M338891 八、新型說明: 【新型所屬之技術領域】 本創作係關於窗戶(門)/窗簾的整合及傳動方式的改 . 良,是一種可遙控自動及手動啟閉的窗戶(門)及窗簾的組 合。 w 【先前技術】 一·查國内公告第493685號(DIY式窗戶自動感測,定 • 時自動開關驅動裝置)新型專利,可供使用者自行裝設於窗 戶上,缺點為1·造型不雅觀,影響窗戶的簡單美感及室内 裝潢不協調。2·齒條及齒輪皆露於外部,容易造成碰觸的 ,危險,而且容易灰塵沾附造成清理不易及故障。所以此設 叶接受度推廣不易,有很大的改良空間。 二·查國内公告第M269340號(可自動/遙控啟閉的窗戶) 新型專利,為驅動裝置接受指令而使電磁鐵離合器(32), 鲁 作用帶動齒輪(21)達到可驅動滾輪(13)而使窗戶移動。此 裝置缺點有;齒輪結構複雜,容易造成故障,如故障後修 理不易,又故障後不能變為手動繼續使用窗戶,極為不便, 推廣不易,有很大的改良空間。 三·以上二者皆為機械接觸傳動,有磨損損壞及嗓音的 缺點。 M338891 【新型内容】 本創作為一種可遙控自動或手動啟閉的窗戶(門)及 窗簾的組合,使開關窗戶(門)或窗簾不用親自走到窗戶(門) 、或窗簾旁邊手動開閉的麻須,即可遠距離遙控開閉的方便 ^性,其驅動結構隱藏化,無外凸結構設計,可保有原來窗 戶(門)及窗簾的原型,其主要技術為窗戶(門)的上下水平 執道框内設有四組電磁鐵組,第—細電磁鐵及第二組電磁 _鐵控職簾左右的關’第三組電磁概f四組電磁鐵控 制窗戶(門)左右的啟閉,當遙控器傳達指令經微處理器, 使電磁鐵依序通電產生磁力與窗戶(門)及窗簾的永久磁鐵 互吸而產生磁拉力,進而使窗戶(門)及窗簾產生移動達 到啟閉的功能,又當電磁鐵無通電時便可成為手動使用, 全部設計為隱藏式及無機械接觸,不會有灰塵沾附及機械 磨損故障等缺點。本創作可另附加其它功能為可長距離電 _話控制,下雨天及需要防盜時’無需要啤查看的便利性, 又可λ瓦斯警報盗;振動感應器;攝景多鏡頭;電鎖等防盜功 能,如-機構作用就馬上啟動本機構運作及警報器或通知 遠距離的人員以知現狀。 M338891 【實施方式】 本創作為一種創新型可遙控自動及手動啟閉的窗戶 (門)及窗簾的組合,其結構有四種,其各代表圖請參閱第 一圖,第二圖,第四圖及第六圖所示。 第一圖為第一種結構的型式,該窗戶(28)/窗簾(29) 結構主要有: 於上下水平框内四個軌道(24)(25)(26)(27)設置四組 • 電磁鐵(14)(15)(16)(丨7),第一組電磁鐵(14)及第二组電磁鐵 (15)於上水平第一個軌道(24)從中間(23)左右分開沿窗簾滑 動器(18)(19)滑動方向成行設置,第三组電磁鐵(16)及第四組 電磁鐵(17)上下水平框内第三個執道(26)及第四個軌道(27) 沿窗(門)扇(28)移動方向成行設置,另於窗(門)扇(28)上下緣 内及窗簾滑動器(18)(19)上緣各設有一永久磁鐵(21)(2〇)。 一微處理器(11)為接受遙控器(13)的指令使磁鐵組 • (14)(15(16)(17)依序通電產生磁力或不通電便失磁達到窗 戶(門)/窗簾遙控自動及手動啟閉的功能。 一家用電壓(12)為供應電磁鐵組(14)(15)(16)(17) ;無線接收器(10);微處理器(11)及防盜系統等的動能。 M338891 第一圖實施之功能說明如下·· 當遙控器(13)經無線接收器(1〇)傳達指令於微處理器 使第一組電磁鐵(14)由右至左第b,c,d,E號電磁鐵通電 、 產生磁力與窗簾滑動器(丨8)上緣的永久磁鐵(2〇)互吸產生 磁拉力,後電磁鐵組(14)上第c,D,E,F號電磁鐵(以此 類推)通電產生磁力與窗簾滑動器(18)上緣的永久磁鐵(20) 互吸產生磁拉力,而電磁鐵組(14)上的a,B,C,D,E,F, _ G,Η,I ’ J ’ K ’ L......號電磁鐵依序4組通電產生磁力如 此窗簾滑動器(18)就能由右向左順著執道移動達到窗簾由 右向左開的功能,而當窗簾滑動器(18)要由左向右關的功 能時,其第一組電磁鐵(14)作用方式與窗簾開的時候電磁 鐵(14)作用方向相反就可達到由左向右關的功能,而右邊 的窗簾滑動器(19)由左至右滑動的作用方式與左邊窗簾滑 動姦(18)作用方式相同,但方向相反,而二組電磁鐵 • (14)(15)和窗簾滑動器(18X19)—起運作就能使窗簾由中 間向左右開閉的效果。 M338891 弟一圖為弟一種自簾結構的型式,該窗戶(28)/窗簾 (29)結構主要有: 上下水平框内四個執道設置三組電磁鐵(14)(16)(17),第 一組電磁鐵(14)於上水平第一個軌道(24)窗簾滑動器 (18)(19)滑動方向成行設置,第三組電磁鐵(16)及第四組 電磁鐵(17)設於上下水平框内帛三個軌道⑽)及第四個執 道(27)沿窗(門)扇(28)移動方向成行設置,另於窗(門)扇 • (28)上下框緣内及窗簾滑動器(18)(19)上緣各設有一永久 磁鐵(21)(20)。 一微處理器(11)為接受遙控器(13)的指令使電磁鐵組 (14)(16)(17)依序通電產生磁力或不通電便失磁達到窗戶 (門)/窗簾$控自動及手動啟閉的功能。 一家用電壓(I2)為供應電磁鐵組(14)(16)(17) ’無線接收器(10);微處理器(11)及防盜系統等的動能。 M338891 第二圖實施之功能說明如下: 當遙控器(13)經無線接收器(10)傳達指令於微處理器(u) 使第一組電磁鐵(14)由右至左第B,c,D,E號電磁鐵通電 產生磁力與窗簾滑動器(19)上緣的永久磁鐵(20)互吸產生 磁拉力’後電磁鐵組(14)上第C,D,E,F號電磁鐵(以此 類推)通電產生磁力與窗簾滑動器(19)上緣的永久磁鐵(2〇) 互吸產生磁拉力,而電磁鐵組(14)上的a,b,c,d,E,F, G ’ H ’ 1 ’ J ’ K,L……號電磁鐵依序4個通電產生磁力如 此固簾滑動裔(19)就能由右向左順著執道移動達到窗簾由 右向左開的功能,而當窗簾滑動器(18)要由左向右開的功 月bk ’其弟一組電磁鐵(14)作用方式為由左向右四個依序 通電就可與窗簾滑動器(18)上緣的永久磁鐵(2〇)產生磁拉 力達到由左向右開的功能’所以此結構為可從兩侧獨立運 作就能使窗簾從左右兩端各自獨立達到開閉的效果。 M338891 第四圖及第五圖為第三種窗簾結構的型式’該窗戶 (28)/窗簾(29)結構主要有: ~ ' 第-組電磁鐵(14)及第二組電磁鐵⑽非置於窗戶⑽頂 . 部外框内緣的軌道内,而與第三組電磁鐵(16)平行設置於 .窗戶⑺)(28)外框的頂部前面,作為窗簾獨立的運作軌 道,窗簾軌道框頂部與窗戶(門)⑽外桓的頂部相連,第 -組電磁鐵(14)及第二組電磁鐵(⑸於窗簾滑動執道(24) φ 從中間(23)左右分開沿窗簾滑動器⑽⑽滑動方向成行 «又置,第二組電磁鐵(16)及第四組電磁鐵(I?)設於窗戶 (門)(28)上下水平翻由上而下數第—個執道及第二個軌 逼沿窗(門)扇(28)移動方向成行設置,另於窗(門)扇(28) 上下框緣内及窗簾滑動器(18)(19)上緣各設有一永久磁鐵 (21)(20)。 一微處理器(11)為接受遙控器(13)的指令使磁鐵組 _ (14)(15)(16)(17)依序通電產生磁力或不通電便失磁達到 自戶(門)/窗簾遙控自動及手動啟閉的功能。 一家用電壓(12)為供應電磁鐵組(14)(15)(16)(17) ;無線接收器(10);微處理器(11)及防盜系統等的動能。 第四圖實施之功能說明如下: 其運作方式與第一圖的第一種新型實施方式相同,目的也 相同。 11 M338891 第六圖及第七圖為第四種窗簾結構的型式,該窗戶 (28)/窗簾(29)結構主要有: 第一組電磁鐵(14)非置於窗戶(28)頂部外框内緣的轨道 内’而與第三組電磁鐵(16)平行妓於窗戶⑻⑽)外框 ‘ 的頂部前面,作為窗簾獨立的運作軌道,窗簾軌道框頂部 與自戶(門)(28)外框的頂部相連,第一組電磁鐵⑽於窗 簾轨迢(24)從左右沿窗簾滑動器(⑻(19)滑動方向成行設 ⑩置,第二組電磁鐵(16)及第四組電磁鐵(17)設於窗戶 (門)(28)上下水平框内由上往下數第一個軌道及第二個軌 迢沿窗(門)扇(28)移動方向成行設置,另於窗(門)扇(28) 上下框緣内及窗簾滑動器⑽(19)上緣各設有-永久磁鐵 (21)(20)。 一微處理器(11)為接受遙控器(13)的指令使磁鐵組 (14)(16)(17)依序通電產生磁力或不通電便失磁達到窗戶 φ (門)/窗簾遙控自動及手動啟閉的功能。 一家用電壓(12)為供應電磁鐵組(14)(16)(17) ;無線接收器⑽;微處理器⑴)及防盜系統等的動能。 