JP2004128982A - Insertable and extractable antenna device - Google Patents

Insertable and extractable antenna device Download PDF

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Publication number
JP2004128982A
JP2004128982A JP2002291542A JP2002291542A JP2004128982A JP 2004128982 A JP2004128982 A JP 2004128982A JP 2002291542 A JP2002291542 A JP 2002291542A JP 2002291542 A JP2002291542 A JP 2002291542A JP 2004128982 A JP2004128982 A JP 2004128982A
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JP
Japan
Prior art keywords
antenna
bearing
intermediate bearing
pieces
fitting
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.)
Granted
Application number
JP2002291542A
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Japanese (ja)
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JP3789415B2 (en
Inventor
Keiichi Ogura
小倉 慶一
Hiroshi Fujikawa
藤川 浩
Masahiko Nakahama
中濱 昌彦
Yoichi Tanabe
田邊 葉一
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.)
NEC Platforms Ltd
SMK Corp
Original Assignee
SMK Corp
NEC Infrontia 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 SMK Corp, NEC Infrontia Corp filed Critical SMK Corp
Priority to JP2002291542A priority Critical patent/JP3789415B2/en
Priority to TW92117160A priority patent/TWI263372B/en
Priority to CNB031272118A priority patent/CN100438207C/en
Publication of JP2004128982A publication Critical patent/JP2004128982A/en
Application granted granted Critical
Publication of JP3789415B2 publication Critical patent/JP3789415B2/en
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Abstract

<P>PROBLEM TO BE SOLVED: To provide an insertable and extractable antenna device which uses an internal or external antenna depending on a radio wave status. <P>SOLUTION: This insertable and extractable antenna device is provided with the external antenna 11 which is freely insertable and extractable into/from electronic equipment 10 having a transmitting and/or receiving function and electrically connects an antenna main body to an antenna feeder circuit of the electronic equipment 10 through a connector device. The electronic equipment 10 has the external antenna 11 and the built-in internal antenna that is fixedly arranged. The connector device is provided with a change-over switch for switching the antenna feeder circuit from the internal antenna to the external antenna to be connected by connecting a plug 40 provided at the external antenna side to a receptacle 50 provided at the electronic equipment side. <P>COPYRIGHT: (C)2004,JPO

Description

【0001】
【発明の属する技術分野】
本発明は、主にPCカード型携帯通信装置等のアンテナを使用する電子機器に用いる着脱式アンテナ装置に関する。
【0002】
【従来の技術】
一般に、通信機能を備えた電子機器に備えるアンテナには、電子機器の回路基板に固定配置に設置した内部アンテナ形式のものと、電子機器の外部に突出し、伸縮や角度調整が可能なように設置した外部アンテナ形式のものがある。前者は電波状況が良い場所での使用に適し、後者は電波事情が良くない場所での使用に適している。
【0003】
また、従来PCカード型携帯通信装置や携帯電話等の通信装置には、電波を送受信するためのアンテナが設けられており(特許文献1を参照)、このアンテナとして、図13に示す如き外部アンテナを用いることによって、電波の送受信やアンテナの収納にとって最適なアンテナ位置を得ることができるようになっている(特許文献2を参照)。
【0004】
この外部アンテナ1は、アンテナ支持部材2に支持させた導電性の縦軸3と、縦軸3に対し、これを中心軸として回動自在に取り付けられた導電性の中間軸受金具4と、中間軸受金具4に縦軸3と直交配置に支持させた横軸5とからなるユニバーサルジョイントを備え、アンテナ支持部材2を携帯通信装置等の電子機器に保持させるとともに、中間軸受金具4に対し、横軸5を中心軸として回動自在にアンテナ本体6を取り付けることによって、アンテナ本体6が電波の送受信等に合わせて向きを変えることができるようになっている。
【0005】
しかし、これらのユニバーサルジョイントを構成する中間軸受金具4等の部品は強度や各部品との電気的接続を鑑みて導電性の金属部材により形成され、中間軸受金具4とアンテナ本体6との連結部分は、金属が剥き出しになった状態になっており、そこに静電気が帯電された人体等より静電気が放電されると、この外部アンテナ1に導通した電子機器回路等が破壊されるおそれがある。
【0006】
そこで、例えば、図14に示すように、アンテナの金属部が剥き出しになった部分を蛇腹等の絶縁材からなる被覆材7によって覆う等して静電気対策を施している。
【0007】
【特許文献1】
特開2001−339211号公報(図4)
【0008】
【特許文献2】
特開平08−265025号公報(第0002段落〜第0009段落、図10、図11)
【0009】
【発明が解決しようとする課題】
上述したPCカード型等の携帯通信装置では、外部アンテナ形式とすると形状が大きくなり持ち運びに不便である。しかし、内部アンテナ形式のみでは、使用する場所によっては感度が低く、外部アンテナ形式が好ましい場合が多々生じる。
【0010】
また、外部アンテナ形式のアンテナを絶縁被覆するための上述した従来の方法は、外部に露出した金属部分を蛇腹等の絶縁性の被覆材によって覆うことにより、アンテナ全体が嵩張ってしまうのでアンテナ及びアンテナを装着する電子機器の小型化が阻害されるという問題があり、また、アンテナ及びアンテナを装着する電子機器の見映えも悪くなるという問題があった。
【0011】
本発明は、このような従来の技術の状況を鑑み、電波状況に合わせて内部又は外部のアンテナを使用できる着脱式アンテナ装置の提供、及び、アンテナに完全な静電気対策を施すことができ、小型化が可能で見映えも良好となる着脱式アンテナ装置の提供を目的としてなされたものである。
【0012】
【課題を解決するための手段】
上述の如き従来の問題を解決し、所期の目的を達成するための請求項1の発明は、送信及び/又は受信機能を有する電子機器に対して着脱自在となし、該電子機器のアンテナ給電回路に対してアンテナ本体をコネクタ装置を介して電気接続させる外部アンテナを備えてなる着脱式アンテナ装置を特徴とする。
【0013】
このように構成することによって、必要な時に外部アンテナの着脱が可能となる。
【0014】
請求項2の発明は、請求項1に記載の構成に加え、電子機器には、該電子機器と固定配置に内蔵された内部アンテナを有し、コネクタ装置には、前記電子機器側に備えたレセプタクルに対して外部アンテナ側に備えたプラグを結合させることによって、アンテナ給電回路が前記内部アンテナから外部アンテナのアンテナ本体に切り換え接続される切り換えスイッチを備え、前記アンテナ給電回路に内部アンテナを常時接続状態としておき、前記プラグの挿し込みによってアンテナ給電回路に対する内部アンテナの接続をOFFとするとともに前記外部アンテナの接続をONとするようにしたことにある。
