【0001】
【発明の属する技術分野】
本発明は、各種電子・電気機器において、シャーシやパネル等の被固定部材に、LEDや配線等の電気部品を固定する電気部品保持具に関するものである。
【0002】
【従来の技術】
従来、電線をシャージやプリント基板等の被固定部材に固定するためのクランプとして図8に示したようにCの字形の弾性湾曲体62の開放端を外側に弾性変形可能に折リ返して折返部63を設け、前記折返部に段付きの係止突部64を設け、取り付け基板61の上部に2つの突状65,66を設け、その2つの突状部65,66の外側の突状部66の内面に前記係止突部64が弾性変形して挿入状態で係止される係止片67を設けたもの(特開昭60−84486号)がある。
【0003】
しかしながら、このクランプは、可動側の係止突部64が電線の長さ方向にずれて(以下横ずれという)係止片67とのロック(係合)が外れてしまうことがある。そこで係止突部64が電線の長さ方向に外れないように特開昭60−84486号公報に開示されているように横ずれ防止壁68,69(特開昭60−84486号公報の第7図の45u,45d)を設けてロック時に折返部63を覆うようにすると、横ずれ防止壁68,69の分だけ電線の長さ方向に大きくなるから、省スペース化を図る必要がある場合に係止突部64の電線の長さ方向の寸法を十分にとることができず、係止突部64と係止片67との係合強度を十分にとることができないという欠点があった。
本発明は、上記のような問題点を解消するためになされたもので、省スペース化を図ることができ、特に電線の長さ方向に取り付けスペースが少ない場合でも、可動側の係止突部が電線の長さ方向にずれて外れることがなくかつ係合部の強度を十分にとることができる電気部品保持具を提供することを目的とする。
【0004】
【課題を解決するための手段】
本発明は、その目的を達成するため次のような構成を採用している。
つまり、本発明の電気部品保持具は、電気部品を内部に収納する収納枠の一端に可動係止部を設け、該可動係止部の開放端には、前記開放端を前記収納枠の外側に弾性変形可能に略U字形に折り返して折返部を設けるとともに該折返部の先端近傍の外側に段付きの係止突部を設け、前記電気部品収納枠の他端に前記一端の係止突部を係止する固定係止部を設けた電気部品保持具において、前記固定係止部を少なくとも2つの突条で形成し、該2つの突条のうち外側の突条に内側に前記係止突部が弾性変形して挿入状態で係止される係止片を設け、前記折返部の底部に貫通孔を設け、前記突条のうち内側の突条を前記折返部の貫通孔に嵌入するように形成したことを特徴とするものである。
また、本発明の電気部品保持具は、前記収納枠の外周面に取付パネルの縁部を挟むことができる挟持部を形成し、取り付ける機器の取付パネルの端部にあらかじめ形成する切り欠き穴に対し開口側より嵌め付けて前記挟持部に該切り欠き穴の縁部を受け入れて前記収納枠を止着せしめることを特徴とするものである。
【0005】
【作 用】
本発明は、上記構成により、固定係止部の内側の突条に可動係止部の折返部の貫通穴を嵌入して位置決め並びに横ずれ防止が図れるから、係止突部は電線の長さ方向に寸法を縮小することがない。
請求項2に係わる発明は、上記構成により、挟持部に取り付けパネルの切り欠き穴の縁部を受け入れて収納枠を切り欠き穴に止着させた後、収納枠に電線を挿入することにより、取付パネルのエッジ部に電線を通す場合に電線が傷つかないように保護する保護具として使用することができる。
【0006】
【発明の実施の形態】
次に本発明に係わる電気部品保持具の実施の形態(以下、「実施例」という)を添付図面に基づいて説明する。
なお、本実施例においては、電線を保持固定するもののうち特に取り付けパネル(被固定部材)の端部に電線を通す際の保護を目的とした電気部品保持具について説明する。
【0007】
図1は電気部品保持具を示す斜視図であり、図2は電気部品保持具1の使用状態を示す正面図であり、図3は図2の左側面図であり、図4は図2の閉じた状態を示す一部破断の正面図であり、図5は使用状態の斜視図である。
【0008】
図示したように、この電気部品保持具は、電線等の電気部品を収納枠1内に保持固定するため、U字状の電気部品収納枠1の一端にヒンジ3を介して回動する可動係止部2を設け、該可動係止部2の開放端には、前記開放端を前記収納枠1の外側に弾性変形可能に略U字形に折り返して折返部4を設けるとともに該折返部4の先端近傍の外側に段付きの係止突部5を設け、前記電気部品収納枠1の他端に前記一端の係止突部5を係止する固定係止部6を設けている。この固定係止部6は、少なくとも2つの突条7,8で形成し、該2つの突条7,8のうち外側の突条8に内側に前記係止突部5が弾性変形して挿入状態で係止される係止片9を設けるとともに、前記可動係止部2の折返部4の底部に貫通孔10を設け、前記突条7,8のうち内側の突条7を前記折返部4の貫通孔10に嵌入するように形成してなる。
【0009】
また、可動係止部2の折返部4の先端に前記係止突部5と係止片9との係合を解除するためのロック解除レバー17が設けられている。
【0010】
また、この電気物品保持具を取り付けパネル11の端部に取り付けるため、取り付ける機器のパネル11の端部に予め切り欠き穴12を形成するとともに、前記U字状の収納枠1の外周面に取り付けパネル11の縁部13を挟むことができる挟持部14,15,16を形成し、前記取り付けパネル11の切り欠き穴12に対し開口側より嵌め付けて上記挟持部14,15,16に該切り欠き穴12の縁部13を受け入れて上記収納枠1をパネル11の端部に取り付けるようにしている。