第六圖實施之功能說明如下·· 其運作方式與第二圖的第二種新型實施方式相同,目的也 相同。 12 M338891 。第八圖及第九圖為窗戶(門)(28)(32)的實施之功能 說明如下: 第人_運作方式,當遙控器(13)經無線接收器⑽ 傳達指令於微理器(11)使第-la電磁鐵(⑷及第二組電磁 ^ 鐵⑽由右至左第β,C,D,E號通電產生磁力與窗戶⑽) 内緣的永久磁鐵⑻互吸產生磁拉力,後第一組電磁鐵⑽ 及第二組電磁鐵(17)上第c,D,E,F號通電產生磁力,與 • 窗戶(門)(28)上下框内緣的永久磁鐵(21)互吸再產生磁拉 力,而第一組電磁鐵(16)及第二組電磁鐵(17)上的A,B,C, D EF G H I’J’K’ L......號的電磁鐵依序4組通電 產生磁力,如此窗戶(門)(28)就能由右向左順執道移動達 到由右至左移動啟閉的功能。 弟九圖的運作方式,當遙控器(13)經無線接收器(⑴) 傳達指令於微理器(11)使第一組電磁鐵(14)及第二組電磁 • 鐵(17)由右至左第B,C,D,E號通電產生磁力與窗戶(28) 内緣的永久磁鐵(21)互吸產生磁拉力,後第一組電磁鐵(μ) 及第二組電磁鐵(15)上第C,D,E,F號通電產生磁力,與 窗戶(門)(28)上下框内緣的永久磁鐵(21)互吸再產生磁拉 力,而第一組電磁鐵(14)及第二組電磁鐵(15)上的A,B,C, D’E’F,G,H,I,J,K,L……號的電磁鐵依序4組通電 產生磁力,如此窗戶(門)(28)就能由右向左順軌道移動達 到由右至左移動啟閉的功能,而左邊的窗戶(32)作用方式 13 M338891 與右邊的作財法相同,但方向相反 ,效果相同。 第十圖的結構型式,該窗戶(門χ28)結構主要有: 上下水平框内二個執道,設置二組永久磁鐵(21),依窗戶 •的/月订方向成行設置,另於窗(門)扇(28)上下緣框各設有 二組電磁鐵(14)(15)。 微處理為(Η)為接受遙控器(13)的指令使電磁鐵組 (⑷(15)依序通電產生磁力或不通電便失磁達到窗戶(門) • (28)遙控自動及手動啟閉的功能。 一家用電壓(12)為供應電磁鐵組(14)(15);無線接收 恭(10);微處理器(11)及防盜系統等的動能。 第十圖實施之功能說明如下: 當遙控器(13)經無線接收器(10)傳達指令於微理器(11)使電 磁鐵組(14)(15)上的E卜E2電磁鐵依序交叉通電產生磁力 _ 與上下水平框内二個軌道的二組永久磁鐵(21)N1、S1、 S2、N3、S3、Μ、S4、N5、S5的正負極磁場交互作用產生 磁拉力’就此使窗戶(門)(28)由右向左順著執道移動達到 由右向左開的功能。 而以上四組結構窗戶(門)(28)(32)/窗簾(29)皆可由遙控 器(13)經由微處理器(11)使窗戶(門)(28)(32)/窗簾(29) 達到同時運作及獨立運作的效果,而此結構簡單化,造型 隱藏式,沒有齒輪及馬達接觸傳動產生磨損及噪音的缺點。 14 M338891 弟十一圖及第十二圖的結構型式及實施之功能,該 窗戶(門)(28)結構主要有: 與第八圖及第十圖的結構及實施之功能大致相同 ,不同點 • 為没置於上下水平窗戶框内的永久磁鐵(21)或電磁鐵 (14)(15)改變成與上下水平軌道框内的電磁鐵(14)(15)或 永久磁鐵(21)設置獨立的滑動機構(33)而與窗戶(28)間接 用卡榫(31)連接而使窗戶產生移動。 • 第十三圖及第十四圖的結構型式及實施之功能說明 如下: 該_戶(門)(28)結構主要有上下水平框内有一個窗戶⑽ 及上下二個連桿(36)騎接馬達⑽與S戶⑽,當遙控 器(13)經無線接收器⑽傳達指令於微理帥)使馬達㈤ 轉動帶動連桿(36)使窗戶(28)α活動栓(35)為中心向外推開 及關閉。 #由上述五種可遙控自域手級_窗戶(門)及窗簾的組 合,所指的長距離控制可運用有線或無線電話系統,而由 -個受信純被設置在室似接收魏絲職話系統之 指令,授信系統可進-步將指令轉換訊號發送出,經無線 接收器(10)接收並傳達指令於微處理器(11),因可長距離 電話控制齒戶(門)/_簾,下雨天即需要防盜時,無需回家 查看的便利性,又可設瓦斯警報器,振動感應器,電鎖, 攝影鏡稱防盜魏,如其中—機構伽就馬上啟動機構 M338891 及警報器或通知遠距離的人員以警示作用。 由以上詳細說明,可錢知本項技藝者得㈣瞭本實 用新型確實可達成前述目的,亦符合新型新穎性及進步性 • 特件,依法具文提出中請;而所揭示之實施例是用以說 明本實用新型,而非用以拘限本實用新型,故舉凡數值之 變更或等效元件之替換等仍應隸屬本實用新型之範疇,例 如窗戶(門)轨道與窗簾執道沒有同外框串聯並疊以並排方 ⑩式(可兩組窗簾執道以上並排)或窗簾滑動器數目之增加及 窗(門)扇數目之增加(兩個窗(門)扇以上同執道並排),其 運用方式仍能具備本實用新型之功效。 【圖式簡單說明】 第一圖·為第一種結構窗戶(門)/窗簾各項元件位置圖。 第一圖·為第二種結構窗戶(門)/窗簾各項元件位置圖。 第—圖·為第一種結構及第二種結構窗簾各項元件正視 馨 圖與側視圖。 第四圖·為弟二種結構窗戶(門)/窗簾各項元件位置爵。 第五圖·為第三種結構窗簾正視圖、上視圖與側視圖。 第/、圖·為第四種結構窗戶(門)/窗簾各項元件位置圖。 第七圖·為第四種結構窗簾正視圖、上視圖與側視圖。 第八圖·為窗戶(門)各項元件位置圖。 第九圖··為另一種窗戶(門)各項元件位置圖。 軒圖·為另一種運作方式相似的窗戶(門)各項元件位置圖。 M338891 第十SKA)·為與第八圖結構運作方式相似的 元件位置圖。 囷()為第十一圖(A)結構剖面側视圖。 圖(A).為與第十圖結構運作方式相似的窗戶(門)各項 窗戶(門)各項 第十 元件位置圖M338891 VIII. New description: [New technical field] This creation is about the integration of windows (doors)/curtains and the modification of transmission modes. Good, it is a window (door) and curtain that can be opened and closed automatically and manually. combination. w [Prior technology] 1. Check the domestic announcement No. 493685 (DIY-style window automatic sensing, fixed-time automatic switch drive device) new patent, which can be installed by users on the window. The disadvantage is that the shape is not Elegant, affecting the simple beauty of the window and the uncomfortable interior decoration. 2. Both the rack and the gear are exposed to the outside, which is easy to cause touch, dangerous, and easy to be contaminated by dust, which is difficult to clean and malfunction. Therefore, it is not easy to promote the acceptance of this leaf, and there is a lot of room for improvement. 