Deprecated: The each() function is deprecated. This message will be suppressed on further calls in /home/zhenxiangba/zhenxiangba.com/public_html/phproxy-improved-master/index.php on line 456
JP6916522B2 - Slider for rotary electronic components - Google Patents
[go: Go Back, main page]

JP6916522B2 - Slider for rotary electronic components - Google Patents

Slider for rotary electronic components Download PDF

Info

Publication number
JP6916522B2
JP6916522B2 JP2017234435A JP2017234435A JP6916522B2 JP 6916522 B2 JP6916522 B2 JP 6916522B2 JP 2017234435 A JP2017234435 A JP 2017234435A JP 2017234435 A JP2017234435 A JP 2017234435A JP 6916522 B2 JP6916522 B2 JP 6916522B2
Authority
JP
Japan
Prior art keywords
slider
portions
case
arm
rotating body
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
JP2017234435A
Other languages
Japanese (ja)
Other versions
JP2018101619A (en
Inventor
吉晴 塚原
吉晴 塚原
桑原 敏
敏 桑原
直紀 林
直紀 林
Original Assignee
帝国通信工業株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 帝国通信工業株式会社 filed Critical 帝国通信工業株式会社
Publication of JP2018101619A publication Critical patent/JP2018101619A/en
Priority to JP2021113283A priority Critical patent/JP7187066B2/en
Application granted granted Critical
Publication of JP6916522B2 publication Critical patent/JP6916522B2/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Rotary Switch, Piano Key Switch, And Lever Switch (AREA)
  • Contacts (AREA)

Description

本発明は、回転式スイッチや回転式可変抵抗器等の各種回転式電子部品に用いて好適な回転式電子部品用摺動子に関するものである。 The present invention relates to a slider for a rotary electronic component suitable for use in various rotary electronic components such as a rotary switch and a rotary variable resistor.

従来、回転式電子部品に用いる摺動子の中には、例えば特許文献1の図3,図4に示す摺動子(80)のように、基部(81),(83)の外周から突出するアーム部(85)の根元部分を折り曲げ、折り曲げたアーム部(85)の先端に接点部(89)を設ける構造のものがあった。そして摺動子(80)は、基部(81),(83)に設けた小孔からなる取付部(87)に、回転体(50)の下面に設けた小突起(65)を挿入し、小突起(65)の先端を熱カシメすることによって、回転体(50)の下面に取り付けられる。 Conventionally, some of the sliders used for rotary electronic components, such as the sliders (80) shown in FIGS. 3 and 4 of Patent Document 1, project from the outer periphery of the bases (81) and (83). There was a structure in which the root portion of the arm portion (85) to be bent was bent and a contact portion (89) was provided at the tip of the bent arm portion (85). Then, the slider (80) inserts a small protrusion (65) provided on the lower surface of the rotating body (50) into the mounting portion (87) composed of small holes provided in the base portions (81) and (83). By heat caulking the tip of the small protrusion (65), it is attached to the lower surface of the rotating body (50).

しかし、上記構造の摺動子(80)においては、小突起(65)による熱カシメの箇所が破損した場合、アーム部(85)の折り曲げた根元部分を支点にしてその基部(81),(83)が回転体(50)の下面から離れる方向に移動しようとするため、接点部(89)が摺接パターン(31)に弾接する力が弱まって接触不良を起こしてしまう虞があった。 However, in the slider (80) having the above structure, when the portion of the heat caulking due to the small protrusion (65) is damaged, the base portion (81), ( Since the 83) tends to move away from the lower surface of the rotating body (50), the force of the contact portion (89) to come into contact with the sliding contact pattern (31) is weakened, which may cause poor contact.

一方、回転式電子部品に用いる摺動子の中には、例えば特許文献2の図4に示す摺動子(140)のように、基部(141)の外周から突出する接点用アーム部(143)の根元部分を約180°折り返し、折り返して基部(141)上に位置する接点用アーム部(143)の先端に接点部(145)を設けた構造のものもあった。そしてこの摺動子(140)は、基部(141)に設けた取付孔(147)に、回転つまみ(100)の摺動子取付面(113)に設けた取付突起(121)を挿入し、取付突起(121)の先端を熱カシメすることによって、回転つまみ(100)の摺動子取付面(113)に取り付けられる。この摺動子(140)の場合、その構造上、接点部(145)が摺接パターン(157)に弾接することで、基部(141)の面全体が摺動子取付面(113)に押し付けられるので、取付突起(121)による熱カシメの箇所が破損しても、基部(141)は摺動子取付面(113)から浮き上がらず、このため接点部(145)の摺接パターン(157)との接触不良は生じにくい。 On the other hand, among the sliders used in the rotary electronic component, for example, like the slider (140) shown in FIG. 4 of Patent Document 2, the contact arm portion (143) protruding from the outer periphery of the base portion (141). ) Was folded back by about 180 °, and the contact portion (145) was provided at the tip of the contact arm portion (143) located on the base portion (141). Then, in this slider (140), a mounting protrusion (121) provided on the slider mounting surface (113) of the rotary knob (100) is inserted into the mounting hole (147) provided in the base portion (141). By heat caulking the tip of the mounting protrusion (121), it is mounted on the slider mounting surface (113) of the rotary knob (100). In the case of this slider (140), due to its structure, the contact portion (145) comes into contact with the sliding contact pattern (157), so that the entire surface of the base portion (141) is pressed against the slider mounting surface (113). Therefore, even if the heat caulked portion due to the mounting protrusion (121) is damaged, the base portion (141) does not rise from the slider mounting surface (113), and therefore the sliding contact pattern (157) of the contact portion (145). Poor contact with is unlikely to occur.

しかし、特許文献2に示す摺動子(140)の場合、接点用アーム部(143)が直線状であって且つ片持ち構造なので、この摺動子(140)を回転しながらその接点部(145)を摺接パターン(157)に摺接させた際、接点用アーム部(143)にねじれ方向のストレスが加わり、経年変化によって、接点用アーム部(143)が破断してしまう虞があった。また接点用アーム部(143)が片持ち構造なので、接点用アーム部(143)の長さが短くなり、その分、接点部(145)の摺接パターン(157)に対する接触圧が強くなり、摺接パターン(157)の寿命を短くしてしまう虞もあった。またこの摺動子(140)の接点用アーム部(143)は直線状なので、この接点用アーム部(143)を回転方向の接線方向に向けて設置してこれを回転した際に、その回転中心から最も離れた点(外側の接点用アーム部(143)の左右両角部)と、最も接近した点(内側の接点用アーム部(143)の内側辺中央部分)による軌跡の幅が、両接点用アーム(143)の直線方向の幅よりも大きくなり、その分、摺動子(140)の使用半径スペースを大きく取らなければならないという問題もあった。 However, in the case of the slider (140) shown in Patent Document 2, since the contact arm portion (143) has a linear shape and a cantilever structure, the contact portion (143) is rotated while rotating the slider (140). When the 145) is slidably contacted with the sliding contact pattern (157), stress in the twisting direction is applied to the contact arm portion (143), and there is a risk that the contact arm portion (143) may be broken due to aging. rice field. Further, since the contact arm portion (143) has a cantilever structure, the length of the contact arm portion (143) is shortened, and the contact pressure of the contact portion (145) with respect to the sliding contact pattern (157) is increased accordingly. There was also a risk of shortening the life of the sliding contact pattern (157). Further, since the contact arm portion (143) of the slider (140) is linear, when the contact arm portion (143) is installed in the tangential direction in the rotation direction and rotated, the rotation thereof is performed. The width of the trajectory between the point farthest from the center (the left and right corners of the outer contact arm (143)) and the closest point (the center of the inner side of the inner contact arm (143)) are both. There is also a problem that the width of the contact arm (143) is larger than the width in the linear direction, and the working radius space of the slider (140) must be increased accordingly.

特開2012−54058号公報Japanese Unexamined Patent Publication No. 2012-54058 特開2014−127409号公報Japanese Unexamined Patent Publication No. 2014-127409

本発明は上述の点に鑑みてなされたものでありその目的は、たとえ回転体に対する固定が破損しても接点部による摺接パターンへの弾接状態が維持でき、またアーム部の破損を効果的に防止できて耐久性を向上することができる回転式電子部品用摺動子を提供することにある。 The present invention has been made in view of the above points, and an object of the present invention is that even if the fixing to the rotating body is broken, the state of elastic contact with the sliding contact pattern by the contact portion can be maintained, and the arm portion is effectively damaged. It is an object of the present invention to provide a slider for a rotary electronic component which can be prevented and the durability can be improved.