【0015】
このように構成することによって、電波事情に合わせて外部アンテナと内部アンテナとを使い分けることができ、特に、電波事情の悪い場所で外部アンテナの取り付けが適宜可能となり、機能性が向上する。
【0016】
請求項3の発明は、請求項1又は2に記載の構成に加え、外部アンテナにはその基端部に、絶縁材からなるアンテナ支持部材を備え、該アンテナ支持部材にコネクタ装置のプラグを支持させ、かつ電子機器側には、前記アンテナ支持部材を嵌合して支持する嵌合凹部を備え、前記コネクタ装置の嵌合と、前記嵌合凹部に対するアンテナ支持部材の嵌合によって外部アンテナを前記電子機器に対して支持させるようにしたことを特徴とする。
【0017】
このように構成することによって、電子機器に対する外部アンテナの取り付けがより強固になり、特に小型の電子機器であっても嵩張らせずに強度の高い着脱構造が得られる。
【0018】
請求項4の発明は、請求項3に記載の構成に加え、嵌合凹部内面には、該嵌合凹部内に嵌合されるアンテナ支持部材の側面を押圧する係止突起が突出方向に付勢されて備えられ、前記アンテナ支持部材の側面には前記係止突起が嵌り合う係合凹部を備えたことを特徴とする。
【0019】
このように構成することによって脱落防止効果が高くなる。
【0020】
請求項5の発明は、請求項1〜3又は4に記載の構成に加え、アンテナ支持部材に対して固定され、コネクタ装置のプラグが導通された導電性の縦軸と、該縦軸に対し、これを中心軸として回動自在に取り付けられた導電性の中間軸受金具と、該中間軸受金具に前記縦軸と直交配置に支持させた横軸とからなるユニバーサルジョイントを備え、前記中間軸受金具に対し、前記横軸を中心軸として回動自在にアンテナ本体を取り付け、前記縦軸とアンテナ本体とを前記ユニバーサルジョイントを介して導通させ、前記中間軸受金具は、平板状の回動基盤部と、該回動基盤部の両縁をそれぞれ同じ側に立ち上がらせた一対の横軸支持片部とを一体に有する断面U字形に形成され、該中間軸受金具の回動基盤部を前記縦軸の先端に回動自在に支持させるとともに、前記両横軸支持片部に前記横軸を貫通させて支持させ、前記中間軸受金具の両横軸支持片部間に絶縁材からなる中間軸受金具用の絶縁駒を挿入し、該絶縁駒により中間軸受金具の底面及び両横軸支持片部の対向面の背面側を除く部分を覆わせ、前記アンテナ本体には基端部側に一対の平行な軸受片部を一体に備え、該軸受片部を前記中間軸受金具の両横軸支持片部の対向面の背面側に接触させて前記横軸を中心軸にして回動自在に支持させ、該アンテナ本体の外側に、絶縁材を持って成形され、一端側が開放した有底筒状の絶縁鞘部材を被せ、該絶縁鞘部材の開放端側に一対の絶縁軸受片部を備え、該絶縁軸受片部を前記横軸により中間軸受金具に枢着させ、該絶縁軸受片部により前記アンテナ本体軸受片部の両軸受片対向面の背面側及び前記中間軸受金具横軸支持片部の両対向面の背面側を覆わせたことを特徴とする。
【0021】
このように構成することによって、外部に金属部分を露出させることがなく、好適に静電対策がなされ、アンテナの小型化が可能となり、見映えもよい。
【0022】
請求項6の発明は、請求項5に記載の構成に加え、縦軸の先端をアンテナ支持部材の平らな表面に突出させて固定し、該縦軸の先端にフランジ状の抜け止め頭部を形成するとともに、前記中間軸受金具の回動基盤部に、その一辺側から中央部分にかけてU字形の凹陥部を形成し、該凹陥部を前記縦軸の頭部下に嵌合させ、かつ前記絶縁駒によって前記凹陥部に嵌合された縦軸を抜け止めさせたことを特徴とする。
【0023】
このように構成することによって、縦軸に対する中間軸受金具の取り付けが容易となり、組み立てを容易に行うことができるとともに、絶縁材を兼ねることとなる部品の数が少なくなる。
【0024】
請求項7の発明は、請求項5又は6に記載の構成に加え、アンテナ本体の基端部側に一体に設けた両軸受片部に導電性のバネ材を使用し、該両軸受片によって前記中間軸受金具の両横軸支持片部外面側を弾性的に挟持させることにより導電接触圧及び回動摩擦抵抗を持たせたことにある。
このように構成することにより、中間軸受金具に対してアンテナ本体を回動させた際に、アンテナ本体を任意の位置で回動を止めることができ、アンテナ本体を中間軸受金具に対して好適に電気的接続することこができる。
【0025】
【発明の実施の形態】
次に、本発明に係る外部アンテナの実施の形態を図について説明する。
【0026】
図1は着脱式アンテナ装置の使用状態の一例を示し、符号10は本発明を実施した電子機器であり、更に具体的にはPCカード型携帯通信装置である。11は該電子機器10に着脱できるようにした可動式の外部アンテナである。
【0027】
外部アンテナ11は、長方体の駒状をした絶縁材製のアンテナ支持部材12に支持されている。このアンテナ支持部材12には、外部アンテナ支持面の反対側面に電子機器10と電気接続させるためのコネクタ装置を構成するプラグ40が固定されている。このプラグ40は導電材料からなるアース用外筒41とその内側に設けた円筒に縦向きのスリ割を形成した形状の円筒型挟持バネ42とを有し、それらの中心部分にプラグピン43が突設されている。
【0028】
このプラグピン43は、後述する外部アンテナの縦軸13に一体成形されている。
【0029】
電子機器10には、コネクタ装置を構成するレセプタクル50が備えられている。このレセプタクル50は、図2、図3示すように回路基板51に固定され、そのモールドケース52の前端に前述した円筒型挟持バネ42の内側に嵌合されるアーススリーブ53が突設されている。その中心部にプラグピン43が挿入されるピン挿入孔54が開口され、その内部に、挿入される前記プラグピン43と接触するバネ製接触片(図示せず)が備えられているとともに、図示しないが、プラグの挿入によって動作されるスイッチ機構が内蔵されている。
【0030】
このスイッチ機構は、回路基板に備えた内部アンテナ55と外部アンテナ11とを、アンテナ給電回路56に対して切り換え接続させるようにしているものであり、図4のスイッチ回路図に示すように、コモン端子aに導通したバネ製接触片bがあり、これに内部アンテナ55に接続されたノーマルクローズ端子cに導通したスイッチ片dが常時接触状態にあり、プラグピン43の挿入によりがバネ製接触片bがスイッチ片dから離反されるように動作され、これによってコモン端子aに対する接続が切り換わるようになっている。尚、図中符号eはアース端子である。
【0031】
また、電子機器10には、前述したアンテナ支持部材12が嵌合されてこれを支持する嵌合凹部60が形成されており、その嵌合凹部の内面には係合突起61が突出方向に付勢されて備えられている。この係合突起61は図1、図2に示すようにモールド成形されたバネ片62の先端に一体成形されている。
【0032】
一方、アンテナ支持部材12側面には係合突起61が係合される係合凹部63が形成され、電子機器10の嵌合凹部60内にアンテナ支持部材12を挿入することによって、前述したコネクタ装置が互いに嵌合されると同時に、係合突起61が係合凹部63内に嵌り合い、アンテナ支持部材12の抜け出し方向の力に対向する抵抗力が与えられるようになっている。このようにして、外部アンテナ11アンテナ支持部材12の嵌合凹部60に対する嵌合及びコネクタ装置の嵌合により電子機器10に対して支持されるようになっている。
【0033】
外部アンテナ11は、前述したプラグピン43が一体成形され、アンテナ支持部材12に貫通させて支持させた導電性の縦軸13と、縦軸13に対し、これを中心軸として回動自在に取り付けられた導電性の中間軸受金具14と、中間軸受金具14に縦軸13と直交配置に支持させた横軸15とからなるユニバーサルジョイントを備え、アンテナ支持部材12を携帯通信装置等の電子機器10に保持させるとともに、中間軸受金具14に対し、横軸15を中心軸として回動自在にアンテナ本体16を取り付けることによって、電波の送受信やアンテナの収納等にとって最適なアンテナ位置を得ることができるようになっている。
【0034】
ユニバーサルジョイントを構成する横軸15は、絶縁材により形成され、図7に示すように、一端側にフランジ状の頭部17を備え、他端側に先端側を細くしたテーパ部18とテーパ部の基端側に抜け止め用の段部19が形成されている。
【0035】
中間軸受金具14は、図8に示すように、導電性を有する金属部材によって形成された平板状の回動基盤部20と、回動基盤部20の両側縁より同じ側に立ち上がらせた横軸支持片部21,21とを一体に有する断面U字状に形成されている。
【0036】
この中間軸受金具14の両横軸支持片部21,21間には、絶縁駒22が挿入され、これによって、回動基盤部20の底面及び両横軸支持片部21,21の外側面(両横軸支持片部の対向面の背側面)を除く部分が覆われている。
【0037】
回動基盤部20には、中心の円孔を一方の側縁に向かって延長した形状、即ち一側縁より中央部分にかけてのU字形に形成された凹陥部23が設けられ、この凹陥部23にアンテナ支持部材12より突出した導電性の縦軸13が嵌り込むことによって、回動基盤部20をアンテナ支持部材12に対して回転自在且つ抜け止め不能に支持させるようになっている。
【0038】
両横軸支持片部21,21には、ユニバーサルジョイントを構成する横軸15が挿通される横軸挿通孔24が形成されている。
【0039】
絶縁駒22は、絶縁材により形成され、円盤の外周面の一部を切り欠いて底面を形成した形状になっている。
【0040】
この円盤状の中心部分に横軸15が挿通される挿入孔26が貫通開口されている。
【0041】
この絶縁駒22の両側面には、中間軸受金具14の横軸支持片部21,21が嵌合される支持片部嵌合用の凹部25,25が形成され、絶縁駒22の底面には、縦軸13の先端部分が挿入される抜け止め用穴22aが形成されている。
【0042】
この中間軸受金具14は、図9に示すように、絶縁駒22を中間軸受金具14の両横軸支持片部21,21間に挿入すると、該両横軸支持片部21,21が凹部25,25に嵌り込み、回動基盤部20の下面及び各横軸支持片部21,21の外側面(対向面の背側面)を除いた部分が絶縁駒22によって覆われるようになっている。
【0043】
