先前技術 g 攀升, 時間不 負荷滿 、PDA 或者假 有時利 務品質 基 被大量 路的覆 角,藉 利用率 所 改良的 舊存在 相互插 ’其體 間大量 又 洞單 ivi4U^648 五、新型說明: 【新型所屬之技術領域】 數Φ 作係涉及一種移相器,特別是指一種其内部為 調早元且採用反向相對配置型態之創新結構型態設 ⑴在移動式通k糸統中,由於終端使用者數量肩 尤其在都會區内,使用者分佈呈現出密度較大』 同而變化較大之特點,這種情況使得許多基站g ,狀恕’其中就工業區以及商業區而言,由於^ I ’·; 機的为佈會隨著每天上、下班時間點的? j節日的因素而發生顯著落差變化,如此使得/ 蓋^•些區域的基站系統的負荷產生很大的波動十 用率低、有時卻負荷滿載,進而導致通信營運〒 下降、資源浪費之問題點。 $上述問題與需求,一種電調天線取代了常規; 二用於通信基站中,所述電調天線能夠根據移^ 盘區域、話務量、干擾現象等狀態調整天線的彳 以達到優化通信網路、服務品質優化以及提升: 之優點。 述電調天線,其核心部件即為本創作所欲針對 移相器;綜觀目前習知移相器之結構設計,普3 —些問題與缺弊,例如使用同軸式之管體與傳^ 套配合作為調整構件者(如美國專利US2, 502, 35 積較大而致使移相器橫斷面體積擴大,從而造^ 浪費、加工組裝不便、製造成本高等問題點。 ^知移相器設計上所普遍存在的另一個問題,貝 几的配置型態,通常是採用單一推拉構件帶動— 複 計 劇 隨 於 機 同 先 服 線 網 射 源 討 仍 線 ) 空 是 組 M405648 •電調單元進退位移之型態,然而此種習知設計使用上仍舊 存在電調效能不足之缺憾,且若透過多數組移相器串接方 式來達成增加電調效能之目的時,勢必會造成整體移相設 備體積大幅增加、構件配合與構件作動精密度難以提昇等 問題。 是以’針對上述問題’如何開發一種體積小、製造成 本低又兼具高性能之創新移相器結構,實相關業者須再努 力研發突破之目標及方向。 有鑑於此,創作人本於多年從事相關產品之製造開發 _與設計經驗’針對上述之目楳’詳加設計與審慎評估後, 終得一確具實用性之本創作。 【新型内容】 本創作之主要目的,係在提供一種具有反向相對配置 型態電調單元之移相器,其所欲解決之問題點,係針對如 何研發出一種更具理想實用性之新式移相器結構為目標加 以創新突破; 本創作解決問題之技術特點,主要在於該移相器包括 φ ••一腔體,其容置空間包括相對之第一、第二端側;其中 該第一端側設有第一饋電構件,該第二端側設有第二饋電 構件;至少一反向相對配置式電調單元,設於腔體容置空 間中’包括第一、第二設向耦合組以及一同步連動構件所 構成;其中該第一 '第二設向耦合組分設於臨近容置空間 第一、第二端側位置處,該第一設向鋼合組包括第一活動 耦合件及第一固定耦合件,該第—活動輛合件具受動部及 耦合端,該第一固定耦合件具饋電連接部及耦合部,該饋 電連接部與第一饋電構件電性連接,該耦合部則與第一活 動耦合件之耦合端相耦合;該第二設向耦合組與第一設向 耦合組呈相互反向相對配置变態,該第二設向耦合組包括 4 M405648 ‘/第二活動耦合件及第二固定耦合件,該第二活動耦合件具 :·受動部及耦合端,該第二固定耦合件具饋電連接部及耦合 部,該饋電連接部與第二饋電構件電性連接,耦合部則與 第二活動耦合件之耦合端相耦合;該同步連動構件係藉以 同步連結帶動該第一、第二活動耦合件;一推拉元件,包 括帶動端及受動端,該帶動端係連結反向相對配置式電調 單元之同步連動構件;一蓋板,藉以封組腔體之容置空間 ,並將反向相對配置式電調單元、推拉元件加以隱藏限位 ;藉此創新獨特設計,使本創作對照先前技術而言,俾可 令移相器之使用達到設置體積空間大幅減縮、降低製造成 聲本以及構件配合、構件作動精密度有效提昇之實用進步性 【實施方式】 請參閱第1 、2 、3圖所示,係本創作具有反向相對 配置型態電調單元之移相器之較佳實施例,惟此等實施例 僅供說明之用,在專利申請上並不受此結構之限制。所述 移相器A係包括下述構成: 一腔體10,呈一扁形立體且具有開口之型態,可為金 φ屬壓鑄加上表面塗鍍手段所構成者,該腔體10 —側内凹形 成一容置空間11,該容置空間11包括相對之第一端側111 及第二端側112 ; 第一饋電構件20及第二饋電構件20B ,該第一饋電構 件20係設於該容置空間11之第一端側111 ,該第二饋電構 件20B則設於該容置空間11之第二端側112 :本實施例之 第一饋電構件20、第二饋電構件20B均包括一饋電基座21 及纜線22,其中所述饋電基座21係組設定位於臨近該容置 空間11第一端側111 、第二端側112位置處,且該饋電基 座21設有纜線穿設部23 (可為孔洞或凹槽型態者)以供纜 M405648 ’ /線22穿設; ;· 至少一反向相對配置式電調單元B ,設於該腔 容置空間11中,係包括:一第一設向耦合組30,設 該容置空間11第一端側111位置處,包括第一活動 31及第一固定耦合件32所構成,該第一活動耦合件 受動部311及一耦合端312 ,該第一固定耦合件32 電連接部321及一耦合部322 ,該饋電連接部321 一饋電構件20電性連接,該耦合部322則與該第一 合件31之耦合端312相耦合;一第二設向耦合組40 第一設向耦合組30呈相互反向相對配置型態,該第 參耦合組40包括第二活動耦合件41及第二固定耦合件 成,該第二活動耦合件41具一受動部411及一耦合 ,該第二固定耦合件42具一饋電連接部421以及一 422 ,該饋電連接部421與該第二饋電構件20B電 ,該耦合部422則與該第二活動耦合件41之耦合端 耦合;一同步連動構件50,可為一塑膠成型件,係 結該第一活動耦合件31與第二活動耦合件41,令該 第二活動耦合件31、41能夠經由該同步連動構件50 動,以改變整體移相構造的電長度,形成所需之相 _ ,又該同步連動構件50具有一受動連接部51 ; 一推拉元件60,可為一長形桿體型態者,其包 動端61以及一受動端62,其中該帶動端61係連結該 對配置式電調單元B之同步連動構件50所設受動連 ,該受動端62則延伸至移相器A外部預定位置,以 驅動裝置(如馬達)加以驅動進退; 一蓋板70,係藉以封組該腔體10之容置空間11 將該反向相對配置式電調單元B 、推拉元件60加以 位。 其中,該反向相對配置式電調單元B之第一設 組30與第二設向耦合組40可為管柱狀配合型態;其 體10之 於臨近 耦合件 31具一 具一饋 與該第 活動搞 ,與該 二設向 42所構 端412 耦合部 性連接 412相 藉以連 第一、 同步帶 位變化 括一帶 反向相 接部51 藉由一 ,並且 隱藏限 向耗合 中該第 6 M405648 活動耦合件31與第 型態 所構 端側 設口 又該 動座 定基 基座 端具 件31 平準 座81 之受 說明 ,該第 成之型 112位 120以 腔體10 la 80 包 座81與 81設有 卡槽84 、41, 置於固 上,該 動連接 藉由上 如下: 二活動耦合件41 固定耦合件32與第二固 態·,該容 置處各組 供該第— 容置空間 括. 清參閱 751藉由推拉 ^ 冓件50 (如箭號L1 、41之ϋ形 42方向作 鼻之間的電 4目位改變之 特別說 41與第一、 有絕緣介質 導電材質# 座蓋82均 間隔配置 以限位該 且藉以令 定基座81 座蓋80設 部51穿出 述結構組 第3、4 元件60之 帶動該第 、L2所示 型態設計 相對性伸 長度,如 功能目的 明的一點 第二固定 ’因此二 接觸式之 置空間11中臨近 設定位有一支座 、第一固义耗合 11中組設定位有 固定基座81及一座蓋 可為ΡΕ材料製成 且呈長形之導向 該第 上; 第 活 該座蓋82係 有一穿設口 85以 為U形 定耦合 第一端 12,該 件32 ' 一導動 82所構 的板件 槽83, 第一、 動耦合 藉以蓋 供該同 圓柱所 件42則 側111 支座12 42穿設 座組80 成,其 ,其中 該導向 第二活 件31、 合於該 步連動 構成之 為銅管 、第二 設有穿 定位; ,該導 中該固 該固定 槽83兩 動耦合 41能夠 固定基 構件50 成設計,益*名,& 就本創作之使用作動情形 圖所示,所述移相 ^縮進退位移,而 —、第二活動耦合 ),配合該第_、 ’使其朝該第—、 縮位移時,得以改 此即可實現移相器 〇 是’所述第—、第 耦合件祀、42相互 者之間屬於感應式 電性耦合狀態,特 器Α之作動,主要 能進一步透過同步 件31、41隨之移動 卓一活動耗合件 第二固定耦合件32 變整體搞合移相機 所訴求的傳輸信號 一活動耗合件3i、 轉合部位之間係設 轉合狀態’並非以 此陳明。 