本発明は、回転体に取り付けられ、この回転体に対向して設置される摺接パターン上を摺動してその出力信号を変化させる回転式電子部品用摺動子において、前記回転体の摺動子取付面に取り付けられる基部と、両端が前記基部の外周の2か所に接続され、その途中に前記摺接パターンに当接する接点部を形成してなるアーム部と、を有し、前記アーム部の両端近傍部分を基部から折り返すことでアーム部を基部上に位置させ、さらに前記折り返し部とアーム部と接点部は、前記回転体の摺動子取付面の回転中心線に直交する仮想仕切り線によって二分割される片側の領域内に収まることを特徴としている。
アーム部の両端を基部の外周の2か所に接続したので、アーム部の基部への取付強度を強くすることができ、これによってアーム部の破損を効果的に防止することができ、耐久性が向上する。同時に、アーム部の両端近傍部分を基部から折り返すことでアーム部を基部上に位置させたので、例え熱カシメ等による回転体への基部の固定が破損(完全な破損や、固定にゆるみが生じる等のがたつきの発生等を含む)しても、接点部が摺接パターンに弾接することで、基部の面全体が摺動子取付面に押し付けられ、これによって基部は浮き上がらず、このため接点部の摺接パターンへの接触不良は生じにくくなり、回転式電子部品としての機能を維持することができる。
また、少なくとも一対の回転式電子部品用摺動子をコンパクトに回転体の摺動子取付面に設置することができる。
The present invention is a slide for a rotary electronic component that is attached to a rotating body and slides on a sliding contact pattern installed facing the rotating body to change its output signal. It has a base portion to be attached to the moving element mounting surface, and an arm portion having both ends connected to two places on the outer periphery of the base portion and forming contact portions in the middle thereof that come into contact with the sliding contact pattern. The arm portion is positioned on the base portion by folding back the portions near both ends of the arm portion from the base portion, and the folded portion, the arm portion, and the contact portion are virtually orthogonal to the rotation center line of the slider mounting surface of the rotating body. It is characterized in Rukoto fit in the one side in the region that is divided into two parts by a partition line.
Since both ends of the arm part are connected to two places on the outer circumference of the base part, the mounting strength of the arm part to the base part can be strengthened, which can effectively prevent the arm part from being damaged and is durable. Is improved. At the same time, since the arm portion is positioned on the base portion by folding back the portions near both ends of the arm portion from the base portion, the fixing of the base portion to the rotating body due to thermal caulking or the like is damaged (complete damage or loosening occurs. Even if the contact part comes into contact with the sliding contact pattern, the entire surface of the base is pressed against the slider mounting surface, so that the base does not rise, and therefore the contact part. Poor contact with the sliding contact pattern of the portion is less likely to occur, and the function as a rotary electronic component can be maintained.
Further, at least a pair of sliders for rotary electronic components can be compactly installed on the slider mounting surface of the rotating body.

また本発明は、前記アーム部に、一方の折り返し部近傍から接点部を分割して他方の折り返し部近傍に至るスリットが形成されていることを特徴としている。
1本のアーム部をスリットによって2つに分割すれば、分割されたそれぞれの接点部の摺接パターンに対する接触圧を小さくでき、その寿命を長くすることができると共に、その接触フィーリングを向上でき、さらに分割されたそれぞれの接点部が摺接パターンに摺接することで、接触安定性の向上(摺接パターンへの確実な接触)を図ることができる。スリットの数は、1本のアーム部について複数本設けても良い。
Further, the present invention is characterized in that the arm portion is formed with a slit that divides the contact portion from the vicinity of one folded portion to the vicinity of the other folded portion.
If one arm portion is divided into two by a slit, the contact pressure for the sliding contact pattern of each divided contact portion can be reduced, the life thereof can be extended, and the contact feeling can be improved. Further, each of the divided contact portions is in sliding contact with the sliding contact pattern, so that the contact stability can be improved (reliable contact with the sliding contact pattern). A plurality of slits may be provided for one arm portion.

また本発明は、回転体に取り付けられ、この回転体に対向して設置される摺接パターン上を摺動してその出力信号を変化させる回転式電子部品用摺動子において、前記回転体の摺動子取付面に取り付けられる基部と、両端が前記基部の外周の2か所に接続され、その途中に前記摺接パターンに当接する接点部を形成してなるアーム部と、を有し、前記アーム部の両端近傍部分を基部から折り返すことでアーム部を基部上に位置させ、さらに前記基部の前記アーム部を接続した部分の両外側部分の外周辺を、前記回転体の摺動子取付面に設けた回転止め用突部外周の回転止め部に係止する回転止め部としたことを特徴としている。
これによって、熱カシメ等による回転体への基部の固定が破損(完全な破損や、固定にゆるみが生じる等のがたつきの発生等を含む)した状態で、回転体を左右何れの方向に回転しても、左右回転方向の力は、一対の回転止め部によって支えられ、正常な動作を維持することができる。
Further, the present invention is a slider for a rotary electronic component which is attached to a rotating body and slides on a sliding contact pattern installed facing the rotating body to change its output signal. It has a base portion attached to the slider mounting surface, and an arm portion having both ends connected to two places on the outer periphery of the base portion and forming a contact portion in the middle of the base portion that abuts on the sliding contact pattern. The arm portion is positioned on the base portion by folding back the portions near both ends of the arm portion from the base portion, and the outer periphery of both outer portions of the portion of the base portion to which the arm portion is connected is attached to the slider of the rotating body. The feature is that it is a rotation stop portion that locks to the rotation stop portion on the outer periphery of the rotation stop protrusion provided on the surface.
As a result, the rotating body can be rotated in either the left or right direction while the fixing of the base to the rotating body is damaged by thermal caulking (including complete damage and rattling such as loosening of the fixing). Even so, the force in the left-right rotation direction is supported by the pair of rotation stoppers, and normal operation can be maintained.

本発明に係る回転式電子部品用摺動子によれば、回転体に対する固定が破損しても、接点部による摺接パターンへの弾接状態を維持することができ、またアーム部の破損を効果的に防止することができて耐久性を向上することができる。 According to the slider for rotary electronic components according to the present invention, even if the fixing to the rotating body is broken, the state of elastic contact with the sliding contact pattern by the contact portion can be maintained, and the arm portion is damaged. It can be effectively prevented and the durability can be improved.

回転式電子部品用摺動子10,10と回転体100とを示す分解斜視図である。FIG. 5 is an exploded perspective view showing sliders 10 and 10 for rotary electronic components and a rotating body 100. 回転つまみ100に摺動子10,10を取り付けた状態を示す斜視図である。It is a perspective view which shows the state which the sliders 10 and 10 are attached to the rotary knob 100. 摺動子10,10を拡大して示す斜視図である。It is a perspective view which shows the sliders 10 and 10 enlarged. 摺動子10,10を拡大して示す平面図である。It is a top view which shows the sliders 10 and 10 enlarged. 摺動子10を拡大して示す側面図である。It is a side view which shows the slider 10 in an enlarged manner. 回転式電子部品1の斜視図である。It is a perspective view of the rotary electronic component 1. 回転式電子部品1を別の角度から見た斜視図である。It is a perspective view which looked at the rotary electronic component 1 from another angle. 回転式電子部品1の概略断面図(図6のA−A概略断面図)である。It is a schematic cross-sectional view (AA schematic cross-sectional view of FIG. 6) of a rotary electronic component 1. FIG. 回転式電子部品1から第4ケース300と防滴部材250と第3ケース220と第2ケース70を分解して示す分解斜視図である。It is an exploded perspective view which shows the 4th case 300, the drip-proof member 250, the 3rd case 220, and the 2nd case 70 disassembled from the rotary electronic component 1. 図9を別の角度から見た分解斜視図である。FIG. 9 is an exploded perspective view of FIG. 9 viewed from another angle. 第4ケース300とパッキン250と第3ケース220と第2ケース70を除く回転式電子部品1の他の部品の分解斜視図である。It is an exploded perspective view of the other parts of the rotary electronic component 1 except for the 4th case 300, the packing 250, the 3rd case 220 and the 2nd case 70. 図11を別の角度から見た分解斜視図である。FIG. 11 is an exploded perspective view of FIG. 11 viewed from another angle.

以下、本発明の実施形態を図面を参照して詳細に説明する。図1は本発明の1実施形態に係る一対の回転式電子部品用摺動子(以下「摺動子」という)10,10と、これら摺動子10,10を取り付ける回転体(以下「回転つまみ」という)100とを示す分解斜視図、図2は回転つまみ100に摺動子10,10を取り付けた状態(但し、熱カシメ前の状態)を示す斜視図、図3は摺動子10,10を拡大して示す斜視図、図4は摺動子10,10を拡大して示す平面図、図5は摺動子10を拡大して示す側面図である。 Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a pair of sliders for rotary electronic parts (hereinafter referred to as “slider”) 10 and 10 according to an embodiment of the present invention, and a rotating body (hereinafter referred to as “rotation”) to which these sliders 10 and 10 are attached. An exploded perspective view showing (referred to as "knob") 100, FIG. 2 is a perspective view showing a state in which the sliders 10 and 10 are attached to the rotary knob 100 (however, a state before thermal caulking), and FIG. 3 is a perspective view showing the slider 10. , 10 is an enlarged perspective view, FIG. 4 is an enlarged plan view of the sliders 10 and 10, and FIG. 5 is an enlarged side view of the slider 10.

