間及び第8係止部38と第2被係止部13dとの間に各々第1直交方向Go1の隙間を設ける。ここでは、前者の雌螺子部11側の隙間の合計値よりも後者の鍔部13側の隙間の合計値を小さくする。 Here, the illustrated seventh locking portion 37 and eighth locking portion 38 are formed so that the female screw member 10 can relatively move therebetween along the first orthogonal direction Go1 (FIGS. 3 and 4). 7 and 8). Therefore, in this example, gaps in the first orthogonal direction Go1 are provided between the first locking portion 31 and the female thread portion 11 and between the second locking portion 32 and the female thread portion 11, and A gap in the first orthogonal direction Go1 is provided between the seventh locking portion 37 and the first locked portion 13c and between the eighth locking portion 38 and the second locked portion 13d. Here, the total value of the clearances on the side of the flange portion 13 is made smaller than the total value of the clearances on the female screw portion 11 side of the former.

ところで、第1から第4の係止部31-34は、第2直交方向Go2に沿って端子収容室22の開口22aまで延在させる(図6及び図8)。これにより、この仮保持機構30Aにおいては、その第1から第4の係止部31-34が、端子収容室22の開口22aから挿入されてきた雌螺子部材10を収容完了位置まで案内するガイド機構として利用される。この例示では、雌螺子部材10を開口22aに差し入れてから直ぐに収容完了位置に向けて案内することができる。 By the way, the first to fourth locking portions 31-34 extend to the opening 22a of the terminal accommodating chamber 22 along the second orthogonal direction Go2 (FIGS. 6 and 8). Thus, in the temporary holding mechanism 30A, the first to fourth locking portions 31-34 guide the female screw member 10 inserted through the opening 22a of the terminal accommodating chamber 22 to the accommodation completion position. used as a mechanism. In this example, the female screw member 10 can be guided toward the accommodation completion position immediately after being inserted into the opening 22a.

また、この例示では、第7係止部37と第8係止部38にもガイド機構としての機能を持たせる。よって、第7係止部37と第8係止部38は、第2直交方向Go2に沿って端子収容室22の開口22aまで延在させる(図8)。これにより、この仮保持機構30Aにおいては、その第7係止部37と第8係止部38が、端子収容室22の開口22aから挿入されてきた雌螺子部材10を収容完了位置まで案内することができる。 In this example, the seventh locking portion 37 and the eighth locking portion 38 are also provided with a function as a guide mechanism. Therefore, the seventh locking portion 37 and the eighth locking portion 38 extend to the opening 22a of the terminal accommodating chamber 22 along the second orthogonal direction Go2 (FIG. 8). As a result, in the temporary holding mechanism 30A, the seventh locking portion 37 and the eighth locking portion 38 guide the female screw member 10 inserted through the opening 22a of the terminal receiving chamber 22 to the accommodation completion position. be able to.

以上示した本実施形態の電気接続箱1においては、雌螺子部材10が螺子軸方向の力を受けた際に、収容部材20に対してその力の向きに雌螺子部材10を相対移動させることができる。このため、この電気接続箱1においては、雌螺子部材10と雄螺子部材40とで締結対象物50を締結させるべく、雌螺子部材10の挟持部12上に締結対象物50を設置する際に、その雌螺子部材10が締結対象物50から螺子軸方向の力を受けたとしても、収容部材20に対してその力の向きに雌螺子部材10を相対移動させることができる。従って、この電気接続箱1においては、雌螺子部材10の挟持部12上に締結対象物50を設置する際の力を軽減させることができるので、その設置作業性を向上させることができる。 In the electrical connection box 1 of the present embodiment described above, when the female screw member 10 receives force in the direction of the screw axis, the female screw member 10 is moved relative to the housing member 20 in the direction of the force. can be done. For this reason, in the electric junction box 1, in order to fasten the fastening object 50 between the female screw member 10 and the male screw member 40, when the fastening object 50 is installed on the clamping portion 12 of the female screw member 10, , even if the female screw member 10 receives a force in the screw axial direction from the fastening object 50, the female screw member 10 can be moved relative to the housing member 20 in the direction of the force. Therefore, in the electrical connection box 1, the force required to install the fastening object 50 on the clamping portion 12 of the female screw member 10 can be reduced, so that installation workability can be improved.

具体的に、この例示の電気接続箱1においては、端子収容室22に収容されている雌螺子部材10の挟持部12と導電部材70の連結部51との間の隙間が電子部品80の端子部52の板厚より狭くなっていたとしても、その間に挿入され始めた端子部52が雌螺子部材10を螺子軸方向に押動しながら、その間の隙間を押し広げていくことができる。従って、この電気接続箱1においては、雌螺子部材10の挟持部12と導電部材70の連結部51との間に締結対象物50たる端子部52を挿入する際の挿入力を軽減させることができるので、その端子部52の挿入作業性を向上させることができ、これに伴い、電子部品80の部品収容室21への挿入作業性も向上させることができる。 Specifically, in the electrical junction box 1 of this example, the gap between the clamping portion 12 of the female screw member 10 housed in the terminal housing chamber 22 and the connecting portion 51 of the conductive member 70 is the terminal of the electronic component 80 . Even if it is narrower than the plate thickness of the portion 52, the terminal portion 52, which has begun to be inserted therebetween, pushes the female screw member 10 in the direction of the screw shaft, thereby expanding the gap therebetween. Therefore, in the electrical connection box 1, the insertion force when inserting the terminal portion 52, which is the object to be fastened 50, between the holding portion 12 of the female screw member 10 and the connecting portion 51 of the conductive member 70 can be reduced. Therefore, the workability of inserting the terminal portion 52 can be improved, and accordingly the workability of inserting the electronic component 80 into the component housing chamber 21 can also be improved.