【0011】
さらに、収納枠1の左右の両外側面の底には、パネル11の切り欠き穴12に形成する一対の切り欠き段部18に嵌まり込む鉤形の一対の突起19を設けている。
【0012】
また、収納枠1の底部20に形成した挟持部16は、U字形の左右の柱21,22より前後方向に厚肉に形成して摘み部23を構成し、収納枠12を指で摘んでパネル11の切り欠き穴12に嵌め付けるときに弾性変形する左右の柱21,22に指がかからないようにして取り付け作業を容易にしている。
【0013】
さらに、収納枠1の底部の両側にはヒンジ部24,25を設けてU字形の左右の柱21,22が弾性変形しやすくしている。なお、前記挟持部14,15,16は金型作成上収納枠1の外周面の前後両側縁に前後で位置をずらして形成することが望ましい。
【0014】
上記本発明の電気部品保持具は、適度の弾性と硬性を有するプラスチック(例えばポリアミド)で成形される。
【0015】
次に、本実施例に示す電気部品保持具の使い方について図1、図5に示す斜視図を参照して説明する。
まず、電気部品保持具を被固定部材である取り付けパネル11の切り欠き穴12に取り付ける場合について説明する。
図1に示したように、収納枠1の底部20の外周面側を切り欠き穴12の開口部に臨ませて、取り付けパネル11の面に揃えるようにして差し込み、上記外周面に形成した挟持部14,15に切り欠き穴12の縁部13を受け入れてそのままこれをガイドにしながら嵌め込まれる。そして、上記突起19を設けた部分が切り欠き穴12の開口に達したところで、収納枠1のU字形の左右の柱21,22を素材の弾性を利用して内側にたわませて、これを通過させたのち素材の復元力でこの突起19を切り欠き段部18に係止させて、図5に示したように取り付けパネル11への取り付け作業が完了する。
【0016】
次に電線26を固定する場合、まず収納枠1内に電線26を収納した後、可動係止部2を内側に倒し、可動係止部2の貫通孔10を固定係止部6の内側の突状7に差し込む。この時係合突部5は素材の弾性により折返部4の底部を支点として内側に倒れて、やがて係止片9を越えると弾性復元して係止片9と係合する。このようにして可動係止部2が固定係止部6にロックされ、収納枠1は閉じられ、図5に示したように電線26は収納枠1内に固定される。
【0017】
このロック状態で、可動係止部2に電線26の長さ方向に外れる方向に力がかかっても折返部4の貫通孔10に固定係止部6の突状7が差し込まれているので横ずれが防止され係止突部5と係止片9との係合が外れる心配がない。また、電線の長さ方向に取り付けスペースが少ない場合でも電線の長さ方向に係止突部5の寸法を縮めることなく横ずれ防止を図ることができるから、係止突部と係止片との係合強度を十分にとることができ、省スペース化を図ることができる。
【0018】
なお、ロックを解除する場合には、ロック解除レバー17を引き起こす。この時係合突部5と係止片9との係合が解除され可動係止部2が外側に開く。
【0019】
図6、図7に示す電気部品保持具は電線をシャーシやパネル等の被固定部材に被固定部材の表面に沿って固定するため使用されるものであって、図6はその正面図、図7はその使用状態の正面図である。
【0020】
図示したように配線等の電気部品を収納枠1内に保持固定するため、U字状の電気部品収納枠1の一端にヒンジ3を介して回動する可動係止部2を設け、該可動係止部2の開放端には、前記開放端を前記収納枠1の外側に弾性変形可能に略U字形に折り返して折返部4を設けるとともに該折返部4の先端近傍の外側に段付きの係止突部5を設け、前記電気部品収納枠1の他端に前記一端の係止突部5を係止する固定係止部6を設けている。この固定係止部6は、少なくとも2つの突条7,8で形成し、該2つの突条7,8のうち外側の突条7に内側に前記係止突部5が弾性変形して挿入状態で係止される係止片9を設けるとともに、前記可動係止部2の折返部4の底部に貫通孔10を設け、前記突条7,8のうち内側の突条7を前記折返部4の貫通孔10に嵌入するように形成してなる構成と、可動係止部2の折返部4の先端にロック解除レバー17が設けられている構成は第1実施例と同じである。
【0021】
第1実施例の挟持部に代えて、収納枠1の底部(下部)には、公知のスナップ機構を利用した矢じり係止片30と該矢じり係止片30に対向させて設けた弾性翼片31とからなるシャーシ等の板材32への取り付け手段を設けている。
【0022】
第2実施例は以上のような構造であり、次にその使用方法を説明する。
シャーシ等の板材32に予め穿設された取付孔33に本発明の保持具の収納枠の下部の矢じり係止片30を押し込み、弾性翼片31で板材32の保持具側を押圧した状態で板材32に収納枠1を固定する。次いで、配線される電線群26を次々に収納枠1の上部開口部から差し込んでから、第1実施例と同様に可動係止部2を固定係止部6に向けて内側に倒して可動係止部2の折返部4の貫通孔10を固定係止部6の内側の突状7に差し込んで、折返部4の係止突部5と固定係止部6の係止片9を係合させれば、電線群26を収納枠1内に閉じ込めることができる。