2. Check the domestic announcement No. M269340 (automatic/remote-controlled opening and closing window) A new patent, the electromagnet clutch (32) is driven by the drive device, and the gear (21) is driven to reach the driveable roller (13). And make the window move. The disadvantages of this device are that the gear structure is complicated and it is easy to cause malfunctions. For example, it is not easy to repair after the fault, and it cannot be changed to manually continue to use the window after the fault. It is extremely inconvenient, the promotion is not easy, and there is much room for improvement. 3. Both of the above are mechanical contact transmissions, which have the disadvantages of wear and tear and noise. M338891 [New Content] This creation is a combination of windows (doors) and curtains that can be automatically or manually opened and closed, so that the switch windows (doors) or curtains do not need to go to the windows (doors) or the curtains to open and close manually. It must be able to remotely open and close remotely. Its drive structure is concealed, and there is no convex structure design. It can keep the original window (door) and the prototype of the curtain. The main technology is the upper and lower horizontal of the window (door). There are four sets of electromagnets in the frame, the first-thin electromagnet and the second group of electromagnetic_iron control curtains are left and right. The third group of electromagnetics f four sets of electromagnets control the opening and closing of the windows (doors). The remote controller transmits commands to the microprocessor, so that the electromagnets are sequentially energized to generate magnetic force and mutual attraction between the windows (doors) and the permanent magnets of the curtains to generate magnetic pulling force, thereby causing the windows (doors) and the curtains to move to achieve the function of opening and closing. When the electromagnet is not energized, it can be used manually. All are designed to be concealed and have no mechanical contact, and there are no defects such as dust adhesion and mechanical wear failure. This creation can be supplemented with other functions for long-distance power control, rainy days and when anti-theft is required. 'No need for beer viewing convenience, λ gas alarm burglary; vibration sensor; multi-lens for shooting; electric lock, etc. Anti-theft features, such as - the role of the organization will immediately start the operation of the organization and alarms or notify remote personnel to know the status quo. M338891 [Embodiment] This creation is an innovative combination of remote control automatic and manual opening and closing of windows (doors) and curtains. There are four types of structures. For each representative figure, please refer to the first figure, the second picture, and the fourth. Figure and Figure 6. The first picture shows the type of the first structure. The window (28) / curtain (29) structure mainly has: Four sets of four tracks (24) (25) (26) (27) in the upper and lower horizontal frame • Electromagnetic Iron (14) (15) (16) (丨7), the first group of electromagnets (14) and the second group of electromagnets (15) are separated from the middle (23) by the first horizontal track (24) The curtain sliders (18) (19) are arranged in a row in the sliding direction, and the third group of electromagnets (16) and the fourth group of electromagnets (17) are arranged in the upper and lower horizontal frames of the third lane (26) and the fourth track (27). ) Set along the moving direction of the window (door) fan (28), and set a permanent magnet (21) in the upper and lower edges of the window (door) fan (28) and the upper edge of the curtain slider (18) (19) (2) 〇). A microprocessor (11) accepts the remote control (13) to make the magnet group • (14) (15 (16) (17) sequentially energize