M4U5648The prior art g climbed, the time was not full, the PDA or the fake sometimes the quality base was covered by a large number of roads, and the old ones improved by the utilization rate were inter-inserted with a large number of holes and holes. ivi4U^648 Description: [New technical field] The number Φ system involves a phase shifter, especially an innovative structure type in which the internal phase is early and the reverse relative configuration type is used (1) in the mobile mode. In the system, because the number of end users is especially in the metropolitan area, the distribution of users shows a large density, and the change is large. This situation makes many base stations g, and the industrial area and commercial area. In fact, because of the ^ I '·; machine for the cloth will go up and down every day? There is a significant drop in the factor of the festival, which causes the load of the base station system in the area to be greatly fluctuated. The ten-use rate is low, and sometimes the load is full, which leads to the problem of reduced communication operation and waste of resources. point. $ The above problem and demand, an electric-tuning antenna replaces the conventional; 2. In the communication base station, the electric-tuning antenna can adjust the antenna 根据 according to the state of the disk area, the traffic volume, the interference phenomenon, etc., to achieve an optimized communication network. Road, service quality optimization and improvement: the advantages. The core component of the electric tune antenna is the phase shifter for the creative design. Looking at the structure design of the conventional phase shifter, there are some problems and shortcomings, such as the use of coaxial tube and transmission. As a component of the adjustment component (such as the US patent US 2, 502, 35, the volume of the phase shifter is enlarged, resulting in waste, inconvenient processing and assembly, high manufacturing cost, etc.) Another problem that is ubiquitous is that the configuration of the Bayesian is usually driven by a single push-pull member. The replay is accompanied by the machine and the first line of the network source. The space is M405648. • The ESC unit moves forward and backward. The type, however, there is still a lack of ESC performance in the use of such conventional design, and if the multi-array phase shifter is connected in series to achieve the purpose of increasing the ESC performance, it will inevitably result in the overall phase shifting device volume. Significant increase, component fit and difficulty in improving the precision of component actuation. In order to develop an innovative phase shifter structure that is small in size, low in cost and high in performance, the relevant industry players must strive to develop breakthrough targets and directions. In view of this, the creator has been engaged in the manufacturing and development of related products for many years _ and design experience. After detailed design and careful evaluation of the above-mentioned objectives, it has finally become a practical creation. [New content] The main purpose of this creation is to provide a phase shifter with reverse relative configuration