JPH0329501A - Mount structure of a planer antenna - Google Patents
Mount structure of a planer antennaInfo
- Publication number
- JPH0329501A JPH0329501A JP16439389A JP16439389A JPH0329501A JP H0329501 A JPH0329501 A JP H0329501A JP 16439389 A JP16439389 A JP 16439389A JP 16439389 A JP16439389 A JP 16439389A JP H0329501 A JPH0329501 A JP H0329501A
- Authority
- JP
- Japan
- Prior art keywords
- antenna
- planar antenna
- guide
- horizontally
- hole
- 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.)
- Pending
Links
- 239000002184 metal Substances 0.000 description 4
- 230000003014 reinforcing effect Effects 0.000 description 4
- 230000001105 regulatory effect Effects 0.000 description 2
- 235000012773 waffles Nutrition 0.000 description 2
- 229910001294 Reinforcing steel Inorganic materials 0.000 description 1
- 238000013459 approach Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000005553 drilling Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000011800 void material Substances 0.000 description 1
Landscapes
- Waveguide Aerials (AREA)
- Support Of Aerials (AREA)
Abstract
Description
本発明は、衛星放送の受信などに用いられる平面アンテ
ナの取付構造に関するものである.The present invention relates to a mounting structure for a flat antenna used for receiving satellite broadcasting.
赤道上空3600kmの静止衛星から送られるマイクロ
波(12GHz)を用いた1#星放送を家庭で傭別受信
するアンテナとして、従米のパラボラアンテナに代えて
平面アンテナが普及しつつある.この平面アンテナは家
屋の外壁などに取り付けられるものであり、上下方向及
び水平方向に回動自在に支持してアンテナの指向方向(
静止衛星が存在する方向)に対する平面7冫テナの向き
を調整できるようにすると共に、平面アンテナの壁面か
らの出代を少なくするために7冫テナ指向方向に対して
垂直な面でも平面アンテナを回動できるようにするのが
望ましく、このように平面7冫テナを回動できるように
したものは本出願人によって特願昭63−212919
号として提供されている.
第3図はその一例を示すものであり、家屋の壁面など取
付面46に固定!4:44を取り付けると共に固定具4
4に支持兵45を取り付け、支持兵45に平面アンテナ
1を上下方向及び水平方向に回動自在に支持すると共に
平面アンテナ1の表面に垂直な軸回りに回動させること
ができるようにしてある.そしてこのものにあって、ま
ず平面アンテナ1を水平方向で回動させて方位角をWR
整すると共に上下方向で回動させて仰角を調整すること
によって、第3図(a)に図示するように静止衛星が存
在する方向に平面アンテf1の表面が垂直に向くよう、
すなわち平面アンテナ1がアンテナ指向方向dを向くよ
うにWR整する.この状態では平面アンテナ1の4つの
角A,B,C,DのうちDが取付面46から大きく突出
しているので、平面アンテナ1の表面に垂直な軸回り、
すなわちアンテナ指向方向dを中心に平面アンテナ1を
第3図(b)の矢印のように回動させて、平面アンテナ
1の上辺ABと下辺CDが取付面46にほぼ平行になる
ようにすると、第3図(b)のように角Dの取付面46
からの出代が小さくなるのである.このように平面アン
テナ1を回動させた後に固定し、そして固定J%44内
に支持兵45をスライドさせて第3図(c)のように平
面アンテナ1を取付面46に近付けた状態で固定して平
面アンテナ1の調整作業が終了する.Planar antennas are becoming popular in place of conventional parabolic antennas as home antennas for receiving 1# star broadcasts using microwaves (12 GHz) sent from geostationary satellites 3,600 km above the equator. This planar antenna is attached to the outside wall of a house, and is rotatably supported vertically and horizontally to adjust the antenna's pointing direction (
In order to make it possible to adjust the orientation of the 7-plane antenna with respect to the direction in which the geostationary satellite is located, and to reduce the protrusion of the 7-plane antenna from the wall surface, the plane antenna can also be used in a plane perpendicular to the pointing direction of the 7-plane antenna. It is desirable to make it rotatable, and a structure in which the flat seven-sided antenna is made rotatable in this way was filed by the present applicant in Japanese Patent Application No. 63-212919.