to generate magnetic force or de-energize when not energized to reach the window (door) / curtain remote control Automatic and manual opening and closing function. A household voltage (12) is supplied to the electromagnet group (14) (15) (16) (17); wireless receiver (10); microprocessor (11) and anti-theft system, etc. M338891 The function of the first figure is as follows: · When the remote control (13) transmits a command via the wireless receiver (1〇) to the microprocessor, the first group of electromagnets (14) is turned from right to left, b, c , d, E electromagnet energized, magnetic force generated and the permanent magnet (2〇) on the upper edge of the curtain slider (丨8) mutual attraction to generate magnetic pulling force, the rear electromagnet group (14) on the c, D, E, F The electromagnet (and so on) energizes to generate a magnetic force that interacts with the permanent magnet (20) at the upper edge of the curtain slider (18) to produce a magnetic pull, while a, B, C, D, E on the electromagnet set (14) , F, _ G, Η, I ' J ' K ' L... The electromagnet is energized in groups of 4 to generate a magnetic force so that the curtain slider (18) can be moved from right to left along the way Curtains open from right to left Function, and when the curtain slider (18) is to be turned from left to right, the first group of electromagnets (14) can be operated in the opposite direction to the electromagnet (14) when the curtain is opened. Right-off function, while the right curtain slider (19) slides from left to right in the same way as the left curtain slides (18), but in the opposite direction, and two sets of electromagnets • (14)(15) With the curtain slider (18X19), the curtain can be opened and closed from the middle to the left and right. M338891 The younger brother is a self-curtain type. The window (28) / curtain (29) structure mainly includes: Three sets of electromagnets (14) (16) (17) are arranged in the horizontal frame, and the first group of electromagnets (14) slides on the upper horizontal first track (24) curtain sliders (18) (19). The direction is set in rows, the third group of electromagnets (16) and the fourth group of electromagnets (17) are arranged in the upper and lower horizontal frames, three tracks (10), and the fourth (27) along the window (door) fans (28). The moving direction is set in rows, and is also provided in the window (door) fan (28) in the upper and lower frame edges and on the upper edges of the curtain sliders (18) and (19). The permanent magnet (21) (20). A microprocessor (11) receives the command of the remote controller (13) to cause the electromagnet group (14) (16) (17) to be energized sequentially to generate magnetic force or de-energize when not energized to reach the window (door) / curtain control automatically And manual opening and closing function. A household voltage (I2) is the kinetic energy of the electromagnet group (14) (16) (17) 'wireless receiver (10); microprocessor (11) and anti-theft system. The function of the second figure implementation of M338891 is as follows: When the remote controller (13) transmits the command to the microprocessor (u) via the wireless receiver (10), the first group of electromagnets (14) is right to left, B, c, D, E electromagnet energized to generate magnetic force and the permanent magnet (20) on the upper edge of the curtain slider (19) mutual attraction to generate magnetic pull force 'after the electromagnet group (14) on the C, D, E, F electromagnet ( By analogy, the magnetic force generates a magnetic force and the permanent magnet (2〇) at the upper edge