type ESC. The problem to be solved is to develop a new type of ideal and practicality. The structure of the phase shifter is an innovative breakthrough for the target; the technical feature of the solution to the problem lies in that the phase shifter comprises a φ•• cavity, and the accommodating space includes the first and second end sides; wherein the The first feeding side is provided with a first feeding member, and the second end side is provided with a second feeding member; at least one oppositely oppositely configured electric adjusting unit is disposed in the cavity receiving space to include the first and the second The first set-direction coupling component is disposed adjacent to the first and second end sides of the accommodating space, and the first set-direction steel-bonding group includes a movable coupling member and a first fixed coupling member, the first movable coupling member having a driven portion and a coupling end, the first fixed coupling member having a feeding connection portion and a coupling portion, the feeding connection portion and the first feeding portion Electrical connection of components, the coupling The portion is coupled to the coupling end of the first movable coupling member; the second set coupling group and the first set coupling member are oppositely opposite each other, and the second set coupling group includes 4 M405648 '/ a second movable coupling member and a second fixed coupling member: the driven portion and the coupling end, the second fixed coupling member has a feeding connection portion and a coupling portion, the feeding connection portion and the second feeding portion The electrical component is electrically connected, and the coupling portion is coupled to the coupling end of the second movable coupling member; the synchronous linkage member drives the first and second movable coupling members by synchronous coupling; and a push-pull component includes a driving end and a driven end The driving end is connected with the synchronous interlocking member of the reverse relative configuration type electric adjusting unit; a cover plate is used to seal the accommodating space of the cavity, and the reverse relative configuration type electric adjusting unit and the push-pull element are hidden by the limit With this innovative and unique design, this creation can make the use of the phase shifter achieve a large reduction in the set volume space, reduce the manufacturing of the sound book, and the component fit and component actuation precision. Practical Improvement of Improvement [Embodiment] Please refer to Figures 1, 2, and 3 for a preferred embodiment of a phase shifter having a reverse relative configuration type ESC unit, but only these embodiments are For the purpose of explanation, the patent application is not limited by this structure. The phase shifter A comprises the following structure: a cavity 10 having a flat three-dimensional shape and having an open shape, which can be composed of gold φ die casting and surface coating means, the cavity 10 side The recessed portion defines an accommodating space 11 including an opposite first end side 111 and a second end side 112; a first feeding member 20 and a second feeding member 20B, the first feeding member 20 The second feeding member 20B is disposed on the second end side 112 of the accommodating space 11 : the first feeding member 20 and the second portion of the embodiment