M286848 八、新型說明: 【新型所屬之技術領域】 本創作係-種涉及能夠吸收或消除 動能量之隔震消能裝置,尤指一種高度低且^直方向振 曲式隔震消能裝置。 -谷易化作之雙 【先前技術】 針對南樓建築的防雳β ^ Μ 問喊及精密電子機具的減# π β買 寺各種需求,本案創作人陸續開發設計 γ 號「建築物的吸震穿詈 Μ259021 93213448號旎隔震器」、第 置」等專:牵::」以及第9312_號「隔震消能裝 二:專利案所揭示的隔震消能裝置, 備廠商有效解決各種防震及減振的產業需求。又 宰(:^如^ 93129002號「隔震消能裝置」發明專利 考案)所揭露的隔震消能襄置,其係包含兩 動單_ :別以兩層上:相疊交錯的方式結合設置的長形滑 座係為:長“動早70包括-凹座及-嵌座,凹座與嵌 ==垂直㈣嵌配合,並於其中之―設有―水平的定位 於另一 1¾有與水平定位孔相對應的孤形滑孔,再以一 :::時受各狐形滑孔及各定位孔的限制、定位而穿過凹 裝置耿座,同時於凹座、嵌座及轉軸的至少-個設有阻尼 體於受用凹座及嵌座可以相對運動的設計,讓整 動 广動守,能夠產生相對的水平及垂直移動而隔絕振 之兩傳,,亚以阻尼裝置有效地吸收水平及垂直方向傳遞 "動此里,達到減振及消能的實用功效。 4 M286848 雖然參考案所揭露的隔震消能裝 震、減振及消能等功%夠&供隔 裝置,由於僅在凹案所揭露的隔震消能 惶在凹座或嵌座的其巾之—設有弧形 僅整體的組成構件較多、構造較為複雜、設備成本較高不 =果要:到—定的減振行程及消能效能,各狐形滑孔 白:、又必須没為較長型態且各滑動單元的高度無法降低, 導致整個裝置無法小型 ' 上的諸多不便與限制 成⑼消以置在實施運用 【新型内容】 >為解決現有隔震消能裝置有關於組成構件較多 问度較咼及難以進一步小型化等缺弊及限制,創作人 設:出:種能夠有效簡化構造、縮減裳置高度及體積:雙 曲式隔震消能裝置。 又 本則作主要目的在於提供一種雙曲式隔震消能裝置, f主要:直接利用一對以上呈交錯型態設置的架軌,於兩 架執的交錯部位連結設有一連結裝置,於連結裝置與各架 執之間相對設有一組凹弧方向相反的弧形滑孔,於各組相 對應的弧形滑孔各穿設有一受弧形滑孔限動及定位之滑轴 配口可从選擇性地於基板、滑軸、連結裝置及承板之間 勺卩匕凌置,不僅可以阻隔水平及垂直振動能量的傳遞及 ΰ 動此里,並且能夠達到簡化組成構造、降低裝置高 度及細減骏置體積,有效提昇隔震消能裝置之實用效能。 一基於前述目的,本創作所運用的技術手段係在於提供 種雙曲式隔震消能裝置,其係設有呈平行間隔設置的一 5 M286848 • 基板與一承板,於該基板與該承板的相向板面之間設有一 • 組以上呈交錯型態設置的架軌,於兩架執的交錯部位之間 設有一連結裝置,分別於該連結裝置與各架執的連結部位 ,各相對應設有一組凹口呈相反方向設置的弧形滑孔,於 各組相對應的弧形滑孔各穿設有一滑軸而形成定位及限動 0 較仏的’本創作可以於基板與承板的相向板面相對設 Φ 有多組呈網格狀交錯型態設置的架軌,各架執可以設為具 一夾角的交錯型態,並選擇性地於各架軌的交錯部位之間 連結設有連結裝置。 較佳的’本創作的架軌可以設有呈條板狀的軌體,於 軌體與連結裝置的連結位置設有一凹口方向朝向連結裝置 中間平面方向的弧形滑孔;相對應地於連結裝置的下、上 部位各設有一可分別相對嵌合於軌體的嵌槽,連結裝置並 在位於嵌槽兩側的板面,各設有一凹口朝向相反於連結裝 Φ 置中間平面方向的弧形滑孔。 較佳的’本創作的架執係凹設有一執槽,連結裝置的 連結部位係嵌置於執槽,並且架軌在位於軌槽兩側的板面 各設有一凹口朝向該連結裝置中間平面方向的弧形滑孔。 較佳的,本創作於基板、連結裝置、滑軸及承板的其 中一個以上設有一阻尼裝置,該阻尼裝置可以設於基板的 板面、承板的板面、滑軸端點與連結裝置之間或架執與連 結裝置之間;再者,該阻尼裝置係可以為彈性橡膠層或摩 擦塾片’ 4彈性橡膠層可以結合設於弧形滑孔的孔壁或滑 M286848 軸的外部等位置。 能裝置,可以獲得的優 本創作所提供的雙曲式隔震消 點及功效增進至少包括:M286848 VIII. New description: [New technical field] This creative system is a vibration isolation and energy dissipation device capable of absorbing or eliminating dynamic energy, especially a low-intensity and straight-direction vibration isolation energy dissipation device. - Gu Yihua's double [previous technology] For the protection of the south building, the anti-mite β ^ Μ 喊 及 及 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 精密 买 买 买 买 买 买 买 买 买 买 买 买 买 买 买 买 买詈Μ 259021 93213448 旎 旎 」 、 第 第 第 第 第 第 第 : : : : : : : : 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 931 The industrial demand for anti-vibration and vibration reduction. The isolation and energy dissipation device disclosed in the slaughter (: ^, such as ^93129002 "isolated energy dissipating device" invention patent case), the system includes two moves _: two layers Upper: The long slides combined with the set of staggered ways are: long "moving 70 includes - recess and - insert, recess and insert == vertical (four) inlay, and in which - " The horizontal positioning of the other 13⁄4 has a solitary sliding hole corresponding to the horizontal positioning hole, and then passes through the concave device sill by the restriction and positioning of each fox-shaped sliding hole and each positioning hole when a::: At least one of the recess, the insert and the rotating shaft is provided with a damping body at the receiving recess and the insert can be opposite The dynamic design makes the movement move widely and can generate relative horizontal and vertical movements and isolate the two vibrations. The Asian damper device effectively absorbs the horizontal and vertical directions. In this case, vibration reduction and elimination are achieved. 