of the curtain slider (19) absorbs magnetic force, and a, b, c, d, E, F on the electromagnet group (14), G ' H ' 1 ' J ' K, L... The electromagnets are energized in sequence by 4 energies to produce a magnetic force. The sliding curtains (19) can be moved from right to left and the curtains are opened from right to left. Function, and when the curtain slider (18) is to be turned from left to right, the power of the moon bk 'the other group of electromagnets (14) acts in the same way from the left to the right four sequentially energized with the curtain slider (18 The permanent magnet (2〇) on the upper edge produces the magnetic pull force to the function of opening from left to right. Therefore, the structure can be operated independently from both sides to make the curtains from the left and right ends. Independently achieve the effect of opening and closing. M338891 The fourth and fifth figures are the third type of curtain structure. The window (28) / curtain (29) structure mainly includes: ~ 'The first set of electromagnets (14) and the second set of electromagnets (10) are not set. In the track of the inner edge of the outer frame of the window (10), and in parallel with the third group of electromagnets (16), in front of the top of the outer frame of the window (7)) (28), as a separate operation track of the curtain, the curtain track frame The top is connected to the top of the outer door of the window (door) (10), the first group of electromagnets (14) and the second group of electromagnets ((5) are in the curtain sliding way (24) φ separated from the middle (23) left and right along the curtain slider (10) (10) The sliding direction is in a row «reset, the second group of electromagnets (16) and the fourth group of electromagnets (I?) are placed on the window (door) (28) horizontally up and down from the top to the bottom - the first and second The rails are arranged along the moving direction of the window (door) fan (28), and a permanent magnet is provided in the upper and lower frame edges of the window (door) fan (28) and the upper edge of the curtain slider (18) (19). (20) A microprocessor (11) receives the command from the remote controller (13) to energize the magnet group _ (14) (15) (16) (17) in sequence to generate a magnetic force or de-energize when not energized. (door) / curtain remote control automatic and manual opening and closing function. A household voltage (12) is supplied to the electromagnet group (14) (15) (16) (17); wireless receiver (10); microprocessor (11 The kinetic energy of the anti-theft system, etc. The function of the implementation of the fourth figure is as follows: The operation mode is the same as the first new embodiment of the first figure, and the purpose is the same. 11 M338891 The sixth picture and the seventh picture are the fourth type. The type of curtain structure, the window (28) / curtain (29) structure mainly includes: the first group of electromagnets (14) are not placed in the track of the inner edge of the outer frame of the top of the window (28) and the third group of electromagnets (16) Parallel to the front of the top of the window (8) (10)), as the independent operation track of the curtain, the top of the curtain track frame is connected to the top of the frame of the home (door) (28), and the first group of electromagnets (10) are in the curtain The rudder (24) is arranged in the row from the left and right along the curtain slider ((8) (19), and the second group of electromagnets (16) and the fourth group of electromagnets (17) are arranged above and below the window (door) (28) The