It is provided as a number. Figure 3 shows an example of this, and it is fixed to the mounting surface 46 such as the wall of a house! 4: Attach 44 and fixing tool 4
A supporting member 45 is attached to the supporting member 4, and the supporting member 45 supports the planar antenna 1 so as to be freely rotatable in the vertical and horizontal directions, and is also able to rotate around an axis perpendicular to the surface of the planar antenna 1. .. In this device, first rotate the planar antenna 1 in the horizontal direction and adjust the azimuth to WR.
By adjusting the angle of elevation by rotating vertically, the surface of the flat antenna f1 is oriented perpendicular to the direction in which the geostationary satellite is located, as shown in FIG. 3(a).
In other words, the WR is adjusted so that the planar antenna 1 faces the antenna direction d. In this state, among the four corners A, B, C, and D of the planar antenna 1, D largely protrudes from the mounting surface 46, so that around the axis perpendicular to the surface of the planar antenna 1,
That is, if the planar antenna 1 is rotated as shown by the arrow in FIG. 3(b) around the antenna directivity direction d so that the upper side AB and the lower side CD of the planar antenna 1 are approximately parallel to the mounting surface 46, As shown in FIG. 3(b), the mounting surface 46 of corner D
This means that the amount of money coming out of the company will be smaller. After rotating and fixing the planar antenna 1 in this way, slide the support member 45 into the fixed J% 44 and bring the planar antenna 1 close to the mounting surface 46 as shown in FIG. 3(c). Once fixed, the adjustment work for the planar antenna 1 is completed.
上記のように平面アンテナ1を取り付ける際の調整は、
水平方向の回動(方位角のlI!整)と上下方向の回動
(仰角の調!)の他にアンテナ指向方向に対して垂直な
面を中心とする回動が必要であり、3紬の回動をそれぞ
れ別々におこなわなければならない.従って、この調整
が非常に面倒になるものであった。
本発明は上記の点に鑑みて為されたものであり、上下方
向と水平方向の回動をおこなうだけでアンテナ指向方向
に対して垂直な面での回動が自動的になされ、平面アン
テナを取り付ける際の調整が容易になる平面アシテナの
取付構造を提供することを目的とするものである.Adjustments when installing the planar antenna 1 as described above are as follows:
In addition to rotation in the horizontal direction (adjusting the azimuth angle) and rotation in the vertical direction (adjusting the elevation angle!), rotation around a plane perpendicular to the antenna directivity direction is required. Each rotation must be performed separately. Therefore, this adjustment was extremely troublesome. The present invention has been made in view of the above points, and it is possible to automatically rotate a planar antenna in a plane perpendicular to the antenna direction by simply rotating it vertically and horizontally. The purpose of this is to provide a mounting structure for a flat Asitena that facilitates adjustment during installation.
本発明に係る平面アンテナの取付構造は、平面7冫テナ
1の背面に上下に長いがイド孔2を設けたガイドA3を
取り付け、家屋等に取着される支持兵4に平面アンテナ
1を上下回動自在且つ水平回動自在でさらに平面アンテ
ナ1の表面と垂直な輪回りに回動自在に取り付けると共
に、支持具4に突出して設けたガイド突起5の先部を上
記がイド%3のがイド孔2に挿入して成ることを特徴と
するものである.The mounting structure of the planar antenna according to the present invention is such that a guide A3, which is vertically long and has an id hole 2, is attached to the back surface of the planar antenna 1, and the planar antenna 1 is mounted vertically on a supporting member 4 attached to a house or the like. It is rotatable and horizontally rotatable, and further rotatable around a ring perpendicular to the surface of the planar antenna 1, and the tip of the guide protrusion 5 protruding from the support 4 is connected to the top of the id 3. It is characterized by being inserted into the id hole 2.
本発明にあっては、平面アンテナ1の背面のガイド兵3
に設けた上下に長いがイド孔2に、支持兵4に突出して
設けたガイド突起5の先部を挿入してあるために、平面
アンテナ1をアンテナ指向方向に向けるように回動ll
I整する際に、平面アンテナ1を水平方向に回動させる
とガイド突起5とガイド孔2との引っ掛かりでがイド兵
3が引かれ、平面アンテナ1は平面アンテナ1の表面と
垂直な袖回りに、すなわちアンテナ指向方向に対して垂
直な面で自動的に回動されることになり、アンテナ指向
方向に対して垂直な面で回動させる調整作業が不要にな
る.In the present invention, the guide member 3 on the back of the planar antenna 1
Since the tip of the guide protrusion 5 protruding from the supporting member 4 is inserted into the vertically long guide hole 2 provided in the support member 4, the planar antenna 1 can be rotated to face the antenna direction.