The feed member 20B includes a feed base 21 and a cable 22, wherein the feed base 21 is disposed adjacent to the first end side 111 and the second end side 112 of the accommodating space 11, and The feed base 21 is provided with a cable piercing portion 23 (which may be a hole or a groove type) for the cable M405648' / line 22 to be pierced; at least one reverse relative configuration type ESC B, The first accommodating coupling group 30 is disposed in the cavity accommodating space 11 and is disposed at the first end side 111 of the accommodating space 11 and includes the first activity. 31 and the first fixed coupling member 32, the first movable coupling member receiving portion 311 and a coupling end 312, the first fixed coupling member 32 electrical connection portion 321 and a coupling portion 322, the feed connection portion 321 The feeding member 20 is electrically connected, and the coupling portion 322 is coupled to the coupling end 312 of the first component 31; the second biasing coupling group 40 is disposed opposite to each other in the opposite direction. The second coupling coupling member 41 has a second movable coupling member 41 and a second fixed coupling member. The second movable coupling member 41 has a receiving portion 411 and a coupling. The second fixed coupling member 42 has a feed connection. a portion 421 and a 422, the feed connection portion 421 is electrically connected to the second feed member 20B, and the coupling portion 422 is coupled to the coupling end of the second movable coupling member 41; a synchronous linkage member 50 can be a plastic The molding member is coupled to the first movable coupling member 31 and the second movable coupling member 41, so that the second movable coupling member 31, 41 can be moved via the synchronous linkage member 50 to change the electrical length of the overall phase shifting structure to form The desired phase _, and the synchronous interlocking member 50 has a motion The connecting portion 51; a push-pull member 60, which can be an elongated rod type, the driven end 61 and a driven end 62, wherein the driving end 61 is coupled to the synchronous interlocking member of the pair of configuration type ESC B The receiving end 62 extends to a predetermined position outside the phase shifter A, and is driven to advance and retreat by a driving device (such as a motor); a cover plate 70 is used to enclose the receiving space 11 of the cavity 10. The reverse relative configuration type ESC B and the push-pull element 60 are positioned. The first set 30 and the second set coupling group 40 of the reverse relative configuration type ES unit B may be in a column-column type; the body 10 has a feed and the adjacent coupling 31. The first activity is performed by coupling the partial connection 412 to the second configuration 42 and the first synchronization band change includes a reverse contact portion 51 by one, and the hidden limit is consumed. The sixth M405648 movable coupling member 31 and the first-type configured end side opening port and the movable base fixing base end member 31 the leveling seat 81 are described. The first type 112 position 120 is enclosed by the cavity 10 la 80 The seats 81 and 81 are provided with card slots 84, 41, which are placed on the fixed side. The movable connection is as follows: The movable coupling member 41 fixes the coupling member 32 and the second solid state, and the respective