また、絶縁駒22を中間軸受金具14の両横軸支持片部21,21間に挿入すると、回動基盤部縁部が覆われるとともに、縦軸13の先端部分が抜け止め用穴22aに挿入され、縦軸13に対する回転基盤部20の回転半径方向の動きが規制され、抜け止めがなされるようになっている。
【0044】
この絶縁駒22を、中間軸受金具14の両横軸支持片部21,21間に挿入させた状態で、横軸15を横軸支持片部21、絶縁駒22、横軸支持片部21に貫いて挿通させることによって中間軸受金具14に対して縦軸軸心方向の抜け止めがなされるようになっている。
【0045】
アンテナ本体16は、図11に示すように、薄長板状の本体部27と、本体部27の端部両側縁に突設された互いに対向する一対の平行な軸受片部28,28とを導電性のバネ材により一体に形成し、この各軸受片部28,28の突端部間を狭めて形成することにより、両軸受片部28,28に中間軸受金具14の両横軸支持片部21,21の外側面を弾性的に挟持することができるようになっている。また、この軸受片部28には、横軸15が挿通される挿通孔29が形成されている。
【0046】
また、アンテナ本体16は、両軸受片部28,28に中間軸受金具14の両横軸支持片部21,21の外側面を弾性的に挟持させた状態で中間軸受金具14に横軸15を回転中心にして回動自在に支持させることによって、中間軸受金具14に対して電気的に接続されるとともに、軸受片部28が横軸支持片部21の外側面に対して好適な導電接触圧と、回動摩擦抵抗を得るようになっており、これによりユニバーサルジョイントを介して縦軸13に導通されるようになっている。
【0047】
このアンテナ本体16の外側には、図10に示すように、絶縁材からなる一端側が開放した有底筒状の絶縁鞘部材30を被せ、アンテナ本体16が外部に露出しないようにしている。
【0048】
この絶縁鞘部材30の基端部には、互いに対向する一対の絶縁軸受片部31,31が形成され、この絶縁軸受片部31,31の中央部には横軸が枢支される横軸貫通孔32,32が形成され、この横軸貫通孔32には、横軸15の頭部17が互いに嵌り合う拡径部33及び抜け止め用の段部34がそれぞれ形成されている。
【0049】
尚、アンテナ本体16に絶縁鞘部材30を被せると、絶縁軸受片部31,31の対向面側にアンテナ本体16の軸受片部28,28が絶縁軸受片部31の対向面に沿うように配置されるようになっている。
【0050】
縦軸13は、先端にフランジ状の抜け止め頭部36が形成されており、この抜け止め頭部36は、縦軸13のアンテナ支持部材からの突出部分の根元部に、回動基盤部20の凹陥部23の幅(即ち中心の円孔部の直径)と円環の直径が略同径の環状凹溝37を形成することにより形成されている。
【0051】
この環状凹溝37に凹陥部23を嵌め込むことによって、回動基盤部の凹陥部23周縁が抜け止め頭部36下に当接し、回動基盤部20を縦軸13に対して、回転自在且つ軸心方向で抜け止め不能にすることができ、且つ電気的にも接続されるようになっている。
【0052】
また、この抜け止め頭部36は、縦軸13、中間軸受金具14及び絶縁駒22を組み込んだ際に、絶縁駒22の底面に形成された抜け止め用穴22aに挿入され、縦軸13に対する回転基盤部20の縦軸回転半径方向の抜け止めがなされるようになっている。
【0053】
尚、図中符号38は、弾性材からなるOリングであり、このOリング38によって中間軸受金具14のアンテナ支持部材12に対する回転動作に抵抗を持たせ、任意の位置で回転を止めることができるようになっている。
【0054】
この外部アンテナ11では、回動基盤部の底面が、縦軸13が突設されたアンテナ支持部材12の平な表面12aによって覆われるようになっており、アンテナ本体16を覆う絶縁鞘部材30の絶縁軸受片部31,31によりアンテナ本体軸受片部28,28の両外面側(両軸受片対向面の背面側)及び中間軸受金具横軸支持片部21,21の両外面側(両対向面の背面側)を覆わせるようになっている。
【0055】
即ち、重なり合って互いに導通されたアンテナ本体軸受け片部28と中間軸受金具横軸支持片部21とを金属部が外部に露出しないように絶縁鞘部材30の絶縁軸受片部31によって覆うようになっている。
【0056】
従って、この外部アンテナ11では、外部に露出した金属部分がなく、静電対策が成されるようになっている。
【0057】
尚、上述の実施例では、外部アンテナをPCカード型の携帯通信装置に適応させた例について説明したが、その他、携帯電話機等の携帯通信装置をはじめ、アンテナを使用する全ての電子機器について適応させることができる。
【0058】
【発明の効果】
上述のように、本発明に係る着脱式アンテナ装置は、コネクタ装置を介して外部アンテナを着脱自在としているため、単に挿抜するだけで着脱できるようになり、操作が簡単にでき、必要に応じて着脱が可能であるため、これを使用する電子機器に外部アンテナ用のスペースを要せず、電子機器の小型化ができる。
【0059】
また、コネクタ装置に切り換えスイッチ機構を有するものを使用し、外部アンテナの装着によって、給電回路が内部アンテナから外部アンテナに切り換わるようにしたことにより、必要に応じて内部アンテナと外部アンテナを切り換え使用できることとなり、広範囲の電波事情に対応した送信及び受信が可能となる。
【0060】
更に、電子機器に対する支持を、給電のためのコネクタ装置による結合の他、アンテナ支持部材と電子機器側の嵌合凹部との嵌合によって受け持たせるようにしたことによって、厚さが5mm以下程度の薄型の電子機器に対する着脱も装置を損傷させることなく安全に行うことができる。
【0061】
更に、外部アンテナは、回動基盤部の底面がアンテナ支持部材の平らな表面によって覆われ、横軸支持片部の外側面及びアンテナ本体の軸受片部とが、互いに接触した状態で絶縁鞘部材の絶縁軸受片部によって覆われるので、外部に金属部分を露出させることがなく、見映えが良く、完全な静電対策がなされ、アンテナの小型化も可能となる。
【0062】
また、縦軸先端にフランジ状の抜け止め頭部を形成するとともに、前記中間軸受金具の回動基盤部に、その一辺側から中央部分にかけてU字形の凹陥部を形成し、該凹陥部を前記縦軸の頭部下に嵌合させ、かつ前記絶縁駒によって前記凹陥部に嵌合された縦軸を抜け止めさせることによって、縦軸に対する中間軸受金具の取り付けが容易となり、組み立てを容易に行うことができるとともに、絶縁材を兼ねることとなる部品の数が少なくなる。
【0063】
更に、縦軸先端の頭部が、アンテナ支持部材からの突出部分の根元部に環状凹溝を形成することによって設けることによって、回転基盤部を好適に縦軸に支持させることができ、回動基盤部を抜け止めする為の部品を他に必要としないので小型化が可能となる。
【0064】
アンテナ本体の基端部側に一体に設けた両軸受片部に導電性のバネ材を使用し、該両軸受片によって前記中間軸受金具の両横軸支持片部外面側を弾性的に挟持させることにより、中間軸受金具に対してアンテナ本体を回動させた際に、アンテナ本体を任意の位置で回動を止めることができ、アンテナ本体を中間軸受金具に対して好適に電気的接続することができる。
【0065】
横軸は絶縁材により形成され、一端側にフランジ状の頭部を有するとともに、他端側に先端側を細くしたテーパ部と該テーパ部の基端側に抜け止め用段部を形成し、前記絶縁鞘部材の各絶縁軸受片部の横軸貫通孔に、前記横軸の頭部が嵌り合う拡径部及び抜け止め用係止段部を備えることにより、外部に金属部を露出させることなく中間軸受金具にアンテナ本体を好適に枢支させることができる。
【図面の簡単な説明】
【図1】本発明に係る外部アンテナを利用した携帯型通信装置を示す斜視図である。
【図2】(a)は同上の電子機器側の外部アンテナ取り付け部を示す部分縦断面図、(b)は同部分横断面図である。
【図3】(a)は同上のレセプタクル部分の正面図、(b)は同側面図である。
【図4】同上の回路図である。
【図5】(a)は図1中の外部アンテナを示す平面図、(b)は同側面図である。
【図6】図5中のA−A線断面図である。
【図7】図6中の横軸を示す平面図である。
【図8】図6中のユニバーサルジョイントを示す分解斜視図である。
【図9】(a)は中間軸受金具に絶縁駒を挿入した状態を示す側面図、(b)は同縦断面図である。
【図10】図1中のアンテナ本体の被覆状態を示す横断面図である。
【図11】(a)は同上のアンテナ本体を示す平面図、(b)は同側面図である。
【図12】図1中のアンテナ支持部材を示す正面図である。
【図13】(a)は従来の外部アンテナの一例を示す側面図、(b)は同正面図である。
【図14】同上の外部アンテナに静電対策を施した状態を示す斜視図である。
【符号の説明】
a コモン端子
b バネ製接触片
c ノーマルクローズ端子
d スイッチ片
e アース端子
10 電子機器(携帯通信装置)
11 外部アンテナ
12 アンテナ支持部材
13 縦軸
14 中間軸受金具
15 横軸
16 アンテナ本体
17 頭部
18 テーパ部
19 段部
20 回動基盤部
21 横軸支持片部
22 絶縁駒
22a 抜け止め用穴
23 凹陥部
24 横軸挿通孔
25 凹部
26 挿通孔
27 本体部
28 軸受片部
29 挿通孔
30 絶縁鞘部材
31 絶縁軸受片部
32 横軸貫通孔
33 拡径部
34 段部
35 接続用部材
36 抜け止め頭部
37 環状凹溝
38 Oリング
40 プラグ
41 アース用外筒
42 円筒型挟持バネ
43 プラグピン
50 レセプタクル
51 回路基板
52 モールドケース
53 アーススリーブ
54 ピン挿入孔
55 内部アンテナ
56 アンテナ給電回路
60 嵌合凹部
61 係合突起
62 バネ片
63 係合凹部[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a detachable antenna device mainly used for an electronic device using an antenna such as a PC card type portable communication device.
[0002]
[Prior art]