4 M286848 Although the vibration isolation energy dissipation, vibration reduction and energy dissipation of the isolation and dissipation disclosed in the reference case are sufficient, the isolation device is only concave in the concave case. The seat of the seat or the nest is provided with an arc-shaped only integral component, the structure is more complicated, and the equipment cost is higher. The fruit is required to be: the damping stroke and the energy dissipation efficiency, and the fox-shaped sliding Hole white: It must not be longer and the height of each sliding unit cannot be reduced, resulting in the inconvenience and limitation of the whole device. (9) Eliminate the implementation of the application [new content] > The vibration isolation and energy dissipating device has many disadvantages and limitations such as the difficulty of further component formation and difficulty in further miniaturization. The creator has set: the species can effectively simplify the structure and reduce the height and volume of the skirt: hyperbolic isolation Energy dissipating device. The main purpose of the present invention is to provide a hyperbolic vibration isolation and energy dissipation device, f mainly: directly using a pair of orbital rails arranged in an interlaced manner, and a connecting device is connected to the interlaced portions of the two supports, in the connecting device and A set of arc-shaped sliding holes with opposite concave arc directions are respectively arranged between the respective holders, and a corresponding sliding hole of each group is provided with a sliding shaft hole for the movement and positioning of the curved sliding holes. Scratch between the substrate, the sliding shaft, the connecting device and the bearing plate, not only can block the transmission of horizontal and vertical vibration energy and turbulence, but also can simplify the structure, reduce the height and reduce the device. The volume of Jun placed to effectively improve the practical performance of the isolation and energy dissipation device. Based on the above objectives, the technical means used in this creation is to provide a kind of hyperbolic isolation and energy dissipation device, which is provided with a parallel arrangement. 5 M286848 • The substrate and a carrier plate are provided between the substrate and the opposing plate surface of the carrier plate. The frame rails are arranged in a staggered manner, and there is a connection between the two staggered portions. The device is respectively provided with a pair of arc-shaped sliding holes arranged in opposite directions at the joint portions of the connecting device and the respective frames, and a sliding shaft is disposed on each of the corresponding curved sliding holes of each group. Forming the positioning and the limit of 0 is relatively simple. 