first track and the second track in the horizontal frame are arranged along the moving direction of the window (door) fan (28), and Window (door) fan (28) The upper edge of the upper and lower frame edges and the upper edge of the curtain slider (10) (19) are provided with permanent magnets (21) (20). A microprocessor (11) accepts the remote control (13). The command causes the magnet group (14)(16)(17) to be energized sequentially to generate magnetic force or de-energize when not energized to achieve the function of window φ (door)/curtain remote control automatic and manual opening and closing. A household voltage (12) is for supplying electromagnetic The kinetic energy of the iron group (14) (16) (17); the wireless receiver (10); the microprocessor (1)) and the anti-theft system. The function of the sixth figure is explained as follows: The operation mode is the same as the second new embodiment of the second figure, and the purpose is the same. 12 M338891. The eighth and ninth diagrams show the function of the implementation of the window (door) (28) (32) as follows: The first person _ operation mode, when the remote controller (13) transmits instructions to the microprocessor via the wireless receiver (10) (11) The mutual magnet (8) that causes the first-electromagnet ((4) and the second group of electromagnets (10) to be energized from right to left, β, C, D, E to generate magnetic force and the inner edge of the window (10)) generates magnetic pulling force. The first group of electromagnets (10) and the second group of electromagnets (17) energize the c, D, E, and F numbers to generate magnetic force, and the permanent magnets (21) on the inner edge of the upper and lower frames of the window (door) (28) are attracted to each other. Reproducing the magnetic pull, and the electromagnetics of the first group of electromagnets (16) and the second group of electromagnets (17) are A, B, C, D EF GH I'J'K' L... The iron is energized in groups of 4 to generate magnetic force, so that the window (door) (28) can be moved from right to left to achieve the function of moving from right to left. In the operation mode of the nine-figure, when the remote controller (13) transmits a command to the microprocessor (11) via the wireless receiver ((1)), the first group of electromagnets (14) and the second group of electromagnetic irons (17) are right. To the left, the B, C, D, and E energizations generate magnetic force and the permanent magnets (21) at the inner edge of the window (28) absorb each other to generate magnetic pulling force, and the first group of electromagnets (μ) and the second group of electromagnets (15) ) The first C, D, E, and F energization generates a magnetic force, and the permanent magnet (21) on the inner edge of the upper and lower frames of the window (door) (28) absorbs each other to generate a magnetic pulling force, and the first group of electromagnets (14) and The electromagnets of A, B, C, D'E'F, G, H, I, J, K, L... on the second group of electromagnets (15) are energized in sequence to generate magnetic force, such a window ( The door) (28) can be moved from right to left to the right to the left to move the function of opening and closing from right to left, while the left window (32) acts like 13 M338891 with the same method on the right, but in the opposite direction, the effect is the same . In the structure of the tenth figure, the structure of the window (the sill 28) mainly includes: two rows of permanent magnets in the upper and lower horizontal frames, and two sets of permanent magnets (21) are arranged, arranged in rows