なお、図7に示したように前記板材32は凹んだ限られた空間であっても折返部4の弾性により前述のように可動係止部2と固定係止部6をロックさせて電線を閉じ込めることができるし、ロック解除レバー17を内側に倒すことにより容易にロック解除を行うことができ、省スペース化を図ることができる。
【0023】
本発明は上記実施例に限定されるわけではなく、例えば上記実施例においては可動係止部2に折返部4と貫通孔10と係止突部5を設け、固定係止部6に2本の突状7,8を設けたが、逆に可動係止部2に2本の突状7,8を設け、固定係止部6に折返部4と貫通孔10と係止突部5を設けても良い。
また、上記実施例において収納枠1はU字状のものを示すとともに、可動係止部2はヒンジを介して回動するものを示したが、従来例に示したように収納枠をCの字状の弾性湾曲体として、弾性湾曲体の先端に可動係止部を設けても良い。
【0024】
【発明の効果】
本発明は、上記のとおり構成されているので、次に記載する効果を奏する。
請求項1の発明によれば、電線の長さ方向に取り付けスペースが少ない場合でも、係止部が電線の長さ方向にずれて外れることがなくかつ係止部の強度を十分にとることができ、省スペース化を図ることができる電気部品保持具を提供することができる。
請求項2の発明によれば、取り付けパネルのエッジで電線が傷つくことを防止できるから、取付パネルのエッジ部に電線を通す場合の保護具として使用することができる電気部品保持具を提供することができる。
【図面の簡単な説明】
【図1】本発明の一実施例を示す斜視図である。
【図2】本発明の一実施例を示す正面図である。
【図3】図2の左側面図である。
【図4】図2の閉じた状態を示す正面図である。
【図5】本発明の使用状態を示す斜視図である。
【図6】本発明の別の実施例を示す正面図である。
【図7】本発明の別の実施例の使用状態を示す正面図である。
【図8】従来の一実施例を示す正面図である。
【符号の説明】
1 収納枠
2 可動係止部
4 折返部
5 係止突部
6 固定係止部
7 突状
8 突状
9 係止片
10 貫通孔
11 パネル
12 切り欠き口
14 挟持部
15 挟持部
16 挟持部[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electrical component holder for fixing electrical components such as LEDs and wiring to fixed members such as chassis and panels in various electronic and electrical devices.
[0002]
[Prior art]
Conventionally, as shown in FIG. 8, the open end of the C-shaped elastic bending body 62 is folded back so as to be elastically deformable outward as a clamp for fixing the electric wire to a fixed member such as a sage or a printed board. The protrusion 63 is provided with a stepped locking protrusion 64 at the folded portion, and two protrusions 65 and 66 are provided on the top of the mounting substrate 61, and the protrusions outside the two protrusions 65 and 66 are provided. There is a type (Japanese Patent Laid-Open No. 60-84486) in which a locking piece 67 is provided on the inner surface of the portion 66 so that the locking projection 64 is elastically deformed and locked in the inserted state.
[0003]
However, in this clamp, the locking protrusion 64 on the movable side may be displaced in the length direction of the electric wire (hereinafter referred to as a lateral displacement), and the lock (engagement) with the locking piece 67 may be released. Therefore, as shown in Japanese Patent Laid-Open No. 60-84486, the lateral slip prevention walls 68 and 69 (Seventh of Japanese Patent Laid-Open No. 60-84486 are disclosed in Japanese Patent