Generally, antennas for electronic devices equipped with a communication function include an internal antenna type that is fixedly arranged on the circuit board of the electronic device, and an antenna that projects outside the electronic device and can be expanded, contracted, and adjusted in angle. There is an external antenna type. The former is suitable for use in a place where the radio wave condition is good, and the latter is suitable for use in a place where the radio wave condition is not good.
[0003]
Conventionally, a communication device such as a PC card type mobile communication device or a mobile phone is provided with an antenna for transmitting and receiving radio waves (see Patent Document 1). As this antenna, an external antenna as shown in FIG. By using the antenna, it is possible to obtain an optimum antenna position for transmitting and receiving radio waves and storing the antenna (see Patent Document 2).
[0004]
The external antenna 1 includes a conductive longitudinal axis 3 supported by an antenna supporting member 2, a conductive intermediate bearing 4 which is rotatably mounted on the longitudinal axis 3 about the longitudinal axis 3, and an intermediate part. The bearing bracket 4 is provided with a universal joint composed of a vertical axis 3 and a horizontal axis 5 supported in an orthogonal arrangement. The antenna support member 2 is held by an electronic device such as a portable communication device. By attaching the antenna main body 6 so as to be rotatable about the shaft 5, the direction of the antenna main body 6 can be changed in accordance with transmission and reception of radio waves.
[0005]
However, the parts such as the intermediate bearing 4 constituting the universal joint are formed of a conductive metal member in consideration of the strength and the electrical connection with each part, and the connecting portion between the intermediate bearing 4 and the antenna body 6 is formed. The metal is exposed, and if static electricity is discharged from a human body or the like charged with static electricity there, there is a possibility that an electronic device circuit or the like that is conducted to the external antenna 1 may be destroyed.
[0006]
Therefore, for example, as shown in FIG. 14, the exposed metal portion of the antenna is covered with a covering material 7 made of an insulating material such as a bellows to take measures against static electricity.
[0007]
[Patent Document 1]
JP 2001-339211 A (FIG. 4)
[0008]
[Patent Document 2]
JP-A-08-265025 (paragraphs 0002 to 0009, FIGS. 10 and 11)
[0009]
[Problems to be solved by the invention]
In the case of the portable communication device such as the PC card type described above, the external antenna type has a large shape and is inconvenient to carry. However, the sensitivity of the internal antenna type alone is low depending on the place of use, and the external antenna type is often preferred.
[0010]
In addition, in the above-described conventional method for insulatingly covering an external antenna type antenna, since the metal portion exposed to the outside is covered with an insulating covering material such as a bellows, the entire antenna becomes bulky. There is a problem that the miniaturization of the electronic device to which the antenna is mounted is hindered, and that the appearance of the antenna and the electronic device to which the antenna is mounted deteriorates.
[0011]
The present invention has been made in view of such a situation of the related art, and provides a detachable antenna device that can use an internal or external antenna according to a radio wave condition, and can provide a complete countermeasure against static electricity to the antenna, and is compact. It is an object of the present invention to provide a detachable antenna device that can be formed and has a good appearance.
[0012]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION In order to solve the conventional problems as described above and achieve the intended object, the invention according to claim 1 is designed to be detachable from an electronic device having a transmission and / or reception function and to feed an antenna of the electronic device. A detachable antenna device having an external antenna for electrically connecting an antenna body to a circuit via a connector device is characterized.
[0013]
With this configuration, the external antenna can be attached and detached when necessary.