これらの図において、一対の摺動子10,10は同一形状なので、各部を示す符号は同一符号とする。即ち、摺動子10は、何れも1枚の弾性金属板製であって、回転つまみ100の下記する摺動子取付面113に取り付けられる基部11と、両端が前記基部11の外周の2か所に接続され、その途中に下記する摺接パターン165に当接する接点部17,18を形成してなる一対のアーム部13,15と、を具備して構成されている。 In these figures, since the pair of sliders 10 and 10 have the same shape, the reference numerals indicating the respective parts are the same. That is, each of the sliders 10 is made of one elastic metal plate, and has a base portion 11 attached to the following slider mounting surface 113 of the rotary knob 100 and two ends of the outer periphery of the base portion 11. It is configured to include a pair of arm portions 13 and 15 which are connected to the place and form contact portions 17 and 18 which come into contact with the sliding contact pattern 165 described below in the middle thereof.

基部11は、略台形状の平板であり、対向して設置されるもう一方の摺動子10に対向する側の外周辺11aを、略直線状とし、その中央位置に半円弧状の凹部11bを形成して構成されている。凹部11bは、下記する回転つまみ100の導光用突起115を逃げるために設けられている。外周辺11aの前記凹部11bの両側には、一対のアーム部13,15のそれぞれ両端部が接続されている。さらに外周辺11aの前記アーム部13を接続した部分の両外側部分は、直線状の回転止め部11cとなっている。また基部11の略中央には、矩形状の小孔からなる位置決め部11dが設けられ、また基部11の左右両側の外周辺11e、11fの近傍位置には、1つずつ円形の小孔からなる取付部11gが形成されている。両取付部11gは、図4に示すように、真上から見て、アーム部13,15に重ならない、アーム部13,15の外側位置に設けられている。 The base portion 11 is a substantially trapezoidal flat plate, and the outer periphery 11a on the side facing the other slider 10 installed opposite to the base portion 11 has a substantially straight line shape, and a semicircular concave portion 11b is located at the center of the base portion 11. Is formed to form. The recess 11b is provided to escape the light guide projection 115 of the rotary knob 100 described below. Both ends of the pair of arm portions 13 and 15 are connected to both sides of the recess 11b on the outer periphery 11a. Further, both outer portions of the portion of the outer peripheral portion 11a to which the arm portion 13 is connected are linear rotation stop portions 11c. Further, a positioning portion 11d composed of rectangular small holes is provided substantially in the center of the base portion 11, and one circular small hole is provided near each of the outer peripheral edges 11e and 11f on both the left and right sides of the base portion 11. A mounting portion 11g is formed. As shown in FIG. 4, both mounting portions 11g are provided at outer positions of the arm portions 13 and 15 so as not to overlap the arm portions 13 and 15 when viewed from directly above.

一対のアーム部13,15は、何れも円弧状であって、前述のように、その両端を基部11の外周辺11aの2か所に接続し、その途中(中央)に接点部17,18を設けて構成されている。各アーム部13,15の両端は、何れも基部11の外周辺11aから外方に向けて突出した後、折り返し部13a,15aにおいて約180°折り返され、短い直線部13b,15bを経た後、さらに斜め上方(基部11から徐々に離れていく方向)に向けて傾斜しており、これによって、アーム部13,15全体が、基部11の上方に位置し、且つ摺動子10を真上から見て基部11内に位置するようにしている。一方のアーム部15は、もう一方のアーム部13の内側に同心円状に所定の隙間を介して配置されている。各アーム部13,15には、一方の折り返し部13a,15a近傍から接点部17,18を分割して他方の折り返し部13a,15a近傍に至るスリット13c、15cが形成されている。接点部17,18は、アーム部13,15の中央部分を、基部11から離れる方向に向けて湾曲・突出させて構成されている。 The pair of arm portions 13 and 15 are all arcuate, and as described above, both ends thereof are connected to two locations on the outer periphery 11a of the base portion 11, and the contact portions 17 and 18 are connected in the middle (center). Is provided. Both ends of the arm portions 13 and 15 project outward from the outer peripheral edge 11a of the base portion 11, then are folded back by about 180 ° at the folded portions 13a and 15a, and after passing through the short straight portions 13b and 15b, Further, it is inclined diagonally upward (in a direction gradually moving away from the base portion 11), whereby the entire arm portions 13 and 15 are located above the base portion 11 and the slider 10 is placed directly above the base portion 11. It is designed to be located inside the base 11 as seen. One arm portion 15 is concentrically arranged inside the other arm portion 13 via a predetermined gap. The arm portions 13 and 15 are formed with slits 13c and 15c that divide the contact portions 17 and 18 from the vicinity of one folded portion 13a and 15a and reach the vicinity of the other folded portions 13a and 15a. The contact portions 17 and 18 are configured such that the central portions of the arm portions 13 and 15 are curved and protruded in a direction away from the base portion 11.

この摺動子10を製造するには、図5に点線で示すように、まず、平板を、同一平面上において、基部11やアーム部13,15や接点部17,18の外形形状に打ち抜き加工し、接点部17,18の曲げ加工を行い、最後に、同図に実線で示すように、アーム部13,15の根元部分を折り返す。これによって摺動子10が完成する。 In order to manufacture the slider 10, first, as shown by the dotted line in FIG. 5, the flat plate is first punched into the outer shape of the base portion 11, the arm portions 13, 15 and the contact portions 17, 18 on the same plane. Then, the contact portions 17 and 18 are bent, and finally, as shown by the solid line in the figure, the root portions of the arm portions 13 and 15 are folded back. This completes the slider 10.

次に、上記摺動子10を用いて構成される回転式電子部品1について説明する。図6は回転式電子部品1の斜視図、図7は回転式電子部品1を別の角度から見た斜視図、図8は回転式電子部品1の概略断面図(図6のA−A概略断面図)、図9は回転式電子部品1から第4ケース300と防滴部材(以下「パッキン」という)250と第3ケース220と第2ケース70を分解して示す分解斜視図、図10は図9を別の角度から見た分解斜視図、図11は第4ケース300とパッキン250と第3ケース220と第2ケース70を除く回転式電子部品1の他の部品の分解斜視図、図12は図11を別の角度から見た分解斜視図である。なお、回転つまみ100の操作部101を露出する面側を前面、その反対側を後面ということとする。 Next, the rotary electronic component 1 configured by using the slider 10 will be described. 6 is a perspective view of the rotary electronic component 1, FIG. 7 is a perspective view of the rotary electronic component 1 as viewed from another angle, and FIG. 8 is a schematic cross-sectional view of the rotary electronic component 1 (schematic AA of FIG. 6). FIG. 9 is an exploded perspective view showing the rotary electronic components 1 to the fourth case 300, the drip-proof member (hereinafter referred to as “packing”) 250, the third case 220, and the second case 70 in an exploded manner. 9 is an exploded perspective view of FIG. 9 viewed from another angle, and FIG. 11 is an exploded perspective view of other parts of the rotary electronic component 1 excluding the fourth case 300, the packing 250, the third case 220, and the second case 70. FIG. 12 is an exploded perspective view of FIG. 11 as viewed from another angle. The surface side of the rotary knob 100 that exposes the operation unit 101 is referred to as the front surface, and the opposite side thereof is referred to as the rear surface.

これらの図に示すように、回転式電子部品1は、第1ケース20と、第2ケース70と、一対の摺動子10を取り付けた回転つまみ100と、端子ユニット140と、回路基板160と、導光体190と、第3ケース220と、パッキン250と、第4ケース300とを具備して構成されている。 As shown in these figures, the rotary electronic component 1 includes a first case 20, a second case 70, a rotary knob 100 to which a pair of sliders 10 are attached, a terminal unit 140, and a circuit board 160. , The light guide body 190, the third case 220, the packing 250, and the fourth case 300 are included.