更に、本実施形態の電気接続箱1においては、雌螺子部材10における端子収容室22の開口22a側への動き(つまり、雌螺子部材10の端子収容室22からの抜去方向の動き)を締結対象物50の第6係止部36で係止させる。ここで、そのような雌螺子部材10の開口22a側への動きを収容部材20で係止させる場合、収容部材20には、その開口22a側で雌螺子部材10に対向配置させる係止部を設ける必要がある。しかしながら、そのような係止部は、雌螺子部材10を端子収容室22に収容させる際に、この雌螺子部材10がぶつかってしまう。このため、この係止部は、雌螺子部材10からの押動力を受けた際に、可撓性を持たせたアーム体等で一時的に退避させる必要がある。本実施形態の電気接続箱1においては、第6係止部36を締結対象物50に設けているので、雌螺子部材10を端子収容室22に収容した後で、締結対象物50を端子収容室22に収容することによって、その締結対象物50の第6係止部36で雌螺子部材10の開口22a側への動きを係止させることができる。このように、本実施形態の電気接続箱1は、可撓性を持たせたアーム体等のような複雑な機構を設ける必要がないので、原価の低減を図りつつ、耐久性を向上させることができる。 Furthermore, in the electric connection box 1 of the present embodiment, the movement of the female screw member 10 toward the opening 22a of the terminal accommodating chamber 22 (that is, the movement of the female screw member 10 in the direction of removal from the terminal accommodating chamber 22) is fastened. The object 50 is locked at the sixth locking portion 36 . Here, when such movement of the female screw member 10 toward the opening 22a side is to be locked by the housing member 20, the housing member 20 is provided with a locking portion arranged to face the female screw member 10 on the side of the opening 22a. must be provided. However, such an engaging portion causes the female screw member 10 to collide with the female screw member 10 when the female screw member 10 is accommodated in the terminal accommodating chamber 22 . For this reason, when receiving the pushing force from the female screw member 10, the engaging portion needs to be temporarily retracted by a flexible arm or the like. In the electric connection box 1 of the present embodiment, the sixth locking portion 36 is provided on the fastening object 50, so that after the female screw member 10 is accommodated in the terminal accommodating chamber 22, the fastening object 50 is accommodated in the terminal. By housing in the chamber 22, the sixth locking portion 36 of the object 50 to be fastened can lock the movement of the female screw member 10 toward the opening 22a. As described above, the electric junction box 1 of the present embodiment does not need to be provided with a complicated mechanism such as a flexible arm body, etc., so that it is possible to improve the durability while reducing the cost. can be done.

また更に、本実施形態の電気接続箱1においては、収容部材20に対して雌螺子部材10を螺子軸方向に対する直交方向(第1直交方向Go1及び第2直交方向Go2)に相対移動させることができる。このため、この電気接続箱1においては、連結部51の貫通孔51aや端子部52の貫通孔52aの中心に対する雌螺子部材10の螺子軸の位置ずれを修正することができる。従って、この電気接続箱1においては、雌螺子部材10と雄螺子部材40とを螺合させる際の作業性も向上させることができる。 Furthermore, in the electric connection box 1 of the present embodiment, the female screw member 10 can be moved relative to the housing member 20 in the direction orthogonal to the screw axis direction (the first orthogonal direction Go1 and the second orthogonal direction Go2). can. Therefore, in the electrical connection box 1, the displacement of the screw shaft of the female screw member 10 with respect to the center of the through hole 51a of the connecting portion 51 and the through hole 52a of the terminal portion 52 can be corrected. Therefore, in the electric junction box 1, the workability of screwing the female screw member 10 and the male screw member 40 together can be improved.

本実施形態の電気接続箱1においては、雌螺子部材10と雄螺子部材40とが螺合完了状態となったときに、第1係止部31及び第2係止部32に対して、雌螺子部材10の鍔部13における第1被係止部13c及び第2被係止部13dのそれぞれの第1壁部13aから押圧力を作用させることができる。そして、この電気接続箱1においては、螺合完了状態が続く限り、その押圧力を作用させ続けることができるので、雌螺子部材10を収容部材20に固定させることができる。従って、この電気接続箱1においては、その螺合完了状態が続く限り、雌螺子部材10と雄螺子部材40による締結対象物50(導電部材70の連結部51と電子部品80の端子部52)の締結状態を保ち続けることができる。 In the electrical connection box 1 of the present embodiment, when the female screw member 10 and the male screw member 40 are in the screwed-together state, the female threaded member 10 and the male threaded member 40 are engaged with the first locking portion 31 and the second locking portion 32 . A pressing force can be applied from the first wall portion 13a of each of the first locked portion 13c and the second locked portion 13d of the flange portion 13 of the screw member 10. As shown in FIG. In this electrical connection box 1, the pressing force can be continuously applied as long as the screwing completion state continues, so that the female screw member 10 can be fixed to the housing member 20. FIG. Therefore, in the electric connection box 1, as long as the screwing completion state continues, the object 50 to be fastened by the female screw member 10 and the male screw member 40 (the connecting portion 51 of the conductive member 70 and the terminal portion 52 of the electronic component 80) can be engaged. can continue to maintain the fastened state of

[実施形態2]
本発明に係る電気接続箱の実施形態の1つを図13から図20に基づいて説明する。 [Embodiment 2]
One embodiment of the electric connection box according to the present invention will be described with reference to FIGS. 13 to 20. FIG.

図13から図19の符号101は、本実施形態の電気接続箱を示す。その電気接続箱101は、前述した実施形態1と同じ雌螺子部材10と、この雌螺子部材10が収容され且つ固定される絶縁性の収容部材120と、を備える(図13及び図15から図19)。この電気接続箱101は、その収容部材120に雌螺子部材10を固定させる雌螺子固定構造130を備える(図13及び図15から図19)。その雌螺子固定構造130は、前述した実施形態1と同じ雄螺子部材40が螺合完了状態になるまで雌螺子部材10を仮保持させる仮保持機構130Aを備える。また、この電気接続箱101は、収容部材120に収容される導電性の締結対象物150を備える(図13から図18)。仮保持機構130Aは、実施形態1の仮保持機構30Aと同じように、収容部材120と締結対象物150とで構成する。この電気接続箱101は、収容部材120の中で締結対象物150を雌螺子部材10と雄螺子部材40とで締結させる締結構造160を備える(図13から図19)。その締結構造160は、締結対象物150と雌螺子部材10と雄螺子部材40と雌螺子固定構造130とで構成される。 Reference numeral 101 in FIGS. 13 to 19 indicates the electrical junction box of this embodiment. The electrical connection box 101 includes the same female screw member 10 as in the first embodiment described above, and an insulating housing member 120 in which the female screw member 10 is housed and fixed (Figs. 13 and 15 to 15). 19). This electric connection box 101 has a female screw fixing structure 130 for fixing the female screw member 10 to its accommodating member 120 (FIGS. 13 and 15 to 19). The female screw fixing structure 130 includes a temporary holding mechanism 130A for temporarily holding the female screw member 10 until the male screw member 40, which is the same as that of the first embodiment described above, reaches the screwing completion state. The electric connection box 101 also includes a conductive fastening object 150 housed in the housing member 120 (FIGS. 13 to 18). 130 A of temporary holding mechanisms are comprised by the accommodating member 120 and the fastening target object 150 like 30 A of temporary holding mechanisms of Embodiment 1. As shown in FIG. This electrical junction box 101 has a fastening structure 160 that fastens an object 150 to be fastened with the female screw member 10 and the male screw member 40 in the housing member 120 (FIGS. 13 to 19). The fastening structure 160 is composed of the fastening object 150 , the female screw member 10 , the male screw member 40 and the female screw fixing structure 130 .