[0014]
According to a second aspect of the present invention, in addition to the configuration of the first aspect, the electronic device has an internal antenna built in a fixed arrangement with the electronic device, and the connector device is provided on the side of the electronic device. By connecting a plug provided on the external antenna side to the receptacle, the antenna feed circuit is provided with a changeover switch for switching from the internal antenna to the antenna main body of the external antenna, and the internal antenna is always connected to the antenna feed circuit In this state, the connection of the internal antenna to the antenna feed circuit is turned off and the connection of the external antenna is turned on by inserting the plug.
[0015]
With such a configuration, the external antenna and the internal antenna can be selectively used in accordance with the radio wave situation. In particular, the external antenna can be appropriately mounted in a place where the radio wave situation is poor, and the functionality is improved.
[0016]
According to a third aspect of the present invention, in addition to the configuration of the first or second aspect, the external antenna includes an antenna support member made of an insulating material at a base end thereof, and supports the plug of the connector device on the antenna support member. And the electronic device side has a fitting recess for fitting and supporting the antenna support member, and fitting the connector device and fitting the antenna support member to the fitting recess to form the external antenna. The electronic device is characterized by being supported.
[0017]
With such a configuration, the attachment of the external antenna to the electronic device is further strengthened. In particular, even in the case of a small electronic device, a detachable structure with high strength can be obtained without being bulky.
[0018]
According to a fourth aspect of the present invention, in addition to the configuration of the third aspect, a locking projection for pressing a side surface of the antenna support member fitted in the fitting recess is provided on an inner surface of the fitting recess in a protruding direction. The antenna support member is provided with an engagement concave portion on the side surface of the antenna support member, in which the locking projection is fitted.
[0019]
With this configuration, the effect of preventing falling off is enhanced.
[0020]
According to a fifth aspect of the present invention, in addition to the configuration of the first to third or fourth aspects, a conductive longitudinal axis fixed to the antenna support member and in which the plug of the connector device is electrically connected, and A universal joint consisting of a conductive intermediate bearing mounted rotatably around the central axis and a horizontal axis supported on the intermediate bearing in a direction perpendicular to the longitudinal axis, the intermediate bearing comprising: On the other hand, the antenna main body is rotatably mounted around the horizontal axis as a center axis, and the vertical axis and the antenna main body are electrically connected via the universal joint. The rotating base portion is formed in a U-shaped cross section integrally having a pair of horizontal shaft supporting pieces having both edges rising on the same side, and the rotating base portion of the intermediate bearing is formed by the vertical axis. Rotatably supported at the tip In addition, the horizontal shaft is penetrated and supported by the two horizontal shaft support pieces, and an insulating piece for an intermediate bearing fitting made of an insulating material is inserted between the two horizontal shaft support pieces of the intermediate bearing fitting. An insulating piece covers the bottom surface of the intermediate bearing bracket and a portion excluding the rear surface of the opposing surfaces of the two horizontal shaft support pieces, and the antenna body integrally includes a pair of parallel bearing pieces at a base end side, The bearing piece is brought into contact with the rear side of the opposing surfaces of the two horizontal shaft supporting pieces of the intermediate bearing so as to be rotatably supported around the horizontal axis, and an insulating material is provided outside the antenna body. A cylindrical insulating sheath member having a bottom and an open end is provided, and a pair of insulating bearing pieces are provided on the open end side of the insulating sheath member. The antenna body is pivotally attached to a bearing, and the insulating bearing piece is used to face both bearing pieces of the antenna body bearing piece. Characterized in that was covered the back side of the back side and two facing surfaces of the intermediate bearing bracket horizontal shaft supporting piece.
[0021]
With this configuration, it is possible to appropriately take measures against static electricity without exposing a metal part to the outside, to reduce the size of the antenna, and to improve the appearance.
[0022]
According to a sixth aspect of the present invention, in addition to the configuration of the fifth aspect, the tip of the vertical axis is projected and fixed to the flat surface of the antenna support member, and a flange-shaped retaining head is provided at the tip of the vertical axis. And forming a U-shaped recess in the rotation base portion of the intermediate bearing from one side to a central portion thereof, fitting the recess below the head of the vertical axis, and The longitudinal axis fitted in the recessed portion is prevented from falling off by a piece.
[0023]
With this configuration, it is easy to attach the intermediate bearing to the vertical axis, and it is easy to assemble, and the number of parts that also serve as the insulating material is reduced.
[0024]
According to a seventh aspect of the present invention, in addition to the configuration of the fifth or sixth aspect, a conductive spring material is used for the two bearing pieces integrally provided on the base end side of the antenna main body, and the two bearing pieces are used. According to another aspect of the present invention, a conductive contact pressure and a rotational friction resistance are provided by elastically sandwiching the outer surfaces of both the horizontal shaft support pieces of the intermediate bearing.
With this configuration, when the antenna main body is rotated with respect to the intermediate bearing, the rotation of the antenna main body can be stopped at an arbitrary position. It can be electrically connected.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of an external antenna according to the present invention will be described with reference to the drawings.
[0026]
FIG. 1 shows an example of a use state of a detachable antenna device. Reference numeral 10 denotes an electronic device embodying the present invention, and more specifically, a PC card type portable communication device. Reference numeral 11 denotes a movable external antenna which can be attached to and detached from the electronic device 10.
[0027]
The external antenna 11 is supported by an antenna support member 12 made of an insulating material in the shape of a rectangular parallelepiped. A plug 40 that constitutes a connector device for making an electrical connection with the electronic device 10 is fixed to the antenna support member 12 on the side opposite to the external antenna support surface. The plug 40 has a grounding outer cylinder 41 made of a conductive material and a cylindrical holding spring 42 having a shape in which a vertical slot is formed in a cylinder provided inside the outer cylinder 41, and a plug pin 43 projects from the center of the spring. Is established.
[0028]
The plug pin 43 is formed integrally with a longitudinal axis 13 of an external antenna described later.
[0029]
The electronic device 10 includes a receptacle 50 constituting a connector device. The receptacle 50 is fixed to a circuit board 51 as shown in FIGS. 2 and 3, and a ground sleeve 53 fitted inside the cylindrical holding spring 42 protrudes from the front end of a molded case 52. . A pin insertion hole 54 into which the plug pin 43 is inserted is opened at the center thereof, and a spring contact piece (not shown) that comes into contact with the plug pin 43 to be inserted is provided therein. And a switch mechanism operated by insertion of a plug.
[0030]
This switch mechanism is configured to switch and connect the internal antenna 55 and the external antenna 11 provided on the circuit board to the antenna feed circuit 56, as shown in the switch circuit diagram of FIG. There is a spring contact piece b conducted to the terminal a, and a switch piece d conducted to the normally closed terminal c connected to the internal antenna 55 is always in contact with the contact piece b. Are operated so as to be separated from the switch piece d, whereby the connection to the common terminal a is switched. In addition, the code | symbol e in a figure is a ground terminal.
[0031]
The electronic device 10 also has a fitting recess 60 into which the above-described antenna support member 12 is fitted and supports the antenna supporting member 12, and an engagement protrusion 61 is provided on the inner surface of the fitting recess in the protruding direction. It is provided with force. As shown in FIGS. 1 and 2, the engaging projection 61 is formed integrally with the tip of a molded spring piece 62.
[0032]
On the other hand, an engagement recess 63 in which the engagement protrusion 61 is engaged is formed on a side surface of the antenna support member 12, and the connector device described above is inserted by inserting the antenna support member 12 into the engagement recess 60 of the electronic device 10. Are fitted to each other at the same time as the engagement protrusions 61 are fitted into the engagement recesses 63, so that a resistance force against the force of the antenna support member 12 in the exit direction is applied. In this way, the external antenna 11 is supported by the electronic device 10 by the fitting of the antenna support member 12 to the fitting recess 60 and the fitting of the connector device.