第1ケース20は非透明材料からなる合成樹脂を略矩形箱型に成形した成形品であり、その一方の面側に略円筒状の軸受部21を設け、この軸受部21の回転つまみ100を向く側に凹部からなる第1収納部23を、回路基板160を向く側に凹部からなる第2収納部25を設けて構成されている。第1ケース20の対向する上下側面の第1収納部23側の部分には、下記する第2ケース70の爪部79を係止する矩形状の貫通孔からなる一対の被係止部27が設けられている。また第1ケース20の対向する上下側面の第2収納部25側の部分には、下記する第3ケース220の爪部223を係止する矩形状の貫通孔からなる一対の被係止部29が形成されている。また第1ケース20の対向する上下側面の前記両被係止部27,29の間の位置には、下記する第4ケース300の被係止部309を係止する爪状の一対の係止部30が形成されている。軸受部21の後方には、第2収納部25側に向かって開口する略矩形状の端子ユニット収納部31が形成されている。また前記軸受部21の円弧状外周面の一部分と、その左右両側の第1収納部23側に突出する辺の部分はパッキン搭載面33(33a〜33c)となっている。また図示はしていないが、第1収納部23内の軸受部21を設けた面の下方(下記するクリック用ボール127に対向する位置)には、円弧状方向(クリック用ボール127の移動する円弧方向)に向かって凹凸するクリック係合部が形成されている。 The first case 20 is a molded product obtained by molding a synthetic resin made of a non-transparent material into a substantially rectangular box shape, and a substantially cylindrical bearing portion 21 is provided on one surface side thereof, and a rotary knob 100 of the bearing portion 21 is provided. A first accommodating portion 23 formed of a recess is provided on the facing side, and a second accommodating portion 25 formed of a recess is provided on the side facing the circuit board 160. A pair of locked portions 27 composed of rectangular through holes for locking the claw portions 79 of the second case 70 described below are provided on the upper and lower side surfaces of the first case 20 facing each other on the side of the first storage portion 23. It is provided. Further, in the portion of the first case 20 facing the upper and lower side surfaces on the second storage portion 25 side, a pair of locked portions 29 formed of rectangular through holes for locking the claw portion 223 of the third case 220 described below. Is formed. Further, at a position between the both locked portions 27 and 29 on the upper and lower side surfaces of the first case 20 facing each other, a pair of claw-shaped lockings for locking the locked portions 309 of the fourth case 300 described below. The portion 30 is formed. Behind the bearing portion 21, a substantially rectangular terminal unit accommodating portion 31 that opens toward the second accommodating portion 25 side is formed. Further, a part of the arcuate outer peripheral surface of the bearing portion 21 and a portion of a side projecting to the first storage portion 23 side on both left and right sides thereof are packing mounting surfaces 33 (33a to 33c). Although not shown, the click ball 127 moves in the arcuate direction below the surface of the first storage portion 23 where the bearing portion 21 is provided (the position facing the click ball 127 described below). A click engaging portion that is uneven toward the arc direction) is formed.

第2ケース70は、非透明材料からなる合成樹脂を一体成形して構成されており、略平板矩形状のケース本体部71と、ケース本体部71から回転つまみ100側に向けて突出する円板状のつまみ支持部73とを具備して構成されている。つまみ支持部73の外周には第1ケース側に向けて突出する円筒状の外側壁74が設けられ、その内側には同心円状に突出する有底円筒状の突出部75が設けられている。ケース本体部71の上下両側辺からは、回転つまみ100側に向けて一対の係止爪77が突出している。係止爪77は平板状であり、その先端近傍の両外側位置に爪部79を設けている。またケース本体部71の外周の一部は、下記するパッキン250を当接するパッキン搭載面81となっている。 The second case 70 is formed by integrally molding a synthetic resin made of a non-transparent material, and has a substantially flat rectangular case body 71 and a disk protruding from the case body 71 toward the rotary knob 100 side. It is configured to include a knob support portion 73 having a shape. A cylindrical outer wall 74 projecting toward the first case side is provided on the outer circumference of the knob support portion 73, and a bottomed cylindrical projecting portion 75 projecting concentrically is provided inside the cylindrical outer wall 74. A pair of locking claws 77 project from the upper and lower sides of the case main body 71 toward the rotary knob 100 side. The locking claw 77 has a flat plate shape, and claw portions 79 are provided at both outer positions near the tip thereof. A part of the outer circumference of the case body 71 is a packing mounting surface 81 that abuts the packing 250 described below.

回転つまみ100は合成樹脂の成形品であり、透明材料と非透明材料からなる二色成形品である。回転つまみ100は略円板形状であり、その外周面が操作部101となっている。回転つまみ100の第2ケース70側を向く面には、円形の凹部103が設けられ、凹部103内には、2つの筒状の突出部105,107が同心円状に突設されている。両突出部105,107の間の円形の凹部は、前記第2ケース70の突出部75を挿入する挿入部109となっている。また突出部107中央の凹部の底面は、略円錐凹状の光反射面110(図8参照)となっている。回転つまみ100の第1ケース20側を向く面の中央からは、略円柱形状の軸部111が突出している。軸部111の上面は摺動子取付面113となっており、さらに摺動子取付面113の中央からは円錐台形状の導光用突起115が突出している。導光用突起115の先端面は光入射面117になっている。摺動子取付面113上には、図1に示すように、小突起からなる摺動子取付突部119が一対ずつ2組形成されている。これら摺動子取付突部119は、前記摺動子10の各取付部11gに対向する位置に形成されている。一対の摺動子取付突部119の中間位置には略矩形状の小突起からなる位置決め部120が形成されている。位置決め部120は、前記摺動子10の位置決め部11dに対向する位置に形成されている。また各組の摺動子取付突部119の中間位置にも小突起からなる回転止め用突部121が形成され、この回転止め用突部121の対向する一対ずつの辺を回転止め部122としている。回転止め部122は、前記摺動子10の回転止め部11cに対向する位置に形成されている。軸部111の周囲には、リング状の防滴用凹部123が形成されている。また回転つまみ100の第1ケース20側を向く面の外周部分には、有底円形の穴からなるクリック機構収納部124が形成されている。クリック機構収納部124には、コイルバネ125とクリック用ボール127とが収納される。 The rotary knob 100 is a molded product of synthetic resin, and is a two-color molded product made of a transparent material and a non-transparent material. The rotary knob 100 has a substantially disk shape, and its outer peripheral surface serves as an operation unit 101. A circular recess 103 is provided on the surface of the rotary knob 100 facing the second case 70 side, and two tubular protrusions 105 and 107 are concentrically projected in the recess 103. The circular recess between the protruding portions 105 and 107 is an insertion portion 109 into which the protruding portion 75 of the second case 70 is inserted. The bottom surface of the recess at the center of the protrusion 107 is a substantially conical concave light reflecting surface 110 (see FIG. 8). A substantially cylindrical shaft portion 111 projects from the center of the surface of the rotary knob 100 facing the first case 20 side. The upper surface of the shaft portion 111 is a slider mounting surface 113, and a truncated cone-shaped light guide projection 115 projects from the center of the slider mounting surface 113. The tip surface of the light guide projection 115 is a light incident surface 117. As shown in FIG. 1, two pairs of slider mounting protrusions 119 made of small protrusions are formed on the slider mounting surface 113. The slider mounting protrusions 119 are formed at positions facing each mounting portion 11g of the slider 10. A positioning portion 120 composed of substantially rectangular small protrusions is formed at an intermediate position between the pair of slider mounting protrusions 119. The positioning portion 120 is formed at a position facing the positioning portion 11d of the slider 10. Further, a rotation stop protrusion 121 made of small protrusions is also formed at an intermediate position of each set of slider mounting protrusions 119, and a pair of opposite sides of the rotation stop protrusion 121 are used as rotation stop portions 122. There is. The rotation stop portion 122 is formed at a position facing the rotation stop portion 11c of the slider 10. A ring-shaped drip-proof recess 123 is formed around the shaft portion 111. Further, a click mechanism accommodating portion 124 having a bottomed circular hole is formed on the outer peripheral portion of the surface of the rotary knob 100 facing the first case 20 side. The coil spring 125 and the click ball 127 are stored in the click mechanism storage unit 124.