When aligning the flat antenna 1, when the flat antenna 1 is rotated in the horizontal direction, the guide protrusion 5 and the guide hole 2 catch the guide 3, and the flat antenna 1 is rotated around the sleeve perpendicular to the surface of the flat antenna 1. In other words, it is automatically rotated in a plane perpendicular to the antenna pointing direction, eliminating the need for adjustment work to rotate it in a plane perpendicular to the antenna pointing direction.
以下本発明を実施例によって詳述する。
第1図及び第2図は本発明の一実施例を示すものであり
、平面アンテナ1は矩形状のアンテナパネル24の背面
の中央部にネジ42とワッシャ43とを用いて箱型の補
強金兵35を取り付けて形威されるものであり、補強金
兵35には円柱形の支柱6が背方へ突出させて固定して
ある.支柱6は平面アンテナ1の中央の位置においてア
ンテナlの表面に対して垂直な方向に突出されているも
のである.虫た支柱6の下側においで補強金兵35に上
下に細長く形處されるがイド共3の上端がネジ36とワ
フシャ37とを用いて固着してある.補強金A3は斜め
下方へ傾斜するように後方へ突出させて固着してあり、
補強金兵3には上下に細長いガイド孔2が穿設しである
.このガイド孔2は上端の開口幅が狭く下端の開口幅が
広い台形状に形或されるものである.
平面アンテナ1に背方へ突出して設けた支柱6は、上下
回動兵7の貢通孔8に挿通してある.すなわち、上下回
動兵7は平断面形状が背方へ開口する略コ字型に形戒さ
れるものであり、その先靖面と後部内に設けた架設板5
0とにそれぞれ丸孔の貫通孔8,8を穿設し、この各貫
通孔8.8に支柱6を回動自在に挿通することによって
、平面アンテナ1を平面アンテナ1の表面に対して垂直
な面で回動自在に取着するようにしてある.この上下回
動兵7は水平回動兵11に取着してある.水平回動共1
1は上面が開口する断面コ字型に形威されるものであり
、両側片51.51に設けた孔1 2,1 2と上下回
動i!4:7の後端部に設けた孔9,9とにワッシャ1
4,1 4を介してネノ1 3.1 3を差し込むと
共にネノ1 3,1 3にナツ}15.15を螺合する
ことによって、このネy1 3.1 3を回動中心とし
て上下回動自在に上下回動兵7を水平回動兵11に取着
してある.水平回動l4c11の側片51,51にはそ
れぞれ孔12を半径の中心とする円弧状の長孔1 6.
1 6が形處してあり、この各長孔1 6,1 6にス
プリング1 8.1 8とワフシャ1 9.1 9を介
してネノ1 7,1 7を通すと共に各ネジ17.17
を上下回動兵7に設けたネジ孔1 0.1 0に螺合す
ることによって、ネノ17,17が長孔1 6,1 6
をスライドする規制された範囲で上下回動兵7は上下に
回動されるようにしてある.またネジ1 7.1 7を
締めることによって、上下回動14c7を任意の角度に
回動させた状態で固定することができる.
水平回動兵11の底片52の後部に孔22が設けてあり
、この孔22にワッシャ21を介してネシ20を通すと
共にこのネノ20を円篩状の@23に蝶合することによ
って、水平回動兵11の下面に輪23が固定してある.