この例示では、締結対象物150として、導電部材170の板状の連結部151が設けられている(図13から図18及び図20)。ここで示す導電部材170は、金属等の導電性材料で板状に成形された所謂バスバである。連結部151は、平板状に形成されている。この連結部151には、雄螺子部41を挿通させる円形の貫通孔151aが形成されている(図13及び図20)。例えば、この連結部151は、雌螺子部材10と雄螺子部材40とで締結させることによって、導電部材170を収容部材120に固定させる際に用いることができる。また、ここでの図示は省略するが、連結部151と雄螺子部材40との間には、別の締結対象物150としての端子(例えば、LA端子等)を介在させることができる。この場合の連結部151は、その別の端子(LA端子等)と共に雌螺子部材10と雄螺子部材40とで締結させることによって、この別の端子(LA端子等)を導電部材170に電気接続させるために用いることができる。 In this example, a plate-like connecting portion 151 of a conductive member 170 is provided as the fastening target 150 (FIGS. 13 to 18 and 20). The conductive member 170 shown here is a so-called bus bar formed into a plate shape from a conductive material such as metal. The connecting portion 151 is formed in a flat plate shape. A circular through hole 151a through which the male screw portion 41 is inserted is formed in the connecting portion 151 (FIGS. 13 and 20). For example, the connecting portion 151 can be used to fix the conductive member 170 to the housing member 120 by fastening the female screw member 10 and the male screw member 40 together. Although not shown here, a terminal (for example, an LA terminal) as another fastening object 150 can be interposed between the connecting portion 151 and the male screw member 40 . In this case, the coupling portion 151 electrically connects the other terminal (LA terminal, etc.) to the conductive member 170 by fastening the female screw member 10 and the male screw member 40 together with the other terminal (LA terminal, etc.). can be used to

この例示の導電部材170は、矩形の平板状の主体171を有している(図13及び図20)。その主体171は、4つの辺部を有している。この例示の導電部材170においては、その主体171の交差する2つの辺部の内の一方に同一平面上で雄タブ端子172を設け、その内の他方に同一平面上で連結部151を設けている(図13及び図20)。この導電部材170は、雄タブ端子172の主体171からの突出方向に沿って収容部材120に収容される。連結部151は、収容部材120に対する導電部材170の収容完了状態のときに、一方の平面を雌螺子部材10の挟持部12に面接触させる。収容部材120においては、雌螺子部材10が導電部材170よりも先に収容されており、導電部材170が収容完了状態となったときに、雌螺子部材10の螺子軸と略同軸上に連結部151の貫通孔151aが配置されている。但し、雌螺子部材10は、後述するように、収容部材120に対して相対移動できるので、その相対移動量の範囲内で、貫通孔151aの中心に対して螺子軸が偏心している場合もある。雄タブ端子172は、電子部品(例えば、ヒューズ)185(図13及び図14)に電気接続される。 This exemplary conductive member 170 has a rectangular planar main body 171 (FIGS. 13 and 20). Its main body 171 has four sides. In this exemplified conductive member 170, a male tab terminal 172 is provided on one of two intersecting sides of a main body 171 on the same plane, and a connecting portion 151 is provided on the other of them on the same plane. (Figs. 13 and 20). The conductive member 170 is housed in the housing member 120 along the direction in which the male tab terminal 172 protrudes from the main body 171 . One plane surface of the connecting portion 151 is in surface contact with the clamping portion 12 of the female screw member 10 when the conductive member 170 is completely accommodated in the accommodating member 120 . In the accommodating member 120, the female screw member 10 is accommodated prior to the conductive member 170, and when the electrically conductive member 170 is in a completely accommodated state, the connection portion is substantially coaxial with the screw shaft of the female screw member 10. 151 through holes 151a are arranged. However, since the female screw member 10 can move relative to the housing member 120 as will be described later, the screw shaft may be eccentric with respect to the center of the through hole 151a within the range of the relative movement amount. . Male tab terminal 172 is electrically connected to electronic component (eg, fuse) 185 (FIGS. 13 and 14).

収容部材120は、合成樹脂等の絶縁性材料で成形される。この収容部材120とは、筐体等のような箱状に成形されたものであってもよく、その筐体の中に収容され且つ保持される所謂ブロックとして成形されたものであってもよい。ここでは、ブロックとして成形された収容部材120を例示している。 The housing member 120 is molded from an insulating material such as synthetic resin. The housing member 120 may be formed in a box shape such as a housing, or may be formed as a so-called block that is housed and held in the housing. . Here, a housing member 120 molded as a block is illustrated.

この収容部材120は、電子部品185が収容される部品収容室121を備える(図13及び図14)。その部品収容室121には、開口(電子部品挿入口)121aを介して電子部品185が挿入されていく(図13及び図14)。電子部品185は、その部品収容室121の中で導電部材170の雄タブ端子172に電気接続される。 This housing member 120 has a component housing chamber 121 in which an electronic component 185 is housed (FIGS. 13 and 14). An electronic component 185 is inserted into the component storage chamber 121 through an opening (electronic component insertion port) 121a (FIGS. 13 and 14). The electronic component 185 is electrically connected to the male tab terminal 172 of the conductive member 170 within the component housing chamber 121 thereof.

更に、この収容部材120は、雌螺子部材10が収容される雌螺子収容室122を備える(図10から図15)。その雌螺子収容室122には、連結部151も収容される。この雌螺子収容室122は、部品収容室121に対する電子部品185の挿抜方向で開口121aとは逆側に開口122aを有している(図13、図14、図16、図17及び図19)。雌螺子部材10と連結部151は、その開口122aを介して電子部品185の挿入方向とは逆向きで雌螺子収容室122に挿入されていく。 Furthermore, this accommodation member 120 has a female screw accommodation chamber 122 in which the female screw member 10 is accommodated (FIGS. 10 to 15). The connecting portion 151 is also accommodated in the female screw accommodating chamber 122 . The female screw housing chamber 122 has an opening 122a on the opposite side of the opening 121a in the inserting/removing direction of the electronic component 185 with respect to the component housing chamber 121 (FIGS. 13, 14, 16, 17 and 19). . The female screw member 10 and the connecting portion 151 are inserted into the female screw housing chamber 122 through the opening 122a in a direction opposite to the insertion direction of the electronic component 185 .

連結部151は、例えば、雌螺子収容室122の中で雌螺子部材10と雄螺子部材40とによって、先の端子(LA端子等)を介在させた上で締結される。雌螺子収容室122には、収容完了状態の雌螺子部材10の螺子軸の延長線上に、雌螺子部材10と雄螺子部材40の螺合作業を行うための開口(作業口)122bが形成されている(図13及び図14)。 The connecting portion 151 is, for example, fastened by the female screw member 10 and the male screw member 40 in the female screw accommodating chamber 122 with the terminal (LA terminal or the like) interposed therebetween. In the female screw housing chamber 122, an opening (work opening) 122b for screwing the female screw member 10 and the male screw member 40 is formed on the extension line of the screw shaft of the female screw member 10 in the housed state. (FIGS. 13 and 14).