また上述のように、回転つまみ100は、2種類の樹脂A1,A2(図8参照)を一体成形することによって構成されている。一方の樹脂A1は透明な樹脂であり、もう一方の樹脂A2は不透明な樹脂である。透明な樹脂A1は、その全体がつまみ用導光部A1を構成し、この回転つまみ100の軸部111と操作部101の間を光学的につないでおり、操作部101の外周面と、導光用突起115の光入射面117間を光学的に結ぶように成形されている。光入射面117は円形の平面状に形成されている。つまみ用導光部A1は、略円板状の導光本体部A11と、導光本体部A11の中心から軸部111側に垂直に突出して軸部111の中心部分を構成する導光軸部A13とを具備している。導光本体部A11の導光軸部A13とは反対側の面の中央に、前記光反射面110が形成されている。また前記両突出部105,107も導光本体部A11の一部を構成している。一方、樹脂A2は、導光本体部A11の光反射面110側の面の操作部101の裏面側の部分と、導光本体部A11の軸部111側の面略全体の部分とに形成されており、軸部111の導光軸部A13を除く部分と、摺動子取付面113と、防滴用凹部123とを構成している。 Further, as described above, the rotary knob 100 is formed by integrally molding two types of resins A1 and A2 (see FIG. 8). One resin A1 is a transparent resin, and the other resin A2 is an opaque resin. The transparent resin A1 as a whole constitutes a light guide portion A1 for a knob, and optically connects between the shaft portion 111 and the operation portion 101 of the rotary knob 100, and guides the outer peripheral surface of the operation portion 101. It is formed so as to optically connect the light incident surfaces 117 of the light projection 115. The light incident surface 117 is formed in a circular flat shape. The knob light guide portion A1 includes a substantially disk-shaped light guide main body A11 and a light guide shaft portion that projects vertically from the center of the light guide main body A11 toward the shaft portion 111 to form the central portion of the shaft portion 111. It is equipped with A13. The light reflecting surface 110 is formed in the center of the surface of the light guide main body A11 opposite to the light guide shaft A13. Further, both the protruding portions 105 and 107 also form a part of the light guide main body portion A11. On the other hand, the resin A2 is formed on a portion of the light guide main body A11 on the light reflecting surface 110 side on the back surface side of the operation portion 101 and a portion of the light guide main body A11 on the shaft portion 111 side of the entire surface. It comprises a portion of the shaft portion 111 excluding the light guide shaft portion A13, a slider mounting surface 113, and a drip-proof recess 123.

端子ユニット140は、6本の金属板製の端子141を、略矩形状の成形樹脂製の第1端子保持部材143と、略四角棒状の第2端子保持部材144内にインサート成形して構成されている。各端子141はその途中の2か所でほぼ直角に屈曲することで、その一端は後方に向かって1列に6本突出し、他端は一側面側を向いて1列に6本突出している。 The terminal unit 140 is configured by insert molding six metal plate terminals 141 into a substantially rectangular first terminal holding member 143 made of molded resin and a substantially square bar-shaped second terminal holding member 144. ing. Each terminal 141 is bent at two points in the middle at a substantially right angle, so that one end of the terminal 141 protrudes rearward in a row of six and the other end protrudes toward one side surface in a row of six. ..

回路基板160は、硬質で略矩形状の板からなる絶縁基板161の所定位置に、円形の貫通する挿通部163を設け、この挿通部163の周囲の回転つまみ100を向く面側に、前記摺動子10の接点部17,18を摺接させる摺接パターン165を形成し、また絶縁基板161の後方の外周辺近傍に一列に前記端子141の一端を挿入する6つの小孔からなる端子挿入孔167を形成し、さらに絶縁基板161の前記摺接パターン165を設けた反対の面側の所定位置に発光素子169と、他の各種電子部品171を取り付けて構成されている。絶縁基板161上には、図示しない回路パターンが形成されており、前記摺接パターン165や発光素子169や各種電子部品171や前記端子挿入孔167に取り付けられる端子141間を電気的に接続する。摺接パターン165としては、スイッチパターンや抵抗体パターン等の種々のパターンが適用できる。 The circuit board 160 is provided with a circular penetrating insertion portion 163 at a predetermined position on an insulating substrate 161 made of a hard and substantially rectangular plate, and the slide is provided on the surface side of the insertion portion 163 facing the rotary knob 100. A terminal insertion consisting of six small holes for forming a sliding contact pattern 165 for sliding contact portions 17 and 18 of the mover 10 and inserting one end of the terminal 141 in a row near the outer periphery behind the insulating substrate 161. A hole 167 is formed, and a light emitting element 169 and various other electronic components 171 are attached to a predetermined position on the opposite surface side of the insulating substrate 161 provided with the sliding contact pattern 165. A circuit pattern (not shown) is formed on the insulating substrate 161 to electrically connect the sliding contact pattern 165, the light emitting element 169, various electronic components 171 and the terminals 141 attached to the terminal insertion holes 167. As the sliding contact pattern 165, various patterns such as a switch pattern and a resistor pattern can be applied.

導光体190は、透明な合成樹脂を、回路基板160側の面が解放された略矩形箱型に一体成形して構成されている。導光体190の回路基板160の面側は凹状の基板収納部191となっており、その底面の所定位置から円柱状の光導出部193を突出している。基板収納部191は、前記回路基板160全体を収納して覆う形状に形成されている。光導出部193は前記回路基板160の挿通部163に挿入できる寸法に形成されており、その先端面は光出射面195となっている。光出射面195は円形の平面状に形成されており、前記光入射面117と同一の外径寸法に形成されている。また導光体190の第4ケース300側の面も光出射面197となっている。また、導光体190の第3ケース220側の面には、光出射面195,197方向に光を反射させる光反射面199が形成されている。 The light guide body 190 is formed by integrally molding a transparent synthetic resin into a substantially rectangular box shape in which the surface on the circuit board 160 side is open. The surface side of the circuit board 160 of the light guide body 190 is a concave substrate storage portion 191, and a columnar light lead-out portion 193 projects from a predetermined position on the bottom surface thereof. The substrate accommodating portion 191 is formed in a shape that accommodates and covers the entire circuit board 160. The light lead-out portion 193 is formed to have a size that allows it to be inserted into the insertion portion 163 of the circuit board 160, and its front end surface is a light emission surface 195. The light emitting surface 195 is formed in a circular plane shape, and is formed to have the same outer diameter dimension as the light incident surface 117. Further, the surface of the light guide body 190 on the side of the fourth case 300 is also a light emitting surface 197. Further, a light reflecting surface 199 that reflects light in the light emitting surfaces 195 and 197 directions is formed on the surface of the light guide body 190 on the third case 220 side.

第3ケース220は、非透明な合成樹脂を略平板矩形状に成形して構成されており、前記第1ケース20の第2収納部25を略覆う外形形状に形成されている。第3ケース220の上下両側辺からは、第1ケース20側に向けて一対の係止爪221を突出している。係止爪221は平板状であり、その先端近傍の両外側位置に爪部223を設けている。 The third case 220 is formed by molding a non-transparent synthetic resin into a substantially flat plate rectangular shape, and is formed in an outer shape that substantially covers the second storage portion 25 of the first case 20. A pair of locking claws 221 project from the upper and lower sides of the third case 220 toward the first case 20 side. The locking claw 221 has a flat plate shape, and claw portions 223 are provided at both outer positions near the tip thereof.

パッキン250は、エラストマー等の弾性体を、横断面円形で略矩形のリング状に形成し、3辺を直線状に、もう1つの辺を円弧状に湾曲した形状として構成されている。 The packing 250 is formed by forming an elastic body such as an elastomer in a ring shape having a circular cross section and a substantially rectangular shape, with three sides linearly curved and the other side curved in an arc shape.

第4ケース300は、合成樹脂の成形品であり、第1ケース20側が解放された略矩形箱型に成形して構成されており、これによって収納部301を形成している。第4ケース300の前面(以下「化粧面」という)303の前記回転つまみ100に対向する位置には、回転つまみ100の操作部101の一部を露出する開口305が形成され、また前記導光体190の光出射面197に対向する位置には、照光部307が形成されている。照光部307は、第4ケース300を構成する透明な成形樹脂の表面に塗布した不透光性の塗装を、所望の文字や記号等の形状にレーザー等によって切り欠くことで形成されているが、他の種々の方法によって形成しても良い。第4ケース300の対向する上下両側面の所定位置には、それぞれ前記第1ケース20の係止部30を係止する矩形状の貫通孔からなる被係止部309が形成されている。 The fourth case 300 is a molded product of synthetic resin, and is formed by molding the first case 20 side into a substantially rectangular box shape, thereby forming a storage portion 301. An opening 305 that exposes a part of the operation portion 101 of the rotary knob 100 is formed at a position of the front surface (hereinafter referred to as “decorative surface”) 303 of the fourth case 300 facing the rotary knob 100, and the light guide is provided. An illuminated portion 307 is formed at a position of the body 190 facing the light emitting surface 197. The illuminated portion 307 is formed by cutting out a translucent coating applied to the surface of the transparent molding resin constituting the fourth case 300 into a desired shape such as a character or a symbol by a laser or the like. , May be formed by various other methods. Locked portions 309 formed of rectangular through holes for locking the locking portions 30 of the first case 20 are formed at predetermined positions on the upper and lower side surfaces of the fourth case 300, respectively.

次に、回転式電子部品1を組み立てるには、まず予め、回転つまみ100の防滴用凹部123内に、防滴用のグリスG(図8参照)を充填しておく。一方、端子ユニット140の側方に向かって突出する各端子141の先端を、回路基板160の各端子挿入孔167に挿入し、その反対側において回路基板上の回路パターンに半田によって固定しておく。 Next, in order to assemble the rotary electronic component 1, first, the drip-proof recess 123 of the rotary knob 100 is filled with drip-proof grease G (see FIG. 8). On the other hand, the tip of each terminal 141 protruding toward the side of the terminal unit 140 is inserted into each terminal insertion hole 167 of the circuit board 160, and fixed to the circuit pattern on the circuit board on the opposite side by soldering. ..