そしてこの輪23を支持具4に設けた丸孔の孔25に回
動自在に挿入することによって、水平回動兵11は支持
兵4の上面に水平回動自在にしてある.さらにハンドル
26を支持兵4の下側に配設してスプリング28とワッ
シャ29とを介してハンドル26の基部の孔53にネノ
27を通すと共にこのネノ27を輪23の下面からねじ
込むことによって、ハンドル26を回すことによって水
平回動兵11を水平回勤操作できるようにすると同時に
、水平回動pc11が支持兵4から脱落することをハン
ドル26を利用して防止するようにしてある.支持兵4
は平板によって形威されるものであり、支持兵4の前部
に孔25を半径の中心とする円弧状の艮孔31が形處し
てあり、この長孔31にスプリング33とワッシャ34
を介してネゾ32を通すと共にネノ32を水平回動兵1
1の底片52の前靖部に設けたネノ孔30に螺合するこ
とによって、ネノ32が長孔31をスライドする規制さ
れた範囲で水平回動共11は水平に回動されるようにし
てある.またネノ32を締めることによって、水平回動
兵11を任意の角度に回動させた状態で固定することが
できる.この支持l4c4の先端には先靖程幅が狭くな
るように形威したがイド突85が斜め上方へ向けて前方
へ一体に突出してあり、平面7冫テナ1を支持兵4に取
り付ける際にこのガイド突起5の先部が平面7冫テナ1
の背面側に取着したガイドl4c3のガイド孔2に差し
込まれるようにしである.平面アンテナ1が垂直に立っ
た状態ではがイド突起5はガイド孔2の上端部内に位置
すると共に、平面アンテナ1をその前面が斜め上方へ向
くように傾けるに従ってガイド突起5はガイド孔2内の
下端部側へ移動し、平面アンテナ1が回動するIi因で
はポイド孔2からガイド突起5が抜けないようにしてあ
る.
上記のようにして上下回動兵7と水平回動兵11とを介
して平面アンテナ1を支持兵4に取り付けることができ
るものであり、支持兵4は取付ベース38.38によっ
て外壁面など家屋の取付面46に固定するようにしてあ
る.すなわち、取付ベース38.38はそれぞれ断面L
型に形成されるものであり、各横片5 4,5 4には
前後方向に長い長孔55,55が穿設してある.そして
各取付ベース38,38の横片5 4,5 4Mに支持
兵4の後部を上下から扶持させて、ワッシャ40を介し
て横片5 4,5 4の長孔55,55と支持兵4の後
端部に形威した孔56.56・・・とにネノ39を通し
、ナット41を蝶合して締めることによって、支持具4
を取付ベース38.38に取り付けるようにすると共に
、取付ベース38.38の各縦片57,57を取付面4
6に固定することによって、第2図に示すように平面ア
ンテナ1の取り付けをおこなうことがでさるものである
.
しかして、平面アンテナ1を衛星の存在する向きに調整
するにあたっては、まずネノ17の締結を緩めて上下回
動兵7をネジ13を中心にして上下に回動させ、平面ア
ンテナ1の仰角のlllgkをする.このl!l整後は
ネノ17を締めてこの仰角に調整した状態に固定する.
次ぎに、ネク32の締結を級めてハンドル26を回すこ
とによって軸23を中心にして水平回動兵11を水平に
回動させ、平面アンテナ1の方位角の調整をする.この
ように上下回動ll!整して仰角の調整をすると共に水
平回動じて方位角の調整をすることによって、平面アン
テナ1の表面を衛星の存在する向き、すなわちアンテナ
指向方向に対して垂直にする調整をおこなうことができ
る.そしてこのように方位角を調整するために水平回動
pc11を水平に回動させて平面アンテナ1を水平に回
動させると、固定状態にある支持兵4のガイド突起5が
ガイド孔2に挿入されているために、平面アンテナ1の
水平回動に伴ってがイド兵3がガイド突起5に係止され
た状態で水平回動方向と相対的に逆方向に引っ張ちれる
ことになる.このように平面アンテナ1の水平回動に伴
ってガイド兵3がガイド突起5で引っ張られるとこの引
っ張られた分、上下回動兵7に対する支柱6の回動によ
って平面アンテナ1は、支柱6を中心として平面アンテ
ナ1の表面に垂直な軸回りに、すなわちアンテナ指向方
向に対して垂直な面で回動されることになる.従って、
平面アンテナ1を水平に回動させて方位角の調整をおこ
なう際に、自動的に平面アンテナ1はアンテナ指向方向
に対して垂直な面で回動されるものであり、平面アンテ
ナ1の上辺と下辺とが取付面46に対してほぼ平行にな
る状態が常に保たれるようになる.このようにして、第
3図(a)(b)の場合と同様に取付面46からの平面
アンテナ1の出代を極力小さくなるようにした状態で、
平面アンテナ1の向きの調整をおこなうことができるも
のであり、この調整が終わった後にネジ32を締めて方
位角をllN整した状態に固定するものである.The present invention will be explained in detail below with reference to Examples. 1 and 2 show an embodiment of the present invention, in which a planar antenna 1 is constructed using a box-shaped reinforcing metal plate using screws 42 and washers 43 at the center of the back of a rectangular antenna panel 24. It is made to look impressive by attaching a soldier 35, and a cylindrical support 6 is fixed to the reinforcing metal soldier 35 so as to protrude backwards. The pillar 6 is located at the center of the planar antenna 1 and protrudes in a direction perpendicular to the surface of the antenna l. The lower part of the supporting column 6 is shaped into a vertically elongated shape by reinforcing steel 35, and the upper end of the id 3 is fixed using a screw 36 and a waffle 37. The reinforcing metal A3 is fixed and protrudes backward so as to be inclined diagonally downward.