仮保持機構130Aは、先に示したように、収容部材120と締結対象物150とで構成する。この仮保持機構130Aは、実施形態1の仮保持機構30Aにおける第1から第8の係止部31-38と同様の第1から第8の係止部131-138を有しており(図15から図20)、これらによって雌螺子部材10を雄螺子部材40が螺合完了状態になるまで仮保持させる。よって、この仮保持機構130Aにおいては、第1から第5の係止部131-135と第7及び第8の係止部137,138を収容部材120の雌螺子収容室122に設け、第6係止部136を締結対象物150に設ける。 130 A of temporary holding mechanisms are comprised with the accommodating member 120 and the fastening target object 150, as shown previously. The temporary holding mechanism 130A has first to eighth locking portions 131-138 similar to the first to eighth locking portions 31-38 in the temporary holding mechanism 30A of the first embodiment (FIG. 15 to 20), the female screw member 10 is temporarily held until the male screw member 40 is completely screwed. Therefore, in this temporary holding mechanism 130A, the first to fifth engaging portions 131-135 and the seventh and eighth engaging portions 137, 138 are provided in the female screw accommodating chamber 122 of the accommodating member 120, and the sixth engaging portion 130A is provided. A locking portion 136 is provided on the fastening object 150 .

第1係止部131は、雌螺子部材10の鍔部13における第1被係止部13cの第1壁部13aを螺子軸方向で係止させるものとして形成する。また、第2係止部132は、鍔部13における第2被係止部13dの第1壁部13aを螺子軸方向で係止させるものとして形成する。また、第3係止部133は、第1被係止部13cの第2壁部13bを螺子軸方向で係止させるものとして形成する。また、第4係止部134は、第2被係止部13dの第2壁部13bを螺子軸方向で係止させるものとして形成する。 The first locking portion 131 is formed to lock the first wall portion 13a of the first locked portion 13c of the collar portion 13 of the female screw member 10 in the direction of the screw axis. Also, the second locking portion 132 is formed to lock the first wall portion 13a of the second locked portion 13d of the flange portion 13 in the direction of the screw axis. The third locking portion 133 is formed to lock the second wall portion 13b of the first locked portion 13c in the direction of the screw axis. The fourth locking portion 134 is formed to lock the second wall portion 13b of the second locked portion 13d in the direction of the screw axis.

第1係止部131と第3係止部133は、実施形態1の第1係止部31及び第3係止部33と同じように、その間で螺子軸方向に沿って第1被係止部13cを相対移動させ得るものとして形成される(図15から図18)。また、第2係止部132と第4係止部134は、実施形態1の第2係止部32及び第4係止部34と同じように、その間で螺子軸方向に沿って第2被係止部13dを相対移動させ得るものとして形成される(図15及び図18)。つまり、この仮保持機構130Aにおいては、第1係止部131と第3係止部133との間及び第2係止部132と第4係止部134との間で鍔部13に対して螺子軸方向の間隔を空けておくことによって、収容部材120に対して雌螺子部材10を螺子軸方向に沿って相対移動させる。よって、この仮保持機構130Aにおいては、実施形態1の仮保持機構30Aと同じように、第3係止部133や第4係止部134に向けた螺子軸方向の力が雌螺子部材10に作用した際に、その力の掛かる方向に雌螺子部材10を移動させることができる。 The first locking portion 131 and the third locking portion 133 have the first locking portion 131 and the third locking portion 133 interposed therebetween along the screw axis direction in the same manner as the first locking portion 31 and the third locking portion 33 of the first embodiment. It is formed so that the portion 13c can be relatively moved (FIGS. 15 to 18). In addition, the second locking portion 132 and the fourth locking portion 134, like the second locking portion 32 and the fourth locking portion 34 of the first embodiment, have a second cover extending therebetween in the direction of the screw axis. It is formed so that the engaging portion 13d can be relatively moved (FIGS. 15 and 18). In other words, in this temporary holding mechanism 130A, between the first locking portion 131 and the third locking portion 133 and between the second locking portion 132 and the fourth locking portion 134, the flange portion 13 is By leaving a space in the screw axis direction, the female screw member 10 is moved relative to the housing member 120 along the screw axis direction. Therefore, in this temporary holding mechanism 130A, as in the temporary holding mechanism 30A of the first embodiment, the force in the direction of the screw axis toward the third engaging portion 133 and the fourth engaging portion 134 is applied to the female screw member 10. When acting, the female thread member 10 can be moved in the direction in which the force is applied.

第1係止部131と第2係止部132は、第2直交方向Go2に沿って延在させている。雌螺子部材10の雌螺子部11は、その第1係止部131と第2係止部132の間に介在させ、その間から突出させる(図16、図17及び図19)。 The first locking portion 131 and the second locking portion 132 extend along the second orthogonal direction Go2. The female threaded portion 11 of the female threaded member 10 is interposed between the first engaging portion 131 and the second engaging portion 132 and protrudes therefrom (FIGS. 16, 17 and 19).

第5係止部135は、実施形態1の第5係止部35と同じように、第2直交方向Go2における一方側で雌螺子部材10を係止させるものとして形成する。この第5係止部135は、第2直交方向Go2で雌螺子部11を係止させるものであってもよく、第2直交方向Go2で第3被係止部13eを係止させるものであってもよい。この例示では、第2直交方向Go2で第3被係止部13eに対向配置される雌螺子収容室122の壁部を第5係止部135として利用している(図16、図17及び図19)。 As with the fifth locking portion 35 of the first embodiment, the fifth locking portion 135 is formed to lock the female screw member 10 on one side in the second orthogonal direction Go2. The fifth engaging portion 135 may engage the female screw portion 11 in the second orthogonal direction Go2, and may engage the third engaged portion 13e in the second orthogonal direction Go2. may In this example, the wall portion of the female screw receiving chamber 122 arranged to face the third locked portion 13e in the second orthogonal direction Go2 is used as the fifth locking portion 135 (FIGS. 16, 17 and 16). 19).