positions of the accommodation are provided for the first Included in the accommodating space. Refer to 751 by pushing and pulling ^ 冓 50 50 (such as the arrow L1, 41 ϋ 42 direction for the electric 4 position change between the nose, especially 41 and the first, conductive material with insulating material #座盖82 are spaced apart to limit the position and thereby allow the base 81 to be worn by the seat cover 81 The third and fourth elements 60 of the structural group are driven to drive the relative elongation of the type shown in the first and second forms, and the second point is fixed as a function of the function. Therefore, there is a adjacent setting position in the space 11 of the two-contact type. The seat, the first solid sense 11 set position has a fixed base 81 and a cover can be made of a ΡΕ material and is elongated to guide the upper portion; the living cover 82 is provided with a through opening 85 for the U Forming a first end 12, the member 32' is a plate member 83 formed by a guide 82, the first, the dynamic coupling is provided by the cover for the same cylindrical member 42 and the side 111 is supported by the seat 12 In the case where the guiding second working member 31 is combined with the copper tube and the second positioning position is formed in the step, the two couplings 83 of the fixing groove 83 can fix the base member 50. In the design, the name of the application, as shown in the use case diagram of the creation, the phase shifting and retracting the displacement, and - the second activity coupling), with the _, 'to make it toward the first - When the displacement is reduced, the phase shifter can be realized. The first and second coupling members 祀, 42 are inductively electrically coupled to each other, and the special device can be moved further through the synchronization members 31 and 41 to move the second movable coupling. The piece 32 is integrated with the transmission signal that the camera is appealing, and the activity consuming component 3i and the switching state are set between the switching parts. M4U5648
而本創 電調單元B 第—固定耦 、第二固定 態,因此作 耗合件32之 動耦合件 狀態(即電 調移行程 動’而此種 一移相器單 <電調效果 揭移相器A 間大幅減縮 同體積與空 #電調範圍 於單一移相 態特徵,由 故構件之間 對提高,更 作設计獨特 的配置型態 合件32之間 耦合件42之 動時,當該 作動為伸長 41相對於第 長度變短) 中,就能同 作動型態相 元的設置, ,因此在相 當可令天線 ,故製造成 間條件下, 與效能大幅 器單元中設 於電調構件 的配合精密 能滿足高品 之處’主要 特徵,由於 的作動關係 間的作動關 第一活動耦 狀態時(即 —固定耗合 ;藉此而構 步產生伸長 較於習知而 就能達到等 同電調效能 裝置整體電 本相對能夠 本創作所揭 提昇之實用 置反向相對 的設置型態 度與動作精 質的要求。 在於該反向 該第一活動 ’與第二活 係為方向相 合件31相對 電長度變長 件42之作動 成在单一移 與縮短兩種 έ ,本創作 同習知多組 訴求條件下 調構件的設 顯著降低; 移相器Α則 進步性,·再 配置式電調 趨於集中且 密度、平穩 相對配置式 耦合件31、 動麵合件41 反的配置型 於第一固定 )’该第二 相對為縮短 相器中的同 相對位移運 僅須透過單 移相器單元 ,本創作所 置體積與空 而若是在相 可較習知達 者,本創作 單元B的型 密集狀態, 度等均可相 έ μ如第P圖所揭,該反向相對配置式電調單元B 1複數 ^ =置型態時,其相臨的倆反向相對配置式電調單元B之 山係呈並排式擴增設置型態;並藉由該推拉元件肋之帶動 ^ 61同時連'纟°各該反向相對配置式電調單元β之同步連動 件50以達到同步帶動複數組反向相對配置式電調單元 :作動:移,趺態;藉此並排式擴增設置型態設計,俾可 τ移相π Α把夠以較短之長度狀態達到較大電調範圍與效 能之理想結構型雜。 a另^第5圖所揭,該反向相對配置式電調單元B之第 。又向痛σ組3〇與第二設向耦合組4〇亦可為板片狀配合型 8 M405648 態’令該第 形板片所構 耦合件42B 為合^構件 理均相同於 再如第 一設向耦合 相配合之實 搞合件41C: 件32C與第 態者’此實 技術特徵與 又如第 態,且令各 由一推拉元 連動構件5〇 一活動耦合件 成之型態,該 則為直條狀板 型態之變化不 前述實施例。 6圖所揭,該 組30與第二設 施型態,令該 為U形條狀體 二固定耦合件 施例僅為耦合 作動原理均相 7圖所揭,所 該移相器A之 件60之帶動端 ’以達到同步 B 4第二活動耦合件 第一固定耦合件32B與 2所構成之型態者,此 同其餘構件技術特徵 41B 為 u 第二固定 實施例僅 與作動原 反向相對 向耦合組 第一活 動 所構成之 42c則為 構件型態 同於前述 述移相器 間呈並排 61同時連 帶動之目 配置式 40亦可 耦合件 型態, 溝槽狀 之變化 實施例 A亦可 式擴增 結各該 的。 