The reinforcing metal soldier 3 has elongated guide holes 2 drilled at the top and bottom. The guide hole 2 has a trapezoidal shape with a narrow opening at the upper end and a wide opening at the lower end. A support 6 provided on the planar antenna 1 so as to protrude backwards is inserted into a passage hole 8 of a vertically mobile soldier 7. That is, the upper and lower mobile soldiers 7 have a planar cross-sectional shape that is approximately U-shaped with an opening toward the back, and the construction plate 5 provided in the front and rear portions
By drilling circular through-holes 8 and 8 in each of the holes 8 and 0, and inserting the pillar 6 into each through-hole 8 and 8 so as to be rotatable, the planar antenna 1 is aligned perpendicularly to the surface of the planar antenna 1. It is mounted so that it can rotate freely. This vertically mobile soldier 7 is attached to the horizontally mobile soldier 11. Horizontal rotation 1
1 has a U-shaped cross section with an open top, and vertical movement i! 4: Attach washer 1 to holes 9 and 9 provided at the rear end of 7.
By inserting the Neno 1 3.1 3 through the Neno 1 3. The vertically mobile soldiers 7 are freely attached to the horizontally mobile soldiers 11. The side pieces 51, 51 of the horizontal rotation l4c11 each have an arc-shaped elongated hole 1 with the hole 12 as the center of the radius.
1 6 are shaped, and through these elongated holes 1 6 and 1 6, threads 1 7 and 1 7 are passed through springs 1 8. 1 8 and waffles 1 9.
By screwing into the screw holes 1 0.1 0 provided in the upper and lower mobile units 7, the screws 17 and 17 are screwed into the long holes 1 6 and 1 6.
The upper and lower mobile soldiers 7 can be rotated up and down within a regulated range of sliding. Further, by tightening the screws 17.17, the vertical movement 14c7 can be fixed in a state where it is rotated at an arbitrary angle. A hole 22 is provided at the rear of the bottom piece 52 of the horizontal rotation soldier 11, and by passing the screw 20 through the hole 22 through the washer 21 and hinged the screw 20 to the circular sieve-shaped @23, the horizontal rotation soldier 11 can be rotated horizontally. A ring 23 is fixed to the underside of the mobile soldier 11.
By rotatably inserting this ring 23 into a circular hole 25 provided in the support 4, the horizontally rotating soldier 11 is made horizontally rotatable on the upper surface of the supporting soldier 4. Furthermore, by arranging the handle 26 under the support member 4, passing the handle 27 through the hole 53 at the base of the handle 26 via the spring 28 and the washer 29, and screwing the handle 27 in from the bottom surface of the ring 23, By turning the handle 26, the horizontally rotating soldiers 11 can be operated horizontally, and at the same time, the handle 26 is used to prevent the horizontally rotating PC11 from falling off the support soldiers 4. Support troops 4
is formed by a flat plate, and an arcuate hole 31 with the hole 25 as the center of the radius is formed in the front part of the supporter 4, and a spring 33 and a washer 34 are inserted into this elongated hole 31.