according to the window/monthly order, and on the window ( Doors (28) The upper and lower edges of the fan are provided with two sets of electromagnets (14) (15). The micro-processing is (Η) to accept the command of the remote controller (13) to make the electromagnet group ((4)(15) energize sequentially to generate magnetic force or lose power to reach the window (door) • (28) remote control automatic and manual opening and closing The function of a household voltage (12) is to supply the kinetic energy of the electromagnet group (14) (15), the wireless receiver Christine (10), the microprocessor (11) and the anti-theft system. The functions of the implementation of the tenth figure are as follows: When the remote controller (13) transmits a command to the microprocessor (11) via the wireless receiver (10), the E-E2 electromagnets on the electromagnet group (14) (15) are sequentially energized to generate a magnetic force _ with the upper and lower horizontal frames The interaction between the positive and negative magnetic fields of the two sets of permanent magnets (21) N1, S1, S2, N3, S3, Μ, S4, N5, S5 in the two tracks produces a magnetic pull force, thus making the window (door) (28) from the right Move to the left and follow the way to the right to the left. The above four sets of structural windows (doors) (28) (32) / curtains (29) can be controlled by the remote control (13) via the microprocessor (11) The window (door) (28) (32) / curtain (29) achieves simultaneous operation and independent operation, and the structure is simplified, the shape is hidden, and there is no gear and motor The touch drive produces the disadvantages of wear and noise. 14 M338891 The structure and implementation functions of the eleventh and twelfth drawings, the structure of the window (door) (28) mainly includes: the structure of the eighth and tenth And the functions of the implementation are basically the same, different points. • The permanent magnets (21) or electromagnets (14) (15) that are not placed in the upper and lower horizontal window frames are changed to the electromagnets (14) in the upper and lower horizontal rail frames (15). Or the permanent magnet (21) is provided with a separate sliding mechanism (33) and is connected to the window (28) indirectly by the cassette (31) to move the window. • The structure and implementation of the thirteenth and fourteenth drawings The function description is as follows: The _ household (door) (28) structure mainly has a window (10) in the upper and lower horizontal frame and two upper and lower links (36) riding the motor (10) and the S household (10), when the remote control (13) The wireless receiver (10) communicates the command to the motor (5) to rotate the motor (5) to drive the link (36) to push the window (28) alpha movable pin (35) outwardly and closed. #The above-mentioned five kinds of remote control self-level hand-level _window (door) and curtain combination, the long-distance control refers to the use of wired or wireless telephone system, and by a trusted pure is set in the room to receive Wei Wei The command of the system, the credit system can further send out the command conversion signal, receive and transmit the command to the microprocessor (11) via the wireless receiver (10), because the long distance phone can control the tooth (door) / _ Curtain, when it is raining, it needs to be burglarproof. It does not need to go home to check the convenience. It can also be equipped with gas alarm, vibration sensor, electric lock, photographic lens called anti-theft Wei, such as the mechanism gamma