元B之第 體與溝增 31C與第二活動 該第一固定耦合 構成之 其餘構件 電調單 為條狀 座體所 不同, 呈複數 設置型 移相器 組設置型 態,並藉 A之同步 功效說明 本創作功 本創 器」主要 置型態; ’由於該 係與第二 方向相反 定耦合件 第二固定 移相器中 相對位移 僅須透過 效增進 作所揭 技術特 藉此創 第一活 活動耦 配置型 之作動 搞合件 的同一 運動, 單一移 之事實如下 「具' 有反向 徵係在於該 新獨特設計 動耦合件、 合件、第二 態;故當該 為伸長狀態 之作動相對 調移行程中 而此種作動 相器單元的 相對配 反向相 '使本 第一固 固定耦 第一活 時,該 為縮短 就能同 型態相 設置就 置型態電調 對配置式電 創作對照先 定耦合件之 合件之間的 動轉合件相 第二活動辑 狀態,籍此 步產生伸長 較於習知而 能達到等同 單it之移相 调早7C的配 月ί)技術而 間的作動關 作動關係為 對於第一固 合件相對於 構成在單一 與縮短兩種 言,本創作 習知多組移 9 M405648 :’ :·相器單元之電調效果,因此在相同電調效能訴求條件 本創作所揭移相器可令天線裝置整體電調構件的設置 與空間大幅減縮,故製造成本相對能顯著降低;而若 相同體積與空間條件下,本創作移相器可較習知達到 範圍與效能大幅提昇之實用進步性;再者,本創作於 移相器單元中設置反向相對配置式電調單元的型態特 由於電調構件的設置型態趨於集中且密集狀態,故構 間的配合精密度與動作精密度、平穩度等均可相對提 更能滿足高品質之要求而特具實用進步性。 籲本創作可產生之新功效: 藉由該反命相對配置式電調單元呈複數組設置型 ’其相臨的倆反向相對配置式電調單元之間呈並排式 設置型態之設計,俾可令移相器能夠以較短之長度狀 到較大電調範園與效能之理想結構型態。 上述實施例所揭示者係藉以具體說明本創作,且 雖透過特定的術語進行說明,當不能以此限定本新型 之專利範圍;熟悉此項技術領域之人士當可在瞭解本 之精神與原則後對其進行變更與修改而達到等效目的 _此等變更與修改’皆應涵蓋於如后所述申請專利範圍 定之範疇中。 下, 體積 是在 電調 90 早~ 徵, 件之 rij , 態時 擴增 態達 文中 創作 創作 ,而 所界 10 M405648 【圖式簡單說明】 第1圖:本創作移相器較佳實施例之組合立體圖。 第2圖:本創作移相器較佳實施例之分解立體圖。 第3圖:本創作之電調單元作動狀態圖一。 第4圖:本創作之電調單元作動狀態圖二。 第5圖:本創作之耦合構件為板片狀配合型態之實施例圖 〇 第6圖:本創作之耦合構件為條狀體與溝槽相配合型態之 實施例圖。 第7圖:本創作之移相器呈複數組並排同動之實施例圖。 【主要元件符號說明】 移 相 器 A 腔 體 1 〇 容 置 空 間 1 1 第 一 端 側 1 1 1 第 二 端 側 1 1 2 支 座 1 2 穿 設 口 1 2 0 第 一 饋 電 構 件 2 0 第 二 饋 電 構 件 2 0 B 饋 電 基 座 2 1 纜 線 2 2 纜 線 穿 ό又 部 2 3 反向相對配置式電調單元 B 第一設向耗合組 3 0The inductive ESC unit B is first-fixed and second-fixed, so the state of the dynamic coupling member of the consumable member 32 (ie, the electric shifting stroke movement) and such a phase shifter single < The phase shifter A greatly reduces the same volume and space #电调范围 in a single phase shifting feature, and the component is improved between the components, and the designing state of the coupling member 32 is more uniquely designed. When the actuation is the elongation 41 is shorter than the first length, the setting of the phase element can be the same as that of the actuator, so that the antenna can be made in an inter-conditional manner, and the performance of the large unit is The matching precision of the ESC component can satisfy the main feature of the high-quality part, because the actuation between the actuation relationships is close to the first active coupling state (ie, the fixed coupling; thereby the elongation of the configuration is better than the conventional one. The requirement that the overall power of the equivalent ESC device can be compared with the practical attitude of the creation of the reverse relative setting attitude and action quality is that the first activity and the second activity are opposite. phase The movement of the fitting 31 relative to the electric length variable member 42 is a single movement and a shortening of the two types. The creation of the assembly is significantly reduced with the conventional set of requirements for the lowering of the component; the phase shifter is progressive, and the reconfigurable electric The convection is concentrated and the density, the smooth relative configuration coupling 31, the movable surface assembly 41 is opposite to the first fixing), and the second relative relative displacement in the phase shortening device only needs to pass through the single phase shifting The unit is set to be empty and empty. If the phase is more familiar, the type B of the authoring unit B can be inconsistent. For example, as shown in Fig. P, the reverse relative configuration type When the unit B 1 is complex ^ = set, the adjacent two opposite-phase relative-type ESC units are in a side-by-side type of amplification; and by the push-pull element