第6係止部136は、実施形態1の第6係止部36と同じように、第2直交方向Go2における他方側で雌螺子部材10を係止させるものとして形成する。この第6係止部136は、第2直交方向Go2で雌螺子部11を係止させるものであってもよく、第2直交方向Go2で第4被係止部13fを係止させるものであってもよい。この第6係止部136は、実施形態1の第6係止部36と同じように、雌螺子部材10における被係止位置まで締結対象物150から突出させ、その被係止位置に対向配置させる。この例示の第6係止部136は、第4被係止部13fを係止させるものとして形成される。ここでは、締結対象物150としての連結部151を有する導電部材170に第6係止部136を設ける(図15から図17及び図20)。つまり、この例示の導電部材170は、連結部151から突出させた第6係止部136を有している(図15から図17及び図20)。ここでは、連結部151の平面に対する直交方向に向けて連結部151から折り曲げた片部を第6係止部136として利用している。 The sixth locking portion 136 is formed to lock the female screw member 10 on the other side in the second orthogonal direction Go2, like the sixth locking portion 36 of the first embodiment. The sixth locking portion 136 may lock the female screw portion 11 in the second orthogonal direction Go2, and may lock the fourth locked portion 13f in the second orthogonal direction Go2. may As with the sixth locking portion 36 of the first embodiment, the sixth locking portion 136 protrudes from the fastening object 150 to the locked position on the female screw member 10 and is arranged to face the locked position. Let The illustrated sixth locking portion 136 is formed to lock the fourth locked portion 13f. Here, a conductive member 170 having a connecting portion 151 as a fastening object 150 is provided with a sixth locking portion 136 (FIGS. 15 to 17 and 20). That is, this exemplary conductive member 170 has a sixth locking portion 136 protruding from the connecting portion 151 (FIGS. 15 to 17 and 20). Here, a piece bent from the connecting portion 151 in the direction perpendicular to the plane of the connecting portion 151 is used as the sixth locking portion 136 .

ここで、本実施形態の仮保持機構130Aにおいても、収容部材120に対して締結対象物150としての連結部151が収容完了状態のときに、第5係止部135と第6係止部136は、その間で第2直交方向Go2に沿って雌螺子部材10を相対移動させ得るものとして形成される(図16及び図19)。そこで、この例示では、収容部材120に対して締結対象物150としての連結部151が収容完了状態のときに、第5係止部135と第3被係止部13eとの間に第2直交方向Go2の隙間を設け、かつ、第6係止部136と第4被係止部13fとの間に第2直交方向Go2の隙間を設ける。 Here, also in the temporary holding mechanism 130A of the present embodiment, when the connecting portion 151 as the object to be fastened 150 is completely accommodated in the accommodating member 120, the fifth engaging portion 135 and the sixth engaging portion 136 are engaged. are formed such that the female screw member 10 can relatively move therebetween along the second orthogonal direction Go2 (FIGS. 16 and 19). Therefore, in this example, when the connecting portion 151 as the object to be fastened 150 is completely accommodated in the accommodating member 120, the second orthogonal coupling is provided between the fifth locking portion 135 and the third locked portion 13e. A gap in the direction Go2 is provided, and a gap in the second orthogonal direction Go2 is provided between the sixth locking portion 136 and the fourth locked portion 13f.

第7係止部137は、実施形態1の第7係止部37と同じように、第1直交方向Go1における一方側で雌螺子部材10を係止させるものとして形成する。この第7係止部137は、第1直交方向Go1で雌螺子部11を係止させるものであってもよく、第1直交方向Go1で第1被係止部13cを係止させるものであってもよい。例えば、第7係止部137は、雌螺子部11を係止させる場合、第1係止部131との共用化を図ってもよい。この例示では、第1直交方向Go1で第1被係止部13cに対向配置される雌螺子収容室122の壁部を第7係止部137として利用している(図15、図18及び図19)。 As with the seventh locking portion 37 of the first embodiment, the seventh locking portion 137 is formed to lock the female screw member 10 on one side in the first orthogonal direction Go1. The seventh engaging portion 137 may engage the female screw portion 11 in the first orthogonal direction Go1, and may engage the first engaged portion 13c in the first orthogonal direction Go1. may For example, when locking the female screw portion 11 , the seventh locking portion 137 may be shared with the first locking portion 131 . In this example, the wall portion of the female screw receiving chamber 122 arranged to face the first locked portion 13c in the first orthogonal direction Go1 is used as the seventh locking portion 137 (Figs. 19).

また、第8係止部138は、実施形態1の第8係止部38と同じように、第1直交方向Go1における他方側で雌螺子部材10を係止させるものとして形成する。この第8係止部138は、第1直交方向Go1で雌螺子部11を係止させるものであってもよく、第1直交方向Go1で第2被係止部13dを係止させるものであってもよい。例えば、第8係止部138は、雌螺子部11を係止させる場合、第2係止部132との共用化を図ってもよい。この例示では、第1直交方向Go1で第2被係止部13dに対向配置される雌螺子収容室122の壁部を第8係止部138として利用している(図15、図18及び図19)。 Further, the eighth locking portion 138 is formed to lock the female screw member 10 on the other side in the first orthogonal direction Go1, like the eighth locking portion 38 of the first embodiment. The eighth engaging portion 138 may engage the female screw portion 11 in the first orthogonal direction Go1, and may engage the second engaged portion 13d in the first orthogonal direction Go1. may For example, when locking the female screw portion 11 , the eighth locking portion 138 may be shared with the second locking portion 132 . In this example, the wall portion of the female screw receiving chamber 122 arranged to face the second locked portion 13d in the first orthogonal direction Go1 is used as the eighth locking portion 138 (Figs. 15, 18 and 19).

この例示の第7係止部137と第8係止部138は、実施形態1の第7係止部37及び第8係止部38と同じように、雌螺子部材10を第1直交方向Go1に相対移動させ得るものとして形成されている(図15、図18及び図19)。 The seventh locking portion 137 and the eighth locking portion 138 of this example, like the seventh locking portion 37 and the eighth locking portion 38 of the first embodiment, extend the female screw member 10 in the first orthogonal direction Go1. (Figs. 15, 18 and 19).

ところで、本実施形態においても、第1から第4の係止部131-134は、実施形態1の第1から第4の係止部31-34と同じように、第2直交方向Go2に沿って雌螺子収容室122の開口122aまで延在させる(図16、図17及び図19)。つまり、この仮保持機構130Aにおいては、実施形態1の仮保持機構30Aと同じように、その第1から第4の係止部131-134を雌螺子部材10の挿入時のガイド機構として利用する。 By the way, also in this embodiment, the first to fourth locking portions 131-134 are arranged along the second orthogonal direction Go2 in the same manner as the first to fourth locking portions 31-34 of the first embodiment. to the opening 122a of the female screw receiving chamber 122 (FIGS. 16, 17 and 19). That is, in this temporary holding mechanism 130A, the first to fourth engaging portions 131 to 134 are used as a guide mechanism when inserting the female screw member 10, like the temporary holding mechanism 30A of the first embodiment. .