Pass Nezo 32 through it and move Neno 32 horizontally
By screwing into the hole 30 provided in the front bolt part of the bottom piece 52 of the bottom piece 11, the screw 11 can be rotated horizontally within a regulated range in which the hole 32 slides through the long hole 31. be. Furthermore, by tightening the screw 32, the horizontally rotating soldier 11 can be fixed while being rotated at an arbitrary angle. At the tip of this support 14c4, there is an id protrusion 85 which is shaped so that it becomes narrower as the tip approaches, but which projects diagonally upward and forward. The tip of the guide protrusion 5 is a flat surface 7.
It is designed to be inserted into the guide hole 2 of the guide l4c3 attached to the back side of the. When the planar antenna 1 stands vertically, the guide protrusion 5 is located within the upper end of the guide hole 2, and as the planar antenna 1 is tilted so that its front surface faces diagonally upward, the guide protrusion 5 is located within the guide hole 2. When the planar antenna 1 moves toward the lower end and rotates, the guide protrusion 5 is prevented from coming out of the void hole 2. As described above, the planar antenna 1 can be attached to the support soldiers 4 via the vertically mobile soldiers 7 and the horizontally mobile soldiers 11. It is fixed to the mounting surface 46 of the. That is, the mounting bases 38 and 38 each have a cross section L.
It is formed in a mold, and each horizontal piece 54, 54 has a long hole 55, 55 formed in the front-rear direction. Then, the rear part of the supporting soldier 4 is supported from above and below by the horizontal pieces 5 4 , 5 4M of each mounting base 38 , 38 , and the long holes 55 , 55 of the horizontal pieces 5 4 , 5 4 are connected to the supporting soldier 4 through the washer 40 . By passing the thread 39 through the holes 56, 56, etc. formed at the rear end, and tightening the nut 41, the support 4 is attached.
to the mounting base 38.38, and each vertical piece 57, 57 of the mounting base 38.38 to the mounting surface 4.
6, the planar antenna 1 can be attached as shown in FIG. Therefore, in order to adjust the plane antenna 1 to the direction in which the satellite is present, first loosen the fastener 17 and rotate the vertical movement unit 7 up and down around the screw 13 to adjust the elevation angle of the plane antenna 1. Illgk. This l! After adjusting, tighten Neno 17 to fix it at this elevation angle.
Next, by tightening the neck 32 and turning the handle 26, the horizontal rotator 11 is horizontally rotated about the shaft 23, and the azimuth of the planar antenna 1 is adjusted. It moves up and down like this! By aligning the plane to adjust the elevation angle and horizontally rotating to adjust the azimuth angle, the surface of the planar antenna 1 can be adjusted to be perpendicular to the direction in which the satellite exists, that is, the antenna pointing direction. .. When the flat antenna 1 is rotated horizontally by horizontally rotating the horizontally rotating PC11 to adjust the azimuth in this way, the guide protrusion 5 of the supporting soldier 4, which is in a fixed state, is inserted into the guide hole 2. Therefore, as the planar antenna 1 horizontally rotates, the ID soldier 3 is pulled in a direction opposite to the horizontal rotation direction while being locked to the guide protrusion 5. In this way, when the guide soldier 3 is pulled by the guide protrusion 5 as the planar antenna 1 rotates horizontally, the planar antenna 1 moves the support column 6 by the amount of this pulling due to the rotation of the column 6 relative to the vertically mobile soldier 7. The center is rotated around an axis perpendicular to the surface of the planar antenna 1, that is, in a plane perpendicular to the antenna pointing direction. Therefore,
When adjusting the azimuth angle by rotating the planar antenna 1 horizontally, the planar antenna 1 is automatically rotated in a plane perpendicular to the antenna directivity direction, and the upper side of the planar antenna 1 and The lower side is always kept in a state where it is almost parallel to the mounting surface 46. In this way, the protrusion of the planar antenna 1 from the mounting surface 46 is minimized as in the case of FIGS. 3(a) and 3(b).
The orientation of the planar antenna 1 can be adjusted, and after this adjustment is completed, the screw 32 is tightened to fix the azimuth in the correct position.