ribs Even the synchronous linkage 50 of the reverse relative configuration type ESC unit is used to synchronously drive the complex array reverse relative configuration type tonal unit: actuation: shift, 趺 state; thereby side by side amplification setup type State design, 俾 τ 移 phase shift π Α The length of the state to achieve greater energy efficiency and the power adjustment range of over structural heteroaryl. a is shown in Fig. 5, the reverse relative configuration of the ESC unit B. Further, the pain σ group 3 〇 and the second directional coupling group 4 〇 can also be a plate-like type 8 M 405 648 state, so that the first plate-shaped coupling member 42B is the same as the same component. A combination of the coupling and the matching member 41C: the member 32C and the first state of the 'the technical features and the second state, and each of the push-pull element linkage member 5 a movable coupling member, This is a change in the shape of the straight strip without the foregoing embodiment. 6 is shown in the figure, the set 30 and the second facility type, so that the U-shaped strip-shaped two fixed coupling members are only disclosed by the coupling operation principle, and the phase shifter A is 60. The driving end 'to achieve the synchronization B 4 second movable coupling member first fixed coupling members 32B and 2, the same component technical feature 41B is u. The second fixed embodiment is only opposite to the original driving reverse The 42c formed by the first activity of the coupling group is a member type 40 which is in the same manner as the side-by-side arrangement of the phase shifter 61. The configuration of the groove type can also be a coupling type. The amplification can be performed separately. The first body and the groove increase 31C of the element B and the second component of the first fixed coupling are different from the bar type seat body, and are in the form of a plurality of sets of phase shifter sets, and are synchronized by A Efficacy Description This creation is the main type of creation; 'Because the system is opposite to the second direction, the relative displacement in the second fixed phase shifter is only required to be transmitted through the effect of the enhancement. The same movement of the movable coupling configuration type, the fact that the single movement is as follows: "There is a reverse sign in the new unique design of the dynamic coupling, the fitting, the second state; therefore, it is the extended state. Actuating the relative shift phase in the relative shifting stroke and the relative phase of the phase of the phase shifter unit makes the first solid fixed coupling first active, which can be shortened to form the same type of phase setting. The electric creation is compared with the second active state of the moving and rotating parts between the fittings of the predetermined coupling members, and the step is to generate the matching month which is 7C earlier than the conventional one. )technology The actuating relationship between the two is as follows: for the first solid part, the composition of the single and the shortened two, the creation of the multi-group shift 9 M405648: ': · phaser unit of the ESC effect, so the same EDM performance Requirements The phase shifter disclosed in this paper can greatly reduce the installation and space of the overall ESC components of the antenna device, so the manufacturing cost can be