また、本実施形態においても、第7係止部137と第8係止部138は、実施形態1の第7係止部37及び第8係止部38と同じように、第2直交方向Go2に沿って雌螺子収容室122の開口122aまで延在させる(図19)。つまり、この仮保持機構130Aにおいては、実施形態1の仮保持機構30Aと同じように、その第7係止部137と第8係止部138についても雌螺子部材10の挿入時のガイド機構として利用する。 Also in this embodiment, the seventh locking portion 137 and the eighth locking portion 138 are arranged in the second orthogonal direction Go2 in the same manner as the seventh locking portion 37 and the eighth locking portion 38 of the first embodiment. to the opening 122a of the female screw housing chamber 122 (FIG. 19). That is, in the temporary holding mechanism 130A, the seventh locking portion 137 and the eighth locking portion 138 also serve as a guide mechanism when inserting the female screw member 10, as in the temporary holding mechanism 30A of the first embodiment. use.

以上示した本実施形態の電気接続箱101においては、雌螺子部材10が螺子軸方向の力を受けた際に、収容部材120に対してその力の向きに雌螺子部材10を相対移動させることができる。このため、この電気接続箱101においては、雌螺子部材10と雄螺子部材40とで締結対象物150を締結させるべく、雌螺子部材10の挟持部12上に締結対象物150を設置する際に、その雌螺子部材10が締結対象物150から螺子軸方向の力を受けたとしても、収容部材120に対してその力の向きに雌螺子部材10を相対移動させることができる。従って、この電気接続箱101においては、雌螺子部材10の挟持部12上に締結対象物150を設置する際の力を軽減させることができるので、その設置作業性を向上させることができる。 In the electrical connection box 101 of this embodiment described above, when the female screw member 10 receives a force in the direction of the screw axis, the female screw member 10 is moved relative to the housing member 120 in the direction of the force. can be done. For this reason, in the electric connection box 101, in order to fasten the fastening object 150 between the female screw member 10 and the male screw member 40, when the fastening object 150 is installed on the clamping portion 12 of the female screw member 10, , even if the female screw member 10 receives force in the direction of the screw axis from the object 150 to be fastened, the female screw member 10 can be moved relative to the housing member 120 in the direction of the force. Therefore, in the electrical connection box 101, the force required to install the fastening object 150 on the clamping portion 12 of the female screw member 10 can be reduced, so that installation workability can be improved.

具体的に、この例示の電気接続箱101においては、導電部材170を収容部材120に収容させる際に、雌螺子収容室122に収容されている雌螺子部材10の挟持部12に導電部材170の連結部151が接触したとしても、導電部材170の挿入を続けることで、螺子軸方向に向けて連結部151に雌螺子部材10を押動させることができる。また、この例示の電気接続箱101においては、導電部材170を収容部材120に収容する際に、雌螺子収容室122に収容されている雌螺子部材10の雌螺子部11の外周壁の先端部に導電部材170の連結部151が接触したとしても、導電部材170の挿入を続けることで、その連結部151を挟持部12まで案内させることができれば、螺子軸方向に向けて連結部151に雌螺子部材10を押動させることができる。例えば、この例示では、雌螺子部11の先端部における外周壁側の隅部が面取り加工されており、その面取り部で連結部151を挟持部12まで案内させる。従って、この電気接続箱101においては、締結対象物150としての連結部151が設けられている導電部材170を収容部材120に挿入する際の挿入力を軽減させることができるので、その導電部材170の挿入作業性を向上させることができる。 Specifically, in the electrical connection box 101 of this example, when the conductive member 170 is housed in the housing member 120 , the conductive member 170 is attached to the clamping portion 12 of the female screw member 10 housed in the female screw housing chamber 122 . Even if the connecting portion 151 comes into contact with the connecting portion 151, by continuing to insert the conductive member 170, the connecting portion 151 can push the female screw member 10 in the direction of the screw axis. Further, in the electric junction box 101 of this example, when the conductive member 170 is housed in the housing member 120, the distal end portion of the outer peripheral wall of the female screw portion 11 of the female screw member 10 housed in the female screw housing chamber 122 is Even if the connecting portion 151 of the conductive member 170 comes into contact with the connecting portion 151 of the conductive member 170, if the connecting portion 151 can be guided to the clamping portion 12 by continuing the insertion of the conductive member 170, the connecting portion 151 will be connected to the connecting portion 151 in the direction of the screw axis. The screw member 10 can be pushed. For example, in this example, the corner portion on the outer peripheral wall side of the distal end portion of the female screw portion 11 is chamfered, and the chamfered portion guides the connecting portion 151 to the holding portion 12 . Therefore, in the electrical connection box 101, the insertion force when inserting the conductive member 170 provided with the coupling portion 151 as the fastening object 150 into the housing member 120 can be reduced. can improve the insertion workability.

更に、本実施形態の電気接続箱101においては、実施形態1の電気接続箱1と同じように、雌螺子部材10における雌螺子収容室122の開口122a側への動き(つまり、雌螺子部材10の雌螺子収容室122からの抜去方向の動き)を締結対象物150の第6係止部136で係止させる。このように、この電気接続箱101においては、第6係止部136を締結対象物150に設けているので、雌螺子部材10を雌螺子収容室122に収容した後で、締結対象物150を雌螺子収容室122に収容することによって、その締結対象物150の第6係止部136で雌螺子部材10の開口122a側への動きを係止させることができる。よって、本実施形態の電気接続箱101は、実施形態1の電気接続箱1と同じように、可撓性を持たせたアーム体等のような複雑な機構を設ける必要がないので、原価の低減を図りつつ、耐久性を向上させることができる。 Furthermore, in the electrical junction box 101 of the present embodiment, as in the electrical junction box 1 of the first embodiment, the movement of the female screw housing chamber 122 in the female screw member 10 toward the opening 122a side (that is, the female screw member 10 movement in the removal direction from the female screw accommodating chamber 122 ) is locked by the sixth locking portion 136 of the fastening object 150 . As described above, in the electrical connection box 101, the sixth locking portion 136 is provided on the object to be fastened 150. Therefore, after the female screw member 10 is housed in the female screw housing chamber 122, the object to be fastened 150 is removed. By accommodating the female screw member 10 in the female screw accommodating chamber 122 , the sixth locking portion 136 of the fastening target 150 can lock the movement of the female screw member 10 toward the opening 122 a side. Therefore, the electrical connection box 101 of the present embodiment does not need to be provided with a complicated mechanism such as a flexible arm body, as in the electrical connection box 1 of the first embodiment, so that the cost can be reduced. It is possible to improve the durability while achieving reduction.