上述のように本発明にあっては、平面アンテナの背面に
上下に長いがイド孔を設けたガイド共を取り付け、家屋
等に取着される支持具に平面アンテナを上下回動自在且
つ水平回動自在でさらに平面アンテナの表面と垂直な軸
回りに回動自在に取り付けると共に、支持具に突出して
設けたがイド突起の先部を上記ガイド兵のガイド孔に挿
入したので、平面アンテナをアンテナ指向方向に向ける
ように回動WR整する際に、平面アンテナを水平方向で
回動させるとガイド突起とアンテナ孔との引っ掛かりで
がイド兵が引かれ、平面アンテナは平面アンテナの表面
と垂直な輪回りに、すなわちアンテナ指向方向に対して
垂直な面で自動的に回動されることになり、平面アンテ
ナの出代を小さくするためのアンテナ指向方向に対して
垂直な面で平面アンテナを回動させるa整作業が不要に
なるものであって、平面アンテナのI!!!作業が容易
になるものである。As described above, in the present invention, a vertically long guide with an id hole is attached to the back of the planar antenna, and the planar antenna can be moved up and down and rotated horizontally on a support attached to a house or the like. The planar antenna is attached so that it can be moved and rotated around an axis perpendicular to the surface of the antenna, and the tip of the guide protrusion that protrudes from the support is inserted into the guide hole of the guide. When adjusting the rotation WR to point in the pointing direction, if the flat antenna is rotated in the horizontal direction, the guide protrusion and the antenna hole will catch the id soldier, and the flat antenna will be perpendicular to the surface of the flat antenna. The planar antenna is automatically rotated around a ring, that is, in a plane perpendicular to the antenna pointing direction. This eliminates the need for adjustment work to move the I! ! ! This makes the work easier.
第1図は本発明の一実施例の分解斜視図、第2図は同上
の斜視図、t1k3図(a)(b)(c)は従未例の概
略平面図である.
1は平面アンテナ、2はがイド孔、3はがイド兵、4は
支持具、5はガイド突起である。Fig. 1 is an exploded perspective view of one embodiment of the present invention, Fig. 2 is a perspective view of the same as above, and t1k3 figures (a), (b), and (c) are schematic plan views of the conventional example. 1 is a planar antenna, 2 is a pin hole, 3 is a pin hole, 4 is a support, and 5 is a guide protrusion.
Claims (1)
たガイド具を取り付け、家屋等に取着される支持具に平
面アンテナを上下回動自在且つ水平回動自在でさらに平
面アンテナの表面と垂直な軸回りに回動自在に取り付け
ると共に、支持具に突出して設けたガイド突起の先部を
上記ガイド具のガイド孔に挿入して成ることを特徴とす
る平面アンテナの取付構造。(1) Attach a guide tool with long guide holes up and down to the back of the planar antenna, and attach the planar antenna to a support that is attached to a house, etc. so that it can move up and down and rotate horizontally. What is claimed is: 1. A mounting structure for a planar antenna, characterized in that the planar antenna is rotatably mounted around a vertical axis, and the tip of a guide protrusion protruding from a support is inserted into a guide hole of the guide.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16439389A JPH0329501A (en) | 1989-06-27 | 1989-06-27 | Mount structure of a planer antenna |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP16439389A JPH0329501A (en) | 1989-06-27 | 1989-06-27 | Mount structure of a planer antenna |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH0329501A true JPH0329501A (en) | 1991-02-07 |
Family
ID=15792277
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP16439389A Pending JPH0329501A (en) | 1989-06-27 | 1989-06-27 | Mount structure of a planer antenna |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH0329501A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH0563105U (en) * | 1992-01-30 | 1993-08-20 | 日立化成工業株式会社 | Antenna mounting device |
| JPH06233599A (en) * | 1993-02-01 | 1994-08-19 | Toshiba Corp | Excitation controller |
| JP2022067697A (en) * | 2020-10-21 | 2022-05-09 | イワブチ株式会社 | Equipment mounting bracket with rotating shaft |
-
1989
- 1989-06-27 JP JP16439389A patent/JPH0329501A/en active Pending
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH0563105U (en) * | 1992-01-30 | 1993-08-20 | 日立化成工業株式会社 | Antenna mounting device |
| JPH06233599A (en) * | 1993-02-01 | 1994-08-19 | Toshiba Corp | Excitation controller |
| JP2022067697A (en) * | 2020-10-21 | 2022-05-09 | イワブチ株式会社 | Equipment mounting bracket with rotating shaft |
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