[0033]
The external antenna 11 is integrally formed with the plug pin 43 described above, and is attached to the conductive vertical axis 13 that is supported by being penetrated by the antenna support member 12. The external vertical axis 13 is rotatably attached to the vertical axis 13. A universal joint comprising a conductive intermediate bearing 14 and a horizontal axis 15 supported on the intermediate bearing 14 in a direction perpendicular to the longitudinal axis 13, and the antenna supporting member 12 is attached to the electronic device 10 such as a portable communication device. By holding the antenna body 16 so as to be rotatable about the horizontal axis 15 as a center axis with respect to the intermediate bearing 14, it is possible to obtain an optimum antenna position for transmitting and receiving radio waves, storing the antenna, and the like. Has become.
[0034]
The horizontal shaft 15 constituting the universal joint is formed of an insulating material, and as shown in FIG. 7, has a flange-shaped head 17 at one end and a tapered portion 18 having a tapered end at the other end. A step portion 19 for retaining is formed on the base end side of the base plate.
[0035]
As shown in FIG. 8, the intermediate bearing 14 has a flat rotating base 20 formed of a conductive metal member, and a horizontal axis that rises to the same side from both side edges of the rotating base 20. It is formed in a U-shaped cross section having the support pieces 21 and 21 integrally.
[0036]
An insulating piece 22 is inserted between the two horizontal shaft support pieces 21 and 21 of the intermediate bearing 14, whereby the bottom surface of the rotating base 20 and the outer surfaces of the two horizontal shaft support pieces 21 and 21 ( Except for the opposite side surfaces of the two horizontal shaft support pieces, the portions are covered.
[0037]
The turning base portion 20 is provided with a concave portion 23 formed by extending a center circular hole toward one side edge, that is, a U-shaped portion extending from one side edge to the center portion. The rotating base portion 20 is rotatably and irremovably supported by the antenna support member 12 by fitting the conductive longitudinal axis 13 protruding from the antenna support member 12 into the antenna.
[0038]
Each of the horizontal shaft support pieces 21 and 21 has a horizontal shaft insertion hole 24 through which the horizontal shaft 15 constituting the universal joint is inserted.
[0039]
The insulating piece 22 is formed of an insulating material, and has a shape in which a part of the outer peripheral surface of the disk is cut out to form a bottom surface.
[0040]
An insertion hole 26 through which the horizontal shaft 15 is inserted is opened through the center part of the disk.
[0041]
On both sides of the insulating piece 22, concave portions 25, 25 for fitting the supporting piece portions 21 and 21 of the intermediate bearing metal fitting 14 are formed, and on the bottom surface of the insulating piece 22, A retaining hole 22a into which the tip of the vertical axis 13 is inserted is formed.
[0042]
As shown in FIG. 9, when the insulating piece 22 is inserted between the two horizontal shaft support pieces 21 and 21 of the intermediate bearing metal 14, the two intermediate shaft support pieces 21 and 21 , 25, and a portion excluding the lower surface of the rotating base 20 and the outer surfaces (the back surfaces of the opposing surfaces) of the horizontal shaft support pieces 21, 21 are covered by the insulating piece 22.
[0043]
When the insulating piece 22 is inserted between the two horizontal shaft support pieces 21 and 21 of the intermediate bearing 14, the edge of the rotating base is covered and the tip of the vertical axis 13 is inserted into the retaining hole 22 a. Then, the movement of the rotating base portion 20 in the direction of the rotating radius with respect to the longitudinal axis 13 is restricted, so that the rotating base portion 20 is prevented from coming off.
[0044]
In a state where the insulating piece 22 is inserted between the two horizontal shaft supporting pieces 21 and 21 of the intermediate bearing 14, the horizontal shaft 15 is connected to the horizontal shaft supporting piece 21, the insulating piece 22 and the horizontal shaft supporting piece 21. By penetrating and penetrating, the intermediate bearing fitting 14 is prevented from coming off in the direction of the longitudinal axis.
[0045]
As shown in FIG. 11, the antenna main body 16 includes a thin and long plate-shaped main body 27, and a pair of mutually opposed parallel bearing pieces 28 protruding from both side edges of the end of the main body 27. The two bearing pieces 28, 28 are integrally formed of a conductive spring material, and the distance between the protruding ends of the bearing pieces 28, 28 is narrowed. The outer surfaces of the members 21 and 21 can be elastically clamped. The bearing piece 28 has an insertion hole 29 through which the horizontal shaft 15 is inserted.
[0046]
Further, the antenna main body 16 holds the horizontal shaft 15 on the intermediate bearing member 14 in a state where the outer surfaces of both the horizontal shaft support pieces 21 and 21 of the intermediate bearing member 14 are elastically held between the two bearing pieces 28 and 28. By being rotatably supported about the center of rotation, it is electrically connected to the intermediate bearing fitting 14, and the bearing piece 28 has a suitable conductive contact pressure against the outer surface of the horizontal shaft support piece 21. , A rotational frictional resistance is obtained, so that the shaft is electrically connected to the longitudinal axis 13 via a universal joint.
[0047]
As shown in FIG. 10, a bottomed cylindrical insulating sheath member 30 made of an insulating material and having an open end is placed on the outside of the antenna body 16 so that the antenna body 16 is not exposed to the outside.
[0048]
A pair of insulating bearing pieces 31, 31 facing each other are formed at the base end of the insulating sheath member 30, and the horizontal axis is pivotally supported at the center of the insulating bearing pieces 31, 31. Through holes 32, 32 are formed, and in the horizontal shaft through hole 32, an enlarged diameter portion 33 in which the head 17 of the horizontal shaft 15 fits with each other and a step portion 34 for retaining are formed, respectively.
[0049]
When the insulating sheath member 30 is put on the antenna body 16, the bearing pieces 28, 28 of the antenna body 16 are arranged on the opposing surfaces of the insulating bearing pieces 31, 31 along the opposing surface of the insulating bearing piece 31. It is supposed to be.
[0050]
The longitudinal axis 13 has a flange-shaped retaining head 36 formed at the tip, and the retaining head 36 is provided at the base of the protruding portion of the longitudinal axis 13 from the antenna support member, at the rotation base 20. Are formed by forming an annular concave groove 37 whose diameter is substantially the same as the width of the concave portion 23 (that is, the diameter of the central circular hole).
[0051]
By fitting the concave portion 23 into this annular concave groove 37, the periphery of the concave portion 23 of the rotating base portion abuts below the retaining head 36, and the rotating base portion 20 is rotatable with respect to the longitudinal axis 13. In addition, it cannot be prevented from falling off in the axial direction, and is electrically connected.
[0052]
The retaining head 36 is inserted into a retaining hole 22 a formed on the bottom surface of the insulating piece 22 when the vertical axis 13, the intermediate bearing 14 and the insulating piece 22 are assembled. The rotation base portion 20 is prevented from coming off in the direction of the radius of rotation of the vertical axis.
[0053]
Reference numeral 38 in the figure denotes an O-ring made of an elastic material. The O-ring 38 allows the intermediate bearing 14 to rotate with respect to the antenna supporting member 12 so as to stop the rotation at an arbitrary position. It has become.
[0054]
In the external antenna 11, the bottom surface of the rotating base is configured to be covered by the flat surface 12 a of the antenna support member 12 having the longitudinal axis 13 protruding therefrom. Due to the insulated bearing pieces 31, 31, both outer surfaces of the antenna main body bearing pieces 28, 28 (the back side of the opposed faces of both bearing pieces) and both outer faces of the intermediate bearing horizontal shaft support pieces 21, 21 (both opposed faces) Back side).