更に、本実施形態の電気接続箱101においては、収容部材120に対して雌螺子部材10を螺子軸方向に対する直交方向(第1直交方向Go1及び第2直交方向Go2)に相対移動させることができる。このため、この電気接続箱101においては、連結部151の貫通孔151aの中心に対する雌螺子部材10の螺子軸の位置ずれを修正することができる。従って、この電気接続箱101においては、雌螺子部材10と雄螺子部材40とを螺合させる際の作業性も向上させることができる。 Furthermore, in the electric connection box 101 of the present embodiment, the female screw member 10 can be moved relative to the housing member 120 in the direction orthogonal to the screw axis direction (the first orthogonal direction Go1 and the second orthogonal direction Go2). . Therefore, in the electric connection box 101, the displacement of the screw shaft of the female screw member 10 with respect to the center of the through hole 151a of the connecting portion 151 can be corrected. Therefore, in the electric connection box 101, the workability of screwing the female screw member 10 and the male screw member 40 together can be improved.

本実施形態の電気接続箱101においては、雌螺子部材10と雄螺子部材40とが螺合完了状態となったときに、第1係止部131及び第2係止部132に対して、雌螺子部材10の鍔部13における第1被係止部13c及び第2被係止部13dのそれぞれの第1壁部13aから押圧力を作用させることができる。そして、この電気接続箱101においては、螺合完了状態が続く限り、その押圧力を作用させ続けることができるので、雌螺子部材10を収容部材120に固定させることができる。従って、この電気接続箱101においては、その螺合完了状態が続く限り、雌螺子部材10と雄螺子部材40による締結対象物150(導電部材170の連結部151)の締結状態を保ち続けることができる。 In the electrical junction box 101 of the present embodiment, when the female screw member 10 and the male screw member 40 are in the screwed-together state, the female threaded member 100 is engaged with the first locking portion 131 and the second locking portion 132 . A pressing force can be applied from the first wall portion 13a of each of the first locked portion 13c and the second locked portion 13d of the flange portion 13 of the screw member 10. As shown in FIG. In this electrical connection box 101 , the pressing force can be continuously applied as long as the screwing completion state continues, so that the female screw member 10 can be fixed to the housing member 120 . Therefore, in the electrical connection box 101, the fastening state of the fastening object 150 (connecting portion 151 of the conductive member 170) by the female screw member 10 and the male screw member 40 can be maintained as long as the screwing completion state continues. can.

1,101 電気接続箱
10 雌螺子部材
11 雌螺子部
12 挟持部
13 鍔部
13a 第1壁部
13b 第2壁部
13c 第1被係止部
13d 第2被係止部
13e 第3被係止部
13f 第4被係止部
20,120 収容部材
21 部品収容室
22a,122a 開口
30A,130A 仮保持機構
31,131 第1係止部
32,132 第2係止部
33,133 第3係止部
34,134 第4係止部
35,135 第5係止部
36,136 第6係止部
37,137 第7係止部
38,138 第8係止部
40 雄螺子部材
41 雄螺子部
42 挟持部
50,150 締結対象物
51,151 連結部
52 端子部
70,70A,70B,170 導電部材
80 電子部品
Go1 第1直交方向
Go2 第2直交方向 Reference Signs List 1, 101 electrical junction box 10 female screw member 11 female screw portion 12 clamping portion 13 collar portion 13a first wall portion 13b second wall portion 13c first locked portion 13d second locked portion 13e third locked portion Part 13f Fourth locked portion 20, 120 Housing member 21 Part housing chamber 22a, 122a Opening 30A, 130A Temporary holding mechanism 31, 131 First locking portion 32, 132 Second locking portion 33, 133 Third locking Part 34, 134 Fourth locking part 35, 135 Fifth locking part 36, 136 Sixth locking part 37, 137 Seventh locking part 38, 138 Eighth locking part 40 Male screw member 41 Male screw part 42 Clamping portion 50, 150 Fastened object 51, 151 Connecting portion 52 Terminal portion 70, 70A, 70B, 170 Conductive member 80 Electronic component Go1 First orthogonal direction Go2 Second orthogonal direction

Claims (5)