immediately start the mechanism M338891 and the alarm Or notify remote personnel to alert. From the above detailed description, it is possible to know that the skilled person has (4) that the utility model can achieve the above-mentioned purposes, and also conforms to the novelty and advancement of the novelty, and is specially proposed according to law; and the disclosed embodiment is The present invention is not intended to limit the present invention, so any change in value or replacement of equivalent elements should be within the scope of the present invention. For example, the window (door) track and the curtain are not the same. The outer frames are connected in series and stacked side by side 10 (the two groups of curtains can be arranged side by side) or the increase in the number of curtain sliders and the number of window (door) fans (two windows (doors) above the side of the road) The mode of operation can still have the effect of the utility model. [Simple description of the figure] The first picture is the position map of the first structural window (door) / curtain. The first picture is the location map of the second structural window (door) / curtain. The first figure is a front view and a side view of the first structure and the second structure. The fourth picture is the two types of structural windows (doors) / curtains. Figure 5 is a front view, top view and side view of the third structural curtain. The first / figure is the fourth structural window (door) / curtain position map. Figure 7 is a front view, top view and side view of the fourth structural curtain. Figure 8 is a map of the components of the window (door). The ninth figure is a position map of each component of another window (door). Xuan Tu· is another location map of the window (door) with similar operation. M338891 Tenth SKA)· is a component position map similar to the operation of the eighth figure structure.囷() is a sectional view of the structure of the eleventh figure (A). Figure (A). For windows (doors) similar to the structure of the tenth structure, windows (doors), tenth component position map
(11)微處理器 (14)第一組電磁鐵 (16)第三組電磁鐵 (18)(19)窗簾滑動器 (22)滚輪 (23)分隔物 (25)第二軌道 (27)第四軌道 囷()為第十—圖(A)結構剖面側視圖。 第十三_ ••為與第十_構運作方式她的窗戶(門)各項 元件位置圖。 ' Θ(Β) ·為第十二圖(a)結構剖面側視圖。 第十四圖:為前後推開窗戶的正視圖、上視圖。 第十五圖·為雜細窗戶的正視圖與朗上視圖。 第十六圖:為摘作各項裝置連接方式的方塊圖。 【主要元件符號說明】 (10)無線接收器 (12)豕用電壓or太陽能電池 (15)第二組電磁鐵 (17)第四組電磁鐵 (20)(21)永久磁鐵 (24)第一軌道、窗簾滑動軌遂 (26)第三轨道 (28X32)窗戶(門) (29)窗簾及固定滑動器 (30)滾珠 (31)卡榫 (33)滑動機構(11) Microprocessor (14) First group of electromagnets (16) Third group of electromagnets (18) (19) Curtain sliders (22) Rollers (23) Separators (25) Second track (27) The four-track 囷() is a cross-sectional side view of the tenth-graph (A) structure. The thirteenth _ •• is the tenth _ structure of her window (door) component position map. ' Θ (Β) · is a sectional view of the structure of the twelfth figure (a). Figure 14: Front view and top view of the window pushed forward and backward. The fifteenth figure is a front view and a top view of a multi-ply window. Figure 16: A block diagram for the connection of various devices. [Description of main component symbols] (10) Wireless receiver (12) Voltage or solar cell (15) Second group of electromagnets (17) Fourth group of electromagnets (20) (21) Permanent magnets (24) First Track, curtain sliding trajectory (26) third track (28X32) window (door) (29) curtain and fixed slider (30) ball (31) cassette (33) sliding mechanism
17 M338891 (34)馬達 (36)連桿 (35)活動栓17 M338891 (34) Motor (36) Connecting rod (35) movable bolt
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