[0055]
That is, the antenna main body bearing piece 28 and the intermediate bearing horizontal shaft support piece 21 which are overlapped and electrically connected to each other are covered by the insulating bearing piece 31 of the insulating sheath member 30 so that the metal part is not exposed to the outside. ing.
[0056]
Therefore, in the external antenna 11, there is no metal part exposed to the outside, and an antistatic measure is taken.
[0057]
In the above-described embodiment, the example in which the external antenna is adapted to the PC card type portable communication device has been described. However, the present invention is applicable to all electronic devices using the antenna, including the portable communication device such as a mobile phone. Can be done.
[0058]
【The invention's effect】
As described above, the detachable antenna device according to the present invention is configured such that the external antenna is detachable via the connector device. Since it is detachable, the electronic device using the electronic device does not require a space for an external antenna, and the electronic device can be downsized.
[0059]
In addition, by using a connector device with a changeover switch mechanism, the power supply circuit is switched from the internal antenna to the external antenna by mounting the external antenna, so that the internal antenna and the external antenna can be switched as necessary As a result, transmission and reception corresponding to a wide range of radio wave conditions become possible.
[0060]
Further, the thickness of the electronic device is about 5 mm or less by supporting the electronic device by fitting the antenna support member and the fitting concave portion on the electronic device side in addition to the connection by the connector device for power supply. It can be safely attached to and detached from the thin electronic device without damaging the device.
[0061]
Further, the external antenna has an insulating sheath member in which the bottom surface of the rotating base is covered with a flat surface of the antenna support member, and the outer surface of the horizontal shaft support piece and the bearing piece of the antenna body are in contact with each other. , The metal part is not exposed to the outside, the appearance is good, complete electrostatic measures are taken, and the antenna can be miniaturized.
[0062]
In addition, a flange-shaped retaining head is formed at the tip of the longitudinal axis, and a U-shaped concave portion is formed on the rotation base portion of the intermediate bearing from one side to a central portion thereof, and the concave portion is formed as the concave portion. By fitting below the head of the vertical axis and preventing the vertical axis fitted in the concave portion by the insulating piece from falling off, attachment of the intermediate bearing bracket to the vertical axis becomes easy, and assembly is facilitated. And the number of components that also serve as the insulating material is reduced.
[0063]
Furthermore, by providing the head at the tip of the vertical axis by forming an annular groove at the base of the protruding portion from the antenna support member, the rotating base can be suitably supported on the vertical axis, Since no other parts are required for retaining the base portion, the size can be reduced.
[0064]
A conductive spring material is used for both bearing pieces integrally provided on the base end side of the antenna main body, and the outer surfaces of the two horizontal shaft support pieces of the intermediate bearing bracket are elastically held between the two bearing pieces. Thereby, when the antenna main body is rotated with respect to the intermediate bearing, the rotation of the antenna main body can be stopped at an arbitrary position, and the antenna main body can be suitably electrically connected to the intermediate bearing. Can be.
[0065]
The horizontal axis is formed of an insulating material, has a flange-shaped head on one end side, and forms a tapered portion having a thinner distal end side on the other end side and a retaining step on the base end side of the tapered portion, Exposing the metal part to the outside by providing the enlarged diameter part and the retaining step part for retaining the head of the horizontal axis in the horizontal axis through hole of each insulating bearing piece part of the insulating sheath member. Therefore, the antenna main body can be favorably pivoted to the intermediate bearing.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a portable communication device using an external antenna according to the present invention.
FIG. 2A is a partial vertical cross-sectional view showing an external antenna mounting portion on the electronic device side of the electronic device, and FIG. 2B is a partial horizontal cross-sectional view of the same.
FIG. 3A is a front view of a receptacle part of the same, and FIG. 3B is a side view of the same.
FIG. 4 is a circuit diagram of the same.
5 (a) is a plan view showing the external antenna in FIG. 1, and FIG. 5 (b) is a side view thereof.
FIG. 6 is a sectional view taken along line AA in FIG.
FIG. 7 is a plan view showing a horizontal axis in FIG.
FIG. 8 is an exploded perspective view showing the universal joint in FIG.
FIG. 9A is a side view showing a state where an insulating piece is inserted into an intermediate bearing, and FIG. 9B is a longitudinal sectional view of the same.
FIG. 10 is a transverse sectional view showing a covering state of the antenna body in FIG. 1;
FIG. 11A is a plan view showing the antenna main body of the above, and FIG. 11B is a side view of the same.
FIG. 12 is a front view showing the antenna support member in FIG. 1;
FIG. 13A is a side view showing an example of a conventional external antenna, and FIG. 13B is a front view thereof.
FIG. 14 is a perspective view showing a state where countermeasures against static electricity are given to the external antenna according to the third embodiment.
[Explanation of symbols]
a Common terminal b Spring contact piece c Normally closed terminal d Switch piece e Ground terminal 10 Electronic device (portable communication device)
DESCRIPTION OF SYMBOLS 11 External antenna 12 Antenna support member 13 Vertical axis 14 Intermediate bearing bracket 15 Horizontal axis 16 Antenna body 17 Head 18 Tapered part 19 Step part 20 Rotation base part 21 Horizontal axis support piece part 22 Insulation piece 22a Retaining hole 23 Depression Portion 24 Horizontal shaft insertion hole 25 Recess 26 Insertion hole 27 Main body 28 Bearing piece 29 Insertion hole 30 Insulating sheath member 31 Insulated bearing piece 32 Horizontal shaft through hole 33 Large diameter portion 34 Step 35 Connection member 36 Retaining head Part 37 Annular concave groove 38 O-ring 40 Plug 41 Grounding outer cylinder 42 Cylindrical holding spring 43 Plug pin 50 Receptacle 51 Circuit board 52 Mold case 53 Earthing sleeve 54 Pin insertion hole 55 Internal antenna 56 Antenna feeding circuit 60 Fitting recess 61 Mating projection 62 spring piece 63 engaging recess

Claims (7)