導電性の締結対象物と、
雄螺子部材と、
前記雄螺子部材が螺合される雌螺子部材と、
前記締結対象物と前記雌螺子部材が収容される絶縁性の収容部材と、
前記雄螺子部材が螺合完了状態になるまで前記雌螺子部材を前記収容部材における収容完了位置で仮保持させる仮保持機構と、
を備え、
前記雌螺子部材は、前記雄螺子部材の雄螺子部が螺合される雌螺子部と、前記雌螺子部における螺子軸方向の一方の端部側に設け、前記雄螺子部材が前記螺合完了状態のときに前記雄螺子部材との間で前記締結対象物を挟持させる挟持部と、前記雌螺子部における前記螺子軸方向の他方の端部側の外方で前記螺子軸方向に対して直交配置された鍔部と、を有し、
前記鍔部は、前記螺子軸方向における前記一方の第1壁部と、前記螺子軸方向における前記他方の第2壁部と、前記螺子軸方向に直交する第1直交方向の両端の第1被係止部及び第2被係止部と、を有し、
前記仮保持機構は、前記収容部材に設け、前記螺子軸方向で前記第1被係止部の前記第1壁部を係止する第1係止部と、前記収容部材に設け、前記螺子軸方向で前記第2被係止部の前記第1壁部を係止する第2係止部と、前記収容部材に設け、前記螺子軸方向で前記第1被係止部の前記第2壁部を係止する第3係止部と、前記収容部材に設け、前記螺子軸方向で前記第2被係止部の前記第2壁部を係止する第4係止部と、前記収容部材に設け、前記螺子軸方向及び前記第1直交方向に直交する第2直交方向における一方側で前記雌螺子部材を係止する第5係止部と、前記締結対象物に設け、前記第2直交方向における他方側で前記雌螺子部材を係止する第6係止部と、を有し、
前記第1係止部と前記第3係止部は、その間で前記螺子軸方向に沿って前記第1被係止部を相対移動させ得るものとして形成され、
前記第2係止部と前記第4係止部は、その間で前記螺子軸方向に沿って前記第2被係止部を相対移動させ得るものとして形成され、
前記鍔部は、前記第2直交方向における前記一方側の一端に設けた第3被係止部と、前記第2直交方向における前記他方側の他端に設けた第4被係止部と、を有し、
前記第6係止部は、前記第4被係止部を係止させるものとして形成されることを特徴とした電気接続箱。 a conductive fastening object;
a male screw member;
a female screw member to which the male screw member is screwed;
an insulating housing member that houses the object to be fastened and the female screw member;
a temporary holding mechanism for temporarily holding the female screw member at the accommodation completion position in the accommodation member until the male screw member reaches the screwing completion state;
with
The female threaded member is provided on a female threaded portion to which the male threaded portion of the male threaded member is screwed, and on one end side of the female threaded portion in the direction of the screw axis, and the male threaded member completes the screwing. a clamping portion that clamps the object to be fastened between itself and the male screw member when in a state of being held, and a clamping portion that is perpendicular to the screw axis direction on the outside of the other end side of the female screw portion in the screw axis direction. a collar disposed; and
The flange portion includes the one first wall portion in the screw axial direction, the other second wall portion in the screw axial direction, and first cover portions on both ends in a first orthogonal direction orthogonal to the screw axial direction. having a locking portion and a second locked portion;
The temporary holding mechanism includes a first locking portion provided in the housing member for locking the first wall portion of the first locked portion in the direction of the screw shaft; a second locking portion that locks the first wall portion of the second locked portion in the direction of the screw shaft; a fourth locking portion provided on the housing member for locking the second wall portion of the second locked portion in the direction of the screw axis; a fifth locking portion for locking the female screw member on one side in a second orthogonal direction orthogonal to the screw axis direction and the first orthogonal direction; a sixth locking portion that locks the female screw member on the other side of the
The first locking portion and the third locking portion are formed so as to allow the first locked portion to move relatively therebetween along the direction of the screw shaft,
The second locking portion and the fourth locking portion are formed so as to allow the second locked portion to move relatively therebetween along the direction of the screw shaft,
The collar portion includes a third locked portion provided at one end of the one side in the second orthogonal direction, a fourth locked portion provided at the other end of the other side in the second orthogonal direction, has
The electrical connection box , wherein the sixth locking portion is formed to lock the fourth locked portion . 前記仮保持機構は、前記収容部材に設け、前記第1直交方向における一方側で前記雌螺子部材を係止する第7係止部と、前記収容部材に設け、前記第1直交方向における他方側で前記雌螺子部材を係止する第8係止部と、を有し、
前記収容部材に対して前記締結対象物が収容完了状態のときに、前記第5係止部と前記第6係止部は、その間で前記第2直交方向に沿って前記雌螺子部材を相対移動させ得るものとして形成され、
前記第7係止部と前記第8係止部は、その間で前記第1直交方向に沿って前記雌螺子部材を相対移動させ得るものとして形成されることを特徴とした請求項1に記載の電気接続箱。 The temporary holding mechanism includes a seventh locking portion provided on the housing member for locking the female screw member on one side in the first orthogonal direction, and a seventh locking portion provided on the housing member on the other side in the first orthogonal direction. and an eighth locking portion that locks the female screw member,
When the object to be fastened is completely housed in the housing member, the fifth locking portion and the sixth locking portion relatively move the female screw member therebetween along the second orthogonal direction. formed to allow
2. The apparatus according to claim 1, wherein said seventh locking portion and said eighth locking portion are formed so as to allow relative movement of said female screw member therebetween along said first orthogonal direction. electrical connection box. 前記収容部材は、前記締結対象物と前記雌螺子部材の収容完了位置よりも前記第2直交方向における前記他方側に、前記締結対象物と前記雌螺子部材を収容させる際の挿入用の開口を有することを特徴とした請求項1又は2に記載の電気接続箱。 The accommodating member has an opening for insertion when accommodating the object to be fastened and the female screw member, on the other side in the second orthogonal direction from the accommodation completion position of the object to be fastened and the female screw member. 3. The electric junction box according to claim 1, wherein the electric junction box comprises : 前記締結対象物は、前記収容部材に収容される導電部材の板状の連結部であり、
前記導電部材は、前記連結部から突出させた前記第6係止部を有することを特徴とした請求項1,2又は3に記載の電気接続箱。 The object to be fastened is a plate-like connecting portion of a conductive member housed in the housing member,
4. The electrical connection box according to claim 1 , wherein said conductive member has said sixth locking portion projecting from said connecting portion . 前記締結対象物は、前記収容部材に収容される導電部材の板状の連結部、及び、前記収容部材の部品収容室に収容される電子部品が備え、前記雌螺子部材の前記挟持部と前記導電部材の前記連結部との間に挿入させる板状の端子部であり、
前記導電部材は、前記連結部から突出させた前記第6係止部を有することを特徴とした請求項1,2又は3に記載の電気接続箱。 The object to be fastened includes a plate-like connecting portion of a conductive member housed in the housing member and an electronic component housed in a component housing chamber of the housing member. A plate-shaped terminal portion inserted between the connection portion of the conductive member,
4. The electrical connection box according to claim 1 , wherein said conductive member has said sixth locking portion projecting from said connecting portion .
JP2019137566A 2019-07-26 2019-07-26 electric junction box Active JP7297583B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2019137566A JP7297583B2 (en) 2019-07-26 2019-07-26 electric junction box

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2019137566A JP7297583B2 (en) 2019-07-26 2019-07-26 electric junction box

Publications (2)

Publication Number Publication Date
JP2021023010A JP2021023010A (en) 2021-02-18
JP7297583B2 true JP7297583B2 (en) 2023-06-26

Family

ID=74574897

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2019137566A Active JP7297583B2 (en) 2019-07-26 2019-07-26 electric junction box

Country Status (1)

Country Link
JP (1) JP7297583B2 (en)

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016096673A (en) 2014-11-14 2016-05-26 住友電装株式会社 Electrical connection box

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0454417U (en) * 1990-09-11 1992-05-11
JPH09154219A (en) * 1995-11-28 1997-06-10 Yazaki Corp Connecting structure of terminal to junction box
JPH09306561A (en) * 1996-05-15 1997-11-28 Yazaki Corp Connection structure between bus bar and terminal

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2016096673A (en) 2014-11-14 2016-05-26 住友電装株式会社 Electrical connection box

Also Published As

Publication number Publication date
JP2021023010A (en) 2021-02-18

Similar Documents

Publication Publication Date Title
US9054452B2 (en) Electrical connector assembled component
JP2836500B2 (en) Board connector
JP4989502B2 (en) Lever fitting type connector
US9831602B1 (en) Connector
CN108808373B (en) Lever fitting type connector
US11600947B2 (en) Electrical connector
US7749016B2 (en) Lever-fitting type connector with rotatably insertable locking lever
US20170346225A1 (en) Connector
US9450323B2 (en) Terminal fitting connection structure and rotary fitting-type connector
US7442064B2 (en) Board connecting body
US20190288412A1 (en) Socket
JPH11297420A (en) Connector
JP7055783B2 (en) Mating connector
WO2015029991A1 (en) Connection structure between electronic component and terminal fitting
US9214744B2 (en) Connector device
JP7297583B2 (en) electric junction box
WO2015029990A1 (en) Connection structure between electronic component and terminal fitting
JP7326056B2 (en) electric junction box
JP7239417B2 (en) electric junction box
JP7309502B2 (en) electric junction box
JP7239427B2 (en) electric junction box
JPH1050379A (en) Electric connector
US11424570B2 (en) Connector
JP6817272B2 (en) Electrical junction box
JP4017431B2 (en) Coaxial connector

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20220615

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20230221

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20230307

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20230331

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20230613

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20230614

R150 Certificate of patent or registration of utility model

Ref document number: 7297583

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150