significantly reduced. However, if the same volume and space conditions, the original phase shifter can be known. The practical progress of achieving a significant increase in range and performance; in addition, the type of the reverse relative configuration type ESC unit is set in the phase shifter unit, and the setting type of the electromodulation member tends to be concentrated and dense. Therefore, the precision of the fit between the structure and the precision and smoothness of the motion can be compared with the requirements of high quality, which is particularly practical and progressive. The new effect that can be created by this creation: With the opposite configuration The ESC unit is in the form of a complex array setting. The two adjacent reverse-configured ESCs are arranged side by side. This allows the phase shifter to be shorter. The ideal structure of the gradation to the larger electric field and the efficiency. The above embodiments disclose the creation of the creation, and although the specific terms are used, the scope of the patent cannot be limited by this; Those skilled in the art can change and modify the spirit and principles of this invention to achieve an equivalent purpose. These changes and modifications should be included in the scope of the patent application as described later. Next, the volume is in the ES 90 early ~ sign, the piece of rij, the state of the expansion state of the text creation, and the boundary 10 M405648 [schematic description] Figure 1: the preferred embodiment of the creative phase shifter A combined perspective view. Fig. 2 is an exploded perspective view of a preferred embodiment of the present phase shifter. Figure 3: The actuation state diagram of the ESC unit of this creation. Figure 4: The actuation state of the ESC unit of this creation is shown in Figure 2. Fig. 5 is a view showing an embodiment of the coupling member of the present invention in the form of a plate-like fit. Fig. 6: The coupling member of the present invention is an embodiment of a pattern in which the strip-shaped body and the groove are fitted. Figure 7: The phase shifter of this creation is an example of a complex array of parallel arrays. [Description of main component symbols] Phase shifter A Cavity 1 〇 accommodating space 1 1 First end side 1 1 1 Second end side 1 1 2 Support 1 2 Opening port 1 2 0 First feed member 2 0 Second feed member 2 0 B Feed base 2 1 Cable 2 2 Cable through and rear part 2 3 Reverse relative configuration type ESC unit B First set direction consumable group 3 0
第一活動耦合件 31、31B、31C 受動部 311 轉合端 312The first movable coupling member 31, 31B, 31C the driven portion 311 the turning end 312
第一固定耦合件 32、32B、32C 11 M405648 •:饋電連接部 :·耦合部 第二設向搞合組 第二活動搞合件 受動部 耦合端 第二固定耦合件 饋電連接部 耗合部 同步連動構件 鲁受動連接部 推拉元件 帶動端 受動端 蓋板 導動座組 固定基座 座蓋 導向槽 Φ卡槽 穿設口 c C 一—12 4 4 ,' B B 1± CV1 4 4 IX 〇0 、 1—i 00 、 220111222010120012345 334444444556667888888 12The first fixed coupling member 32, 32B, 32C 11 M405648 •: the feeding connection portion: the second coupling portion of the coupling portion, the second movable engagement member, the coupling portion, the second fixed coupling member, the feeding connection portion Simultaneous interlocking member Lu pusher connection push-pull element drive end driven end cover guide seat set fixed base cover cover slot Φ card slot through port c C - 12 4 4 , ' BB 1± CV1 4 4 IX 〇 0, 1—i 00, 220111222010120012345 334444444556667888888 12