Laid-Open No. 60-84486). If 45u and 45d) of the figure are provided so as to cover the turn-up portion 63 when locked, the length of the electric wire increases in the length direction of the wire by the lateral displacement prevention walls 68 and 69, so that it is necessary to save space. There is a drawback that the length of the stopping protrusion 64 in the length direction of the electric wire cannot be taken sufficiently, and the engagement strength between the locking protrusion 64 and the locking piece 67 cannot be taken sufficiently.
The present invention has been made to solve the above-described problems, and can save space. Particularly, even when the installation space is small in the length direction of the electric wire, the locking protrusion on the movable side is provided. It is an object of the present invention to provide an electric component holder that does not deviate in the length direction of the electric wire and can sufficiently take the strength of the engaging portion.
[0004]
[Means for Solving the Problems]
The present invention employs the following configuration in order to achieve the object.
That is, the electrical component holder of the present invention is provided with a movable locking portion at one end of a storage frame that stores the electrical component therein, and the open end is located outside the storage frame at the open end of the movable locking portion. And is folded back into a substantially U shape so as to be elastically deformable, and is provided with a folded portion, a stepped locking projection is provided on the outside in the vicinity of the tip of the folded portion, and the locking projection of the one end is provided at the other end of the electrical component storage frame In the electric component holder provided with a fixed locking portion for locking the portion, the fixed locking portion is formed by at least two ridges, and the locking is performed on the inner side of the outer ridge among the two ridges. The protrusion is elastically deformed to provide a locking piece that is locked in the inserted state, a through hole is provided at the bottom of the folded portion, and an inner protrusion of the projected portion is fitted into the through hole of the folded portion. It is characterized by having formed in this way.
Further, the electric component holder of the present invention is formed with a notch hole formed in advance at the end of the mounting panel of the device to be mounted, by forming a holding portion that can sandwich the edge of the mounting panel on the outer peripheral surface of the storage frame. On the other hand, it is fitted from the opening side, the edge of the notch hole is received in the clamping part, and the storage frame is fixed.
[0005]
[Operation]
According to the present invention, since the through-hole of the folded portion of the movable locking portion is fitted into the protrusion on the inner side of the fixed locking portion to prevent positioning and lateral displacement, the locking protrusion is in the length direction of the electric wire. The size is not reduced.
In the invention according to claim 2, with the above configuration, after receiving the edge of the notch hole of the mounting panel in the sandwiching part and fixing the storage frame to the notch hole, the wire is inserted into the storage frame, When passing an electric wire through the edge portion of the mounting panel, it can be used as a protective device for protecting the electric wire from being damaged.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of an electrical component holder according to the present invention (hereinafter referred to as “example”) will be described with reference to the accompanying drawings.
In addition, in a present Example, the electrical component holder aiming at the protection at the time of letting an electric wire pass to the edge part of an attachment panel (fixed member) among what hold | maintains an electric wire is demonstrated.
[0007]
1 is a perspective view showing an electrical component holder, FIG. 2 is a front view showing a use state of the electrical component holder 1, FIG. 3 is a left side view of FIG. 2, and FIG. FIG. 5 is a partially cutaway front view showing a closed state, and FIG. 5 is a perspective view of the use state.
[0008]
As shown in the figure, this electric component holder is a movable member that rotates at one end of a U-shaped electric component storage frame 1 via a hinge 3 in order to hold and fix electric components such as electric wires in the storage frame 1. A stop portion 2 is provided, and at the open end of the movable locking portion 2, the open end is folded back into a substantially U shape so as to be elastically deformable outside the storage frame 1, and a turn-up portion 4 is provided. A stepped locking projection 5 is provided outside the vicinity of the tip, and a fixed locking portion 6 for locking the locking projection 5 at the one end is provided at the other end of the electrical component storage frame 1. The fixed locking portion 6 is formed by at least two ridges 7, 8, and the locking ridge 5 is elastically deformed and inserted into the outer ridge 8 of the two ridges 7, 8. A locking piece 9 that is locked in a state is provided, a through hole 10 is provided in the bottom of the folded portion 4 of the movable locking portion 2, and the inner ridge 7 of the ridges 7 and 8 is connected to the folded portion. It is formed so as to fit into the four through holes 10.
[0009]
Further, a lock release lever 17 for releasing the engagement between the locking projection 5 and the locking piece 9 is provided at the tip of the folded portion 4 of the movable locking portion 2.
[0010]
Moreover, in order to attach this electric article holder to the end of the attachment panel 11, a notch 12 is formed in advance in the end of the panel 11 of the equipment to be attached, and attached to the outer peripheral surface of the U-shaped storage frame 1. Clamping portions 14, 15, and 16 that can sandwich the edge portion 13 of the panel 11 are formed, and are fitted into the cutout holes 12 of the mounting panel 11 from the opening side so that the cutting portions 14, 15, and 16 are cut. The storage frame 1 is attached to the end of the panel 11 by receiving the edge 13 of the notch 12.
[0011]
Further, a pair of hook-shaped protrusions 19 that fit into a pair of cutout step portions 18 formed in the cutout holes 12 of the panel 11 are provided on the bottoms of the left and right outer side surfaces of the storage frame 1.
[0012]
Further, the sandwiching portion 16 formed on the bottom portion 20 of the storage frame 1 is formed thicker in the front-rear direction than the U-shaped left and right columns 21 and 22 to form a knob 23, and the storage frame 12 is gripped with a finger. The mounting operation is facilitated so that the left and right columns 21 and 22 that are elastically deformed when fitted into the cutout holes 12 of the panel 11 are not touched.
[0013]
Further, hinge portions 24 and 25 are provided on both sides of the bottom portion of the storage frame 1 so that the U-shaped left and right columns 21 and 22 are easily elastically deformed. The clamping parts 14, 15 and 16 are preferably formed on the front and rear side edges of the outer peripheral surface of the storage frame 1 by shifting the positions in the front and rear directions for mold production.
[0014]
The electric component holder of the present invention is formed of a plastic (for example, polyamide) having appropriate elasticity and hardness.
[0015]
Next, how to use the electric component holder shown in the present embodiment will be described with reference to the perspective views shown in FIGS.
First, the case where an electric component holder is attached to the notch hole 12 of the attachment panel 11 which is a member to be fixed will be described.
As shown in FIG. 1, the outer peripheral surface side of the bottom portion 20 of the storage frame 1 faces the opening of the cutout hole 12 and is inserted so as to be aligned with the surface of the mounting panel 11. The edge portions 13 of the cutout holes 12 are received in the portions 14 and 15 and are fitted as they are as guides. When the portion where the projection 19 is provided reaches the opening of the cutout hole 12, the U-shaped left and right columns 21 and 22 of the storage frame 1 are bent inward using the elasticity of the material. Then, the projection 19 is locked to the cut-out step portion 18 by the restoring force of the material, and the mounting operation to the mounting panel 11 is completed as shown in FIG.
[0016]
Next, when the electric wire 26 is fixed, after the electric wire 26 is first stored in the storage frame 1, the movable locking portion 2 is tilted inward, and the through hole 10 of the movable locking portion 2 is placed inside the fixed locking portion 6. Insert into protrusion 7. At this time, the engagement protrusion 5 falls inward with the bottom of the folded portion 4 as a fulcrum due to the elasticity of the material, and when it eventually exceeds the locking piece 9, it is elastically restored and engaged with the locking piece 9. In this way, the movable locking portion 2 is locked to the fixed locking portion 6, the storage frame 1 is closed, and the electric wires 26 are fixed in the storage frame 1 as shown in FIG. 5.
[0017]
In this locked state, even if a force is applied to the movable latching portion 2 in the direction away from the length of the electric wire 26, the protrusion 7 of the fixed latching portion 6 is inserted into the through hole 10 of the folded portion 4, so that the lateral displacement occurs. Is prevented, and there is no concern that the engagement between the locking projection 5 and the locking piece 9 is disengaged. Further, even when the installation space is small in the length direction of the electric wire, it is possible to prevent the lateral displacement without reducing the dimension of the locking projection 5 in the length direction of the electric wire. Engagement strength can be taken sufficiently and space saving can be achieved.
[0018]
When releasing the lock, the lock release lever 17 is raised. At this time, the engagement between the engaging protrusion 5 and the locking piece 9 is released, and the movable locking portion 2 opens outward.
[0019]
The electric component holder shown in FIGS. 6 and 7 is used to fix the electric wire to a fixed member such as a chassis or a panel along the surface of the fixed member. FIG. 6 is a front view of the electric component holder. 7 is a front view of the state of use.
[0020]
As shown in the drawing, in order to hold and fix electrical components such as wiring in the storage frame 1, a movable locking portion 2 that rotates via a hinge 3 is provided at one end of the U-shaped electrical component storage frame 1. At the open end of the engaging portion 2, the open end is folded outwardly of the storage frame 1 into a substantially U shape so as to be elastically deformable, and a folded portion 4 is provided. A locking projection 5 is provided, and a fixed locking portion 6 for locking the locking projection 5 at the one end is provided at the other end of the electrical component storage frame 1. The fixed locking portion 6 is formed by at least two protrusions 7 and 8, and the locking protrusion 5 is elastically deformed and inserted into the outer protrusion 7 of the two protrusions 7 and 8. A locking piece 9 that is locked in a state is provided, a through hole 10 is provided in the bottom of the folded portion 4 of the movable locking portion 2, and the inner ridge 7 of the ridges 7 and 8 is connected to the folded portion. The structure formed so as to fit into the four through holes 10 and the structure in which the lock release lever 17 is provided at the tip of the folded portion 4 of the movable locking portion 2 are the same as in the first embodiment.
[0021]
Instead of the clamping part of the first embodiment, an arrowhead locking piece 30 using a known snap mechanism and an elastic blade piece provided opposite to the arrowhead locking piece 30 at the bottom (lower part) of the storage frame 1. A means for attaching to a plate member 32 such as a chassis composed of 31 is provided.
[0022]
The second embodiment has the structure as described above. Next, a method of using it will be described.
In a state where the arrowhead locking piece 30 at the lower part of the storage frame of the holder of the present invention is pushed into the mounting hole 33 previously drilled in the plate member 32 such as the chassis and the holder side of the plate member 32 is pressed by the elastic blade piece 31. The storage frame 1 is fixed to the plate member 32. Next, after inserting the wire groups 26 to be wired one after another from the upper opening of the storage frame 1, the movable locking portion 2 is tilted inward toward the fixed locking portion 6 in the same manner as in the first embodiment. The through hole 10 of the folded portion 4 of the stop portion 2 is inserted into the protrusion 7 inside the fixed locking portion 6, and the locking protrusion 5 of the folded portion 4 and the locking piece 9 of the fixed locking portion 6 are engaged. Then, the electric wire group 26 can be confined in the storage frame 1.
In addition, as shown in FIG. 7, even if the plate member 32 is a confined limited space, the movable locking portion 2 and the fixed locking portion 6 are locked as described above by the elasticity of the folded portion 4 to connect the electric wire. They can be confined, and can be easily unlocked by tilting the lock release lever 17 inward, thereby saving space.
[0023]
The present invention is not limited to the above-described embodiment. For example, in the above-described embodiment, the folding portion 4, the through-hole 10, and the locking protrusion 5 are provided in the movable locking portion 2, and two fixed locking portions 6 are provided. The protrusions 7 and 8 are provided, but conversely, the two protrusions 7 and 8 are provided on the movable locking portion 2, and the folded portion 4, the through hole 10 and the locking protrusion 5 are provided on the fixed locking portion 6. It may be provided.
In the above embodiment, the storage frame 1 is U-shaped and the movable locking portion 2 is rotated via a hinge. However, as shown in the conventional example, the storage frame 1 is a C-shaped storage frame. As a letter-shaped elastic bending body, a movable locking portion may be provided at the tip of the elastic bending body.
[0024]
【The invention's effect】
Since this invention is comprised as mentioned above, there exists an effect described below.
According to the first aspect of the present invention, even when the installation space is small in the length direction of the electric wire, the locking portion does not shift and come off in the length direction of the electric wire, and the locking portion can have sufficient strength. Thus, it is possible to provide an electric component holder that can save space.
According to the invention of claim 2, since it is possible to prevent the electric wire from being damaged at the edge of the mounting panel, an electric component holder that can be used as a protective device when passing the electric wire through the edge portion of the mounting panel is provided. Can do.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an embodiment of the present invention.
FIG. 2 is a front view showing an embodiment of the present invention.
FIG. 3 is a left side view of FIG. 2;
4 is a front view showing the closed state of FIG. 2; FIG.
FIG. 5 is a perspective view showing a use state of the present invention.
FIG. 6 is a front view showing another embodiment of the present invention.
FIG. 7 is a front view showing a usage state of another embodiment of the present invention.
FIG. 8 is a front view showing a conventional example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Storage frame 2 Movable latching part 4 Folding part 5 Locking protrusion 6 Fixed latching part 7 Projection 8 Projection 9 Locking piece 10 Through-hole 11 Panel 12 Notch 14 Clamping part 15 Clamping part 16 Clamping part