そして図1,図2に示すように、まず、回転つまみ100の摺動子取付面113に一対の摺動子10の基部11を載置し、その際、摺動子取付面113の各摺動子取付突部119を摺動子10の各取付部11gに挿入し、その先端を熱カシメして(又は圧入のみで)取り付ける。このとき上述したように、両取付部11gは真上から見てアーム部13,15に重ならないそれらの外側位置に離れて設けられているので、それらの熱カシメする際に用いるポンチがアーム部13,15に干渉せず、熱カシメを容易に行うことができる。 Then, as shown in FIGS. 1 and 2, first, the base 11 of the pair of sliders 10 is placed on the slider mounting surface 113 of the rotary knob 100, and at that time, each slide of the slider mounting surface 113 is placed. The mover mounting protrusion 119 is inserted into each mounting portion 11g of the slider 10, and the tip thereof is heat-caulked (or press-fitted only) for mounting. At this time, as described above, since both mounting portions 11g are provided apart from each other at their outer positions that do not overlap the arm portions 13 and 15 when viewed from directly above, the punch used for heat caulking them is the arm portion. Thermal caulking can be easily performed without interfering with 13 and 15.

このとき同時に、回転つまみ100の各位置決め部120は摺動子10の各位置決め部11dに挿入(圧入ではない)され、さらに同時に、回転つまみ100の各回転止め用突部121の回転止め部122に摺動子10の各回転止め部11cが係止される。なおさらに回転止め用突部121は熱カシメしてもよい(この例では熱カシメしない)。 At this time, at the same time, each positioning portion 120 of the rotary knob 100 is inserted (not press-fitted) into each positioning portion 11d of the slider 10, and at the same time, the rotation stop portion 122 of each rotation stop protrusion 121 of the rotary knob 100 is inserted. Each rotation stop portion 11c of the slider 10 is locked to. Further, the rotation stop protrusion 121 may be heat-caulked (not heat-caulked in this example).

次に、第1ケース20の第1収納部23内に、前記摺動子10を取り付け且つコイルバネ125とクリック用ボール127をクリック機構収納部124に収納した回転つまみ100を収納し、その際、回転つまみ100の軸部111を、第1ケース20の軸受部21内に回動自在に挿入し、軸支する。このとき、回転つまみ100のグリスGを充填した防滴用凹部123内に、第1ケース20の軸受部21が挿入されることで、防滴処理部が形成される。次に、前記回転つまみ100の側面を覆うように、第2ケース70を取り付け、係止爪77の爪部79を第1ケース20の被係止部27に係止し、これによって回転つまみ100を挟んだ状態で第2ケース70を第1ケース20に取り付ける。このとき、第2ケース70のつまみ支持部73が回転つまみ100の側面を覆い、その突出部75が回転つまみ100の挿入部109に挿入される。 Next, the rotary knob 100 to which the slider 10 is attached and the coil spring 125 and the click ball 127 are stored in the click mechanism storage unit 124 is stored in the first storage portion 23 of the first case 20. The shaft portion 111 of the rotary knob 100 is rotatably inserted into the bearing portion 21 of the first case 20 to support the shaft. At this time, the drip-proof processing portion is formed by inserting the bearing portion 21 of the first case 20 into the drip-proof recess 123 filled with the grease G of the rotary knob 100. Next, the second case 70 is attached so as to cover the side surface of the rotary knob 100, and the claw portion 79 of the locking claw 77 is locked to the locked portion 27 of the first case 20, whereby the rotary knob 100 is attached. The second case 70 is attached to the first case 20 with the At this time, the knob support portion 73 of the second case 70 covers the side surface of the rotary knob 100, and the protruding portion 75 is inserted into the insertion portion 109 of the rotary knob 100.

次に、前記端子ユニット140を取り付けた回路基板160と導光体190とを、第1ケース20の第2収納部25内に収納し、さらにその上から第3ケース220を被せる。そして第3ケース220の各爪部223を、第1ケース20の各被係止部29に係止する。 Next, the circuit board 160 to which the terminal unit 140 is attached and the light guide body 190 are housed in the second storage portion 25 of the first case 20, and further covered with the third case 220 from above. Then, each claw portion 223 of the third case 220 is locked to each locked portion 29 of the first case 20.

このとき、回路基板160の摺接パターン165には、摺動子10の接点部17,18が当接する。また、端子ユニット140は、端子ユニット収納部31内に収納される。またこのとき、導光体190は回路基板160を覆っている。また導光体190の光導出部193は、回路基板160の挿通部163に挿入され、その先端の光出射面195は回転つまみ100の光入射面117に接近して対向している。 At this time, the contact portions 17 and 18 of the slider 10 come into contact with the sliding contact pattern 165 of the circuit board 160. Further, the terminal unit 140 is housed in the terminal unit storage unit 31. At this time, the light guide body 190 covers the circuit board 160. Further, the light guiding portion 193 of the light guide body 190 is inserted into the insertion portion 163 of the circuit board 160, and the light emitting surface 195 at the tip thereof approaches and faces the light incident surface 117 of the rotary knob 100.

次に、パッキン250を、第4ケース300のケース本体収納部301内に挿入し、第4ケース300の開口305の裏側を囲む位置に設けたパッキン搭載面311(図8参照)に当接・設置する。そして、このパッキン250を取り付けた第4ケース300を、前記第1ケース20の回転つまみ100を露出する側の部分に、その上から被せるように取り付ける。その際、各係止部30を、第4ケース300の各被係止部309に係止し、これによって回転式電子部品1の組み立てを完了する。なお上記組立手順はその一例であり、他の各種異なる組立手順を用いて組み立てても良いことはいうまでもない。 Next, the packing 250 is inserted into the case body storage portion 301 of the fourth case 300, and abuts on the packing mounting surface 311 (see FIG. 8) provided at a position surrounding the back side of the opening 305 of the fourth case 300. Install. Then, the fourth case 300 to which the packing 250 is attached is attached so as to cover the portion of the first case 20 on the exposed side of the rotary knob 100 from above. At that time, each locking portion 30 is locked to each locked portion 309 of the fourth case 300, thereby completing the assembly of the rotary electronic component 1. The above assembly procedure is an example, and it goes without saying that the assembly may be performed using various other different assembly procedures.

このとき、図6,図7に示すように、回転つまみ100の操作部101の一部は、開口305から露出する。また第4ケース300の照光部307の裏面に対向する位置に、導光体190の光出射面197が配置される。またこのとき、パッキン250は、第4ケース300のパッキン搭載面311と、前記第1,第2ケース20、70のパッキン搭載面33(33a〜33c),81との間で挟持され、密閉される。 At this time, as shown in FIGS. 6 and 7, a part of the operation unit 101 of the rotary knob 100 is exposed from the opening 305. Further, the light emitting surface 197 of the light guide body 190 is arranged at a position facing the back surface of the illuminated portion 307 of the fourth case 300. At this time, the packing 250 is sandwiched and sealed between the packing mounting surface 311 of the fourth case 300 and the packing mounting surfaces 33 (33a to 33c) and 81 of the first and second cases 20 and 70. NS.

以上のようにして組み立てられた回転式電子部品1において、回転つまみ100を回転すると、摺動子10の接点部17,18が回路基板160の摺接パターン165上を摺動し、これによって各端子141間の検出出力が変化する。 In the rotary electronic component 1 assembled as described above, when the rotary knob 100 is rotated, the contact portions 17 and 18 of the slider 10 slide on the sliding contact pattern 165 of the circuit board 160, whereby each of them slides. The detection output between the terminals 141 changes.

ここでこの実施形態に用いている摺動子10においては、アーム部13,15の両端を基部11の外周(外周辺11a)の2か所に接続したので(両持ち構造)、アーム部13,15の基部11への取付強度を強くすることができ、これによってアーム部13,15の破損を効果的に防止することができ、耐久性が向上する。またアーム部13,15は、摺動子10の回転方向に沿う円弧形状なので、その接点部17,18を摺接パターン165に当接させながら回転した際でも、アーム部13,15がねじれることはなく、この点からも摺動子10の耐久性を向上することができる。またこの摺動子10のアーム部13,15は、摺動子10の回転方向に沿う円弧状なので、これを回転した際の、その回転中心から最も離れた点(外側の円弧部分)と、最も接近した点(内側の円弧部分)による軌跡の幅が、両アーム部13,15の幅と同一になり、これによって、これらが直線状である場合に比べ、摺動子10の使用半径スペースを小さくすることができる。 Here, in the slider 10 used in this embodiment, since both ends of the arm portions 13 and 15 are connected to two places on the outer circumference (outer periphery 11a) of the base portion 11 (double-sided structure), the arm portion 13 , 15 can be strengthened to be attached to the base portion 11, whereby damage to the arm portions 13 and 15 can be effectively prevented, and durability is improved. Further, since the arm portions 13 and 15 have an arc shape along the rotation direction of the slider 10, the arm portions 13 and 15 are twisted even when the contact portions 17 and 18 are rotated while being in contact with the sliding contact pattern 165. From this point as well, the durability of the slider 10 can be improved. Further, since the arm portions 13 and 15 of the slider 10 have an arc shape along the rotation direction of the slider 10, the point farthest from the rotation center (outer arc portion) when the slider 10 is rotated is defined as the point (outer arc portion). The width of the locus due to the closest point (inner arc portion) becomes the same as the width of both arm portions 13 and 15, whereby the working radius space of the slider 10 is compared with the case where these are linear. Can be made smaller.