送信及び/又は受信機能を有する電子機器に対して着脱自在となし、該電子機器のアンテナ給電回路に対してアンテナ本体を、コネクタ装置を介して電気接続させる外部アンテナを備えてなる着脱式アンテナ装置。A detachable antenna device that is detachable from an electronic device having a transmission and / or reception function and includes an external antenna that electrically connects an antenna body to an antenna feed circuit of the electronic device via a connector device. . 電子機器には、該電子機器と固定配置に内蔵された内部アンテナを有し、コネクタ装置には、前記電子機器側に備えたレセプタクルに対して外部アンテナ側に備えたプラグを結合させることによって、アンテナ給電回路が前記内部アンテナから外部アンテナのアンテナ本体に切り換え接続される切り換えスイッチを備え、前記アンテナ給電回路に内部アンテナを常時接続状態としておき、前記プラグの挿し込みによってアンテナ給電回路に対する内部アンテナの接続をOFFとするとともに前記外部アンテナの接続をONとするようにしてなる請求項1に記載の着脱式アンテナ装置。The electronic device has an internal antenna built in a fixed arrangement with the electronic device, and the connector device has a plug provided on the external antenna side coupled to a receptacle provided on the electronic device side, An antenna feed circuit is provided with a changeover switch for switching from the internal antenna to the antenna main body of the external antenna. The internal antenna is always connected to the antenna feed circuit, and the internal antenna is connected to the antenna feed circuit by inserting the plug. The detachable antenna device according to claim 1, wherein the connection is turned off and the connection of the external antenna is turned on. 外部アンテナにはその基端部に、絶縁材からなるアンテナ支持部材を備え、該アンテナ支持部材にコネクタ装置のプラグを支持させ、かつ電子機器側には、前記アンテナ支持部材を嵌合して支持する嵌合凹部を備え、前記コネクタ装置の嵌合と、前記嵌合凹部に対するアンテナ支持部材の嵌合によって外部アンテナを前記電子機器に対して支持させるようにしてなる請求項1又は2に記載の着脱式アンテナ装置。The external antenna is provided with an antenna support member made of an insulating material at a base end thereof, the plug of the connector device is supported by the antenna support member, and the antenna support member is fitted and supported on the electronic device side. 3. The electronic device according to claim 1, further comprising a fitting concave portion, wherein the external antenna is supported by the electronic device by fitting the connector device and fitting an antenna support member to the fitting concave portion. 4. Detachable antenna device. 嵌合凹部内面には、該嵌合凹部内に嵌合されるアンテナ支持部材の側面を押圧する係止突起が突出方向に付勢されて備えられ、前記アンテナ支持部材の側面には前記係止突起が嵌り合う係合凹部を備えてなる請求項3に記載の着脱式アンテナ装置。On the inner surface of the fitting recess, a locking projection for pressing a side surface of the antenna support member fitted into the fitting recess is provided urged in a protruding direction, and the locking projection is provided on a side surface of the antenna support member. 4. The detachable antenna device according to claim 3, further comprising an engagement recess into which the projection is fitted. アンテナ支持部材に対して固定され、コネクタ装置のプラグが導通された導電性の縦軸と、該縦軸に対し、これを中心軸として回動自在に取り付けられた導電性の中間軸受金具と、該中間軸受金具に前記縦軸と直交配置に支持させた横軸とからなるユニバーサルジョイントを備え、前記中間軸受金具に対し、前記横軸を中心軸として回動自在にアンテナ本体を取り付け、前記縦軸とアンテナ本体とを前記ユニバーサルジョイントを介して導通させ、
前記中間軸受金具は、平板状の回動基盤部と、該回動基盤部の両縁をそれぞれ同じ側に立ち上がらせた一対の横軸支持片部とを一体に有する断面U字形に形成され、
該中間軸受金具の回動基盤部を前記縦軸の先端に回動自在に支持させるとともに、前記両横軸支持片部に前記横軸を貫通させて支持させ、
前記中間軸受金具の両横軸支持片部間に絶縁材からなる中間軸受金具用の絶縁駒を挿入し、該絶縁駒により中間軸受金具の底面及び両横軸支持片部の対向面の背面側を除く部分を覆わせ、
前記アンテナ本体には基端部側に一対の平行な軸受片部を一体に備え、該軸受片部を前記中間軸受金具の両横軸支持片部の対向面の背面側に接触させて前記横軸を中心軸にして回動自在に支持させ、
該アンテナ本体の外側に、絶縁材を持って成形され、一端側が開放した有底筒状の絶縁鞘部材を被せ、該絶縁鞘部材の開放端側に一対の絶縁軸受片部を備え、該絶縁軸受片部を前記横軸により中間軸受金具に枢着させ、該絶縁軸受片部により前記アンテナ本体軸受片部の両軸受片対向面の背面側及び前記中間軸受金具横軸支持片部の両対向面の背面側を覆わせてなる請求項1〜3又は4に記載の着脱式アンテナ装置。A conductive vertical axis fixed to the antenna support member, and a plug of the connector device is electrically connected, and a conductive intermediate bearing fitting rotatably mounted on the vertical axis with respect to the vertical axis, The intermediate bearing is provided with a universal joint composed of a horizontal axis supported in an orthogonal arrangement with the longitudinal axis, and an antenna body is attached to the intermediate bearing so as to be rotatable about the horizontal axis as a center axis. Conducting the shaft and the antenna body through the universal joint,
The intermediate bearing is formed in a U-shaped cross-section integrally having a flat-plate-shaped pivot base portion and a pair of horizontal shaft support pieces each having both edges of the pivot base portion raised on the same side,
Along with the rotation base portion of the intermediate bearing metal being rotatably supported at the tip of the vertical axis, the horizontal axis is passed through and supported by the two horizontal axis support pieces,
An insulating piece for an intermediate bearing fitting made of an insulating material is inserted between the two horizontal shaft supporting pieces of the intermediate bearing fitting, and the insulating piece is used to insert a rear face of the bottom surface of the intermediate bearing fitting and the opposite surfaces of the two horizontal shaft supporting pieces. Cover the parts except
The antenna body is integrally provided with a pair of parallel bearing pieces on the base end side, and the bearing pieces are brought into contact with the back surfaces of the opposing surfaces of the two horizontal shaft support pieces of the intermediate bearing fitting, thereby obtaining the horizontal bearing piece. To be rotatable around the axis,
On the outside of the antenna body, a cylindrical insulating sheath member having a bottom and formed with an insulating material and having one open end is covered, and a pair of insulating bearing pieces are provided on the open end side of the insulating sheath member. The bearing piece is pivotally attached to the intermediate bearing with the horizontal axis, and the insulating bearing piece is used to oppose the opposite side of the bearing piece facing portion of the antenna main body and the intermediate bearing horizontal shaft support piece. The detachable antenna device according to claim 1, wherein a back surface of the surface is covered. 前記縦軸の先端をアンテナ支持部材の平らな表面に突出させて固定し、該縦軸の先端にフランジ状の抜け止め頭部を形成するとともに、前記中間軸受金具の回動基盤部に、その一辺側から中央部分にかけてU字形の凹陥部を形成し、該凹陥部を前記縦軸の頭部下に嵌合させ、かつ前記絶縁駒によって前記凹陥部に嵌合された縦軸を抜け止めさせてなる請求項5に記載の着脱式アンテナ装置。The tip of the vertical axis is projected and fixed to the flat surface of the antenna support member, and a flange-like retaining head is formed at the tip of the vertical axis, and the rotation base portion of the intermediate bearing is provided with the same. A U-shaped concave portion is formed from one side to the central portion, the concave portion is fitted below the head of the vertical axis, and the vertical axis fitted to the concave portion by the insulating piece is prevented from falling off. The detachable antenna device according to claim 5, wherein アンテナ本体の基端部側に一体に設けた両軸受片部に導電性のバネ材を使用し、該両軸受片によって前記中間軸受金具の両横軸支持片部外面側を弾性的に挟持させることにより導電接触圧及び回動摩擦抵抗を持たせてなる請求項5又は6に記載の着脱式アンテナ装置。An electrically conductive spring material is used for both bearing pieces integrally provided on the base end side of the antenna body, and the outer surfaces of the two horizontal shaft support pieces of the intermediate bearing bracket are elastically held between the two bearing pieces. 7. The detachable antenna device according to claim 5, wherein the detachable antenna device has a conductive contact pressure and a rotational friction resistance.
JP2002291542A 2002-10-03 2002-10-03 Detachable antenna device Expired - Fee Related JP3789415B2 (en)

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JP4607009B2 (en) * 2005-12-28 2011-01-05 富士通コンポーネント株式会社 Antenna device
JP2007318207A (en) * 2006-05-23 2007-12-06 Tw Denki Kk Telescopic antenna
JP2015220646A (en) * 2014-05-19 2015-12-07 シャープ株式会社 Radio communication device
CN105789824A (en) * 2016-04-05 2016-07-20 北京小米移动软件有限公司 Remote control, antenna device of remote control and axial limiting structure thereof
JP2019153923A (en) * 2018-03-02 2019-09-12 株式会社Jvcケンウッド Electronic device holder and electronic device
CN113677116A (en) * 2020-05-13 2021-11-19 仁宝电脑工业股份有限公司 Electronic device
CN113677116B (en) * 2020-05-13 2023-04-07 仁宝电脑工业股份有限公司 Electronic device with a detachable cover

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CN100438207C (en) 2008-11-26
CN1497771A (en) 2004-05-19
TW200406082A (en) 2004-04-16
JP3789415B2 (en) 2006-06-21
TWI263372B (en) 2006-10-01

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