'This creation can be set on the opposite plate surface of the substrate and the carrier plate. There are a plurality of sets of grids arranged in a grid-like staggered configuration. Each frame can be set to have an angle. The staggered configuration is selectively coupled to the interlacing portions of the rails to provide a coupling device. Preferably, the frame rail of the present invention may be provided with a rail-shaped rail body. The joint position of the rail body and the connecting device is provided with a curved sliding hole with a notch direction facing the middle plane of the connecting device; correspondingly The lower and upper portions of the connecting device are respectively provided with a fitting groove which can be respectively fitted to the rail body, and the connecting device is disposed on the plate surface on both sides of the inserting groove, and each of the recessed portions is opposite to the intermediate plane of the connecting device Φ. Curved slide hole. Preferably, the frame of the present invention is provided with a groove, the joint portion of the joint device is embedded in the groove, and the frame rail is provided with a notch on the plate surface on both sides of the track groove toward the middle of the joint device. Curved slide hole in the plane direction. Preferably, the damper device is disposed on one or more of the substrate, the connecting device, the sliding shaft and the carrier plate, and the damper device can be disposed on the board surface of the substrate, the board surface of the board, the end of the sliding shaft and the connecting device. Between the frame and the connecting device; further, the damper device may be an elastic rubber layer or a friction slab '4 elastic rubber layer may be combined with the hole wall of the curved sliding hole or the outer portion of the sliding M286848 shaft, etc. position. The device can be equipped with superior features that can be achieved by the creation of hyperbolic isolation and enhancements including:
動能量,滿足建築業者或設備廠商 的需求。 2、本創作所提供的雙曲式隔震消能裝置,可以靈活 改變相互交錯的架執組數及連結裝置的配合數量,充分Dynamic energy to meet the needs of construction companies or equipment manufacturers. 2. The hyperbolic isolation and energy dissipating device provided by the creation can flexibly change the number of interlocking frames and the number of matching devices.
3、 本創作於呈交錯型態設置的架軌之間,直接以連 _ 結裝置形成雙曲式的連結構造,不僅能夠有效地簡化組成 構造、降低裝置高度與長度,並且可以讓雙曲式隔震消能 裝置更容易組裝及施作。 4、 本創作所提供的雙曲式隔震消能裝置,利用相對 應的雙曲式弧形滑孔構造,配合穿設於兩者間的滑轴,可 以提供相當大的水平移動行程,在同樣的尺寸條件下,本 創作能夠提供較參考案兩倍左右之移動的效果,有效達到 減縮裝置體積的效能。 5、 本創作具備阻尼器的作用功能,有效地將建築物 7 M286848 、橋樑、儀器設備、晶圓製程設備的振曰 切此夏,轉換成诖 結裝置的運動能量的功能效果。 、 【實施方式】 為能詳細瞭解本創作的技術特徵及音 只用工力效,並可侬 照說明書的内容來實施,玆進一步以如 口八所示的較伟眚 施例,詳細說明如后: ]^住貫 本創作係為一種可以裝設運用於建筚铷 %木双7、橋樑、儀器 設備、晶圓製程設備的底部或建築物結構體之間的雔 隔震消能裝置,本創作不作特定的限制, 又工 又罘一、二圖式 所不,本創作係包括有呈平行間隔設置 ν I 板(1 〇 ) 及一承板(2 0 ),於該基板(;L 〇 )與該承板(2 〇 ) 的相向板面之間設有一組以上呈交錯型能 又謂i恶,又置的架執(工 1 ^ (21),於兩相對應架軌(1 ] ) f 9 η、 丄丄」、2 1 )的交錯 部位之間設有一連結裝置(3 〇 ),分別於兮、由 w ; 刀別於吞亥連結裝置( 3〇)與各架執(1 1 ) ( 2 1 )的連么士邻你々丄 丄^ π堤、、,口口 Μ立,各相對應 設有一組凹口呈相反方向設置的弧形滑孔(3 2 Α )(工 2 ) ( 3 2 B ) ( 2 2 ),並於各組相對應的弧形滑孔( 3 2 A) ( ! 2 ) ( 3 2 B ) ( 2 2 )各穿設有—滑車“ 3 3 A )( 3 3 B )而形成定位及限動,同時可以選擇性 地於基板(1 〇 )、連結裝置(3 〇 )、滑轴(3 3 A ) (3 3 B )及承板(2 〇 )之間’設置具彈性阻尼作用的 阻尼裝置(4 〇 ); 如此,當發生地震或受到振動作用時,利用基板(丄 0)與連結裝置(30)及連結裝置(3〇)與承板(2 8 M286848 〇)之間,利用等曲+ 雙曲式弧形滑孔(3 2 A ) ( 1 2 ) ( 3 2 B ) ( 2 2 )配合滑細 f γ Q