同時に、アーム部13,15の両端近傍部分を基部11から折り返すことでアーム部13,15を基部11上(上方)に位置させたので、アーム部13,15の弾発力は、基部11全体をほぼ均一に回転つまみ100の摺動子取付面113に押え付ける方向の力として作用し、このため摺動子取付突部119の熱カシメ(又は圧入)等による基部11の回転つまみ100への固定が破損(完全な破損や、固定にゆるみが生じる等のがたつきの発生等を含む)しても、基部11は浮き上がらず、このため接点部17,18の摺接パターン165への接触不良は生じにくく、回転式電子部品1としての機能を維持できる。特にこの摺動子10の場合、基部11に設けた位置決め部11dに、摺動子取付面113に設けた位置決め部120を挿入しているので、摺動子取付突部119による固定が破損しても、摺動子10の位置を、正規の位置に保持することができる。さらに、基部11に設けた一対の回転止め部11cが、摺動子取付面113に設けた回転止め部122に係止しているので、摺動子取付突部119による固定が破損した状態で、回転つまみ100を左右何れの方向に回転しても、左右回転方向の力は、一対の回転止め部122によって支えられる。つまり、摺動子10は、摺動子取付突部119による固定が破損しても、その機能を失うことなく、正常な動作を維持できる。 At the same time, the arm portions 13 and 15 are positioned above (upper) the base portion 11 by folding back the portions near both ends of the arm portions 13 and 15 from the base portion 11, so that the elastic force of the arm portions 13 and 15 is the entire base portion 11. Acts as a force in the direction of pressing the slider mounting surface 113 of the rotary knob 100 substantially uniformly, and therefore, the base 11 is pressed against the rotary knob 100 by heat caulking (or press-fitting) of the slider mounting protrusion 119. Even if the fixing is broken (including complete breakage and rattling such as loosening of the fixing), the base 11 does not rise, and therefore the contact portions 17 and 18 have poor contact with the sliding contact pattern 165. Is unlikely to occur, and the function as the rotary electronic component 1 can be maintained. In particular, in the case of the slider 10, since the positioning portion 120 provided on the slider mounting surface 113 is inserted into the positioning portion 11d provided on the base portion 11, the fixing by the slider mounting protrusion 119 is damaged. However, the position of the slider 10 can be held at the regular position. Further, since the pair of rotation stop portions 11c provided on the base portion 11 are locked to the rotation stop portions 122 provided on the slider mounting surface 113, the fixing by the slider mounting protrusion 119 is damaged. Regardless of which direction the rotary knob 100 is rotated in the left-right direction, the force in the left-right rotation direction is supported by the pair of rotation stop portions 122. That is, even if the fixing by the slider mounting protrusion 119 is broken, the slider 10 can maintain its normal operation without losing its function.

また上記摺動子10においては、アーム部13,15が両持ち構造なので、片持ち構造に比べてアーム部13,15の長さを長くでき、その分、接点部17,18の摺接パターン165に対する接触圧を弱くでき、摺接パターン165の寿命を長くすることができる。さらに各アーム部13,15には、一方の折り返し部13a,15a近傍から接点部17,18を分割して他方の折り返し部13a,15a近傍に至るスリット13c,15cを形成しているので、分割されたそれぞれの接点部17,18の摺接パターン165に対する接触圧をさらに小さくでき、さらに摺接パターン165の寿命を長くすることができると共に、その接触フィーリングを向上でき、さらに分割されたそれぞれの接点部17,18の内の少なくとも何れかが摺接パターン165に確実に摺接することで、接触安定性を向上することができる。 Further, in the slider 10, since the arm portions 13 and 15 have a double-sided structure, the lengths of the arm portions 13 and 15 can be made longer than those of the cantilever structure, and the sliding contact pattern of the contact portions 17 and 18 can be increased accordingly. The contact pressure with respect to 165 can be weakened, and the life of the sliding contact pattern 165 can be extended. Further, the arm portions 13 and 15 are divided because the contact portions 17 and 18 are divided from the vicinity of one folded portion 13a and 15a to form slits 13c and 15c extending to the vicinity of the other folded portions 13a and 15a. The contact pressure of each of the contact portions 17 and 18 with respect to the sliding contact pattern 165 can be further reduced, the life of the sliding contact pattern 165 can be extended, the contact feeling can be improved, and the parts are further divided. The contact stability can be improved by ensuring that at least one of the contact portions 17 and 18 is in sliding contact with the sliding contact pattern 165.

また上記摺動子10においては、その折り返し部13a,15aとアーム部13,15と接点部17,18を、回転つまみ100の摺動子取付面113の回転中心線に直交する仮想仕切り線L1(図1,図2参照)によって二分割される片側の領域内に収まるように構成しているので、少なくとも一対の摺動子10をコンパクトに回転つまみ100の摺動子取付面113に設置することができる。 Further, in the slider 10, the virtual partition line L1 at which the folded portions 13a, 15a, the arm portions 13, 15 and the contact portions 17, 18 are orthogonal to the rotation center line of the slider mounting surface 113 of the rotary knob 100. Since it is configured to fit within the area on one side divided into two by (see FIGS. 1 and 2), at least a pair of sliders 10 are compactly installed on the slider mounting surface 113 of the rotary knob 100. be able to.

一方、発光素子169を発光すれば、その光は図8に一点鎖線で示すように、導光体190内に導入される。導光体190内に導入された光の一部は、光反射面199で反射されることで前記光出射面197に向かい、その面から放出され、前記第4ケース300の照光部307をその裏面側から明るく照らし出す。一方、発光素子169から導光体190内に導入された光の一部は、光反射面199で反射されることで、前記光出射面195に向かい、その面から放出され、回転つまみ100の光入射面117からつまみ用導光部A1内に導入される。つまみ用導光部A1内に導入された光は、導光軸部A13内を進み、光反射面110等で反射されることで、導光本体部A11内を進み、操作部101の外周面に導かれ、操作部101を明るく照らし出す。 On the other hand, when the light emitting element 169 emits light, the light is introduced into the light guide body 190 as shown by the alternate long and short dash line in FIG. A part of the light introduced into the light guide body 190 is reflected by the light reflecting surface 199 toward the light emitting surface 197 and is emitted from the surface, and the illuminated portion 307 of the fourth case 300 is subjected to the light emitting portion 307. Brightly illuminate from the back side. On the other hand, a part of the light introduced into the light guide body 190 from the light emitting element 169 is reflected by the light reflecting surface 199 and directed toward the light emitting surface 195, and is emitted from the surface of the rotary knob 100. It is introduced from the light incident surface 117 into the knob light guide unit A1. The light introduced into the light guide unit A1 for the knob travels inside the light guide shaft portion A13 and is reflected by the light reflecting surface 110 or the like, so that it travels inside the light guide main body A11 and travels on the outer peripheral surface of the operation unit 101. Guided by, the operation unit 101 is illuminated brightly.

一方、この回転式電子部品1は、図示しない電子機器の操作パネルに装着され、その際、第4ケース300の化粧面303が、操作パネルの外部に露出する。そしてこの操作パネルの外部に露出した化粧面303に液体が降りかかることがある。降りかかった液体は、第4ケース300の開口305からその内部に浸入する。浸入した液体は、第4ケース300の内側面と、第1,第2ケース20,70の外側面との間の隙間から浸入しようとするが、その浸入は、パッキン250によって防止される。 On the other hand, the rotary electronic component 1 is attached to an operation panel of an electronic device (not shown), and at that time, the decorative surface 303 of the fourth case 300 is exposed to the outside of the operation panel. Then, the liquid may fall on the decorative surface 303 exposed to the outside of the operation panel. The falling liquid penetrates into the inside of the fourth case 300 through the opening 305. The infiltrated liquid tries to infiltrate through the gap between the inner surface of the fourth case 300 and the outer surface of the first and second cases 20, 70, but the infiltration is prevented by the packing 250.

以上本発明の実施形態を説明したが、本発明は上記実施形態に限定されるものではなく、特許請求の範囲、及び明細書と図面に記載された技術的思想の範囲内において種々の変形が可能である。なお直接明細書及び図面に記載がない何れの形状や構造や材質であっても、本願発明の作用・効果を奏する以上、本願発明の技術的思想の範囲内である。例えば、上記実施形態では、一対の摺動子10を回転つまみ100に取り付けたが、1つの摺動子10のみを取り付けても良い。またアーム部は、1本または3本以上であっても良い。 Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of claims and the technical ideas described in the specification and drawings. It is possible. It should be noted that any shape, structure or material not directly described in the specification or drawings is within the scope of the technical idea of the present invention as long as the action and effect of the present invention are exhibited. For example, in the above embodiment, the pair of sliders 10 are attached to the rotary knob 100, but only one slider 10 may be attached. Further, the number of arm portions may be one or three or more.

また、上記記載及び各図で示した実施形態は、その目的及び構成等に矛盾がない限り、互いの記載内容を組み合わせることが可能である。また、上記記載及び各図の記載内容は、その一部であっても、それぞれ独立した実施形態になり得るものであり、本発明の実施形態は上記記載及び各図を組み合わせた一つの実施形態に限定されるものではない。 In addition, the above description and the embodiments shown in each figure can be combined with each other as long as there is no contradiction in the purpose, configuration, and the like. Further, the above description and the description contents of each figure can be independent embodiments even if they are a part thereof, and the embodiment of the present invention is one embodiment in which the above description and each figure are combined. It is not limited to.

1 回転式電子部品
10 摺動子(回転式電子部品用摺動子)
11 基部
13,15 アーム部
13a,15a 折り返し部
13c,15c スリット
17,18 接点部
100 回転つまみ(回転体)
113 摺動子取付面
165 摺接パターン
L1 仮想仕切り線
1 Rotary electronic component 10 Slider (Slider for rotary electronic component)
11 Base 13, 15 Arm 13a, 15a Folded 13c, 15c Slit 17, 18 Contact 100 Rotating knob (rotating body)
113 Slider mounting surface 165 Sliding contact pattern L1 Virtual partition line

Claims (3)

回転体に取り付けられ、この回転体に対向して設置される摺接パターン上を摺動してその出力信号を変化させる回転式電子部品用摺動子において、
前記回転体の摺動子取付面に取り付けられる基部と、
両端が前記基部の外周の2か所に接続され、その途中に前記摺接パターンに当接する接点部を形成してなるアーム部と、
を有し、
前記アーム部の両端近傍部分を基部から折り返すことでアーム部を基部上に位置させ
さらに前記折り返し部とアーム部と接点部は、前記回転体の摺動子取付面の回転中心線に直交する仮想仕切り線によって二分割される片側の領域内に収まることを特徴とする回転式電子部品用摺動子。
In a slider for rotary electronic components, which is attached to a rotating body and slides on a sliding contact pattern installed facing the rotating body to change its output signal.
A base attached to the slider mounting surface of the rotating body and
An arm portion in which both ends are connected to two places on the outer circumference of the base portion and a contact portion that abuts on the sliding contact pattern is formed in the middle thereof.
Have,
The arm portion is positioned on the base portion by folding back the portions near both ends of the arm portion from the base portion .
Further, the folded portion and the arm portion and the contact portion is rotatable, wherein Rukoto fit in the one side in the region which is bisected by a virtual partition line which is perpendicular to the rotational center line of the slider mounting surface of the rotating body Slider for electronic parts.
回転体に取り付けられ、この回転体に対向して設置される摺接パターン上を摺動してその出力信号を変化させる回転式電子部品用摺動子において、
前記回転体の摺動子取付面に取り付けられる基部と、
両端が前記基部の外周の2か所に接続され、その途中に前記摺接パターンに当接する接点部を形成してなるアーム部と、
を有し、
前記アーム部の両端近傍部分を基部から折り返すことでアーム部を基部上に位置させ、
さらに前記基部の前記アーム部を接続した部分の両外側部分の外周辺を、前記回転体の摺動子取付面に設けた回転止め用突部外周の回転止め部に係止する回転止め部としたことを特徴とする回転式電子部品用摺動子。
In a slider for rotary electronic components, which is attached to a rotating body and slides on a sliding contact pattern installed facing the rotating body to change its output signal.
A base attached to the slider mounting surface of the rotating body and
An arm portion in which both ends are connected to two places on the outer circumference of the base portion and a contact portion that abuts on the sliding contact pattern is formed in the middle thereof.
Have,
The arm portion is positioned on the base portion by folding back the portions near both ends of the arm portion from the base portion.
Further, a rotation stop portion that locks the outer periphery of both outer portions of the portion of the base portion to which the arm portion is connected to the rotation stop portion on the outer periphery of the rotation stop protrusion provided on the slider mounting surface of the rotating body. A slider for rotary electronic components, which is characterized by the fact that it has been used.
請求項1又は2に記載の回転式電子部品用摺動子において、
前記アーム部には、一方の折り返し部近傍から接点部を分割して他方の折り返し部近傍に至るスリットが形成されていることを特徴とする回転式電子部品用摺動子。
In the slider for rotary electronic components according to claim 1 or 2.
A slider for a rotary electronic component, characterized in that a slit is formed in the arm portion by dividing a contact portion from the vicinity of one folded portion to the vicinity of the other folded portion.
JP2017234435A 2016-12-16 2017-12-06 Slider for rotary electronic components Active JP6916522B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2021113283A JP7187066B2 (en) 2016-12-16 2021-07-08 Sliders for rotary electronic parts

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2016244564 2016-12-16
JP2016244564 2016-12-16

Related Child Applications (1)

Application Number Title Priority Date Filing Date
JP2021113283A Division JP7187066B2 (en) 2016-12-16 2021-07-08 Sliders for rotary electronic parts

Publications (2)

Publication Number Publication Date
JP2018101619A JP2018101619A (en) 2018-06-28
JP6916522B2 true JP6916522B2 (en) 2021-08-11

Family

ID=62715621

Family Applications (2)

Application Number Title Priority Date Filing Date
JP2017234435A Active JP6916522B2 (en) 2016-12-16 2017-12-06 Slider for rotary electronic components
JP2021113283A Active JP7187066B2 (en) 2016-12-16 2021-07-08 Sliders for rotary electronic parts

Family Applications After (1)

Application Number Title Priority Date Filing Date
JP2021113283A Active JP7187066B2 (en) 2016-12-16 2021-07-08 Sliders for rotary electronic parts

Country Status (1)

Country Link
JP (2) JP6916522B2 (en)

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2004095242A (en) * 2002-08-30 2004-03-25 Tsubame Musen Kk Rotary encoder and manufacturing method for substrate of the same
CN201688854U (en) * 2010-05-31 2010-12-29 东莞市长泰尔电子有限公司 Encoder without stop gear
JP5463245B2 (en) * 2010-08-31 2014-04-09 帝国通信工業株式会社 Rotating electronic components
JP6054173B2 (en) * 2012-12-27 2016-12-27 帝国通信工業株式会社 Rotating knob

Also Published As

Publication number Publication date
JP2021166197A (en) 2021-10-14
JP7187066B2 (en) 2022-12-12
JP2018101619A (en) 2018-06-28

Similar Documents

Publication Publication Date Title
JP5912919B2 (en) Multimeter
JP7018680B2 (en) Light guide structure for electronic components
JP5628715B2 (en) Switch device
JP6916522B2 (en) Slider for rotary electronic components
JP6400434B2 (en) Electronic parts with illumination function
KR101900897B1 (en) Bearing structure for rotary control-type electronic component
JP6913319B2 (en) Drip-proof structure of electronic components
JP2002039788A (en) Rotary sensor
JP7013053B2 (en) Drip-proof structure of electronic parts
US6310535B2 (en) Rotary electric part superior in click feeling
JP5852668B2 (en) Bearing structure for rotary electronic components
JP4467423B2 (en) Multi-directional push switch
JP6084555B2 (en) Drip-proof structure of rotating electronic parts with illumination mechanism
JP7094050B2 (en) Terminal unit
WO2018021155A1 (en) Drip-proof structure of electronic component
JP7656906B2 (en) Light guiding structure for electronic components
JP5628659B2 (en) Rotating electronic components
JP6054173B2 (en) Rotating knob
JP2004103288A (en) Rotary operation type electric component
JP2008071589A (en) Multi-directional push switch
JP2017097989A (en) Drip-proof structure for rotary electronic component
JP2008159907A (en) Rotating electronic components
JP2009239220A (en) Slide type electronic component
JP2007287502A (en) Electronic components
JP2016219558A (en) Rotary electronic component

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20200305

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20201030

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20201201

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20210121

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: 20210629

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20210709

R150 Certificate of patent or registration of utility model

Ref document number: 6916522

Country of ref document: JP

Free format text: JAPANESE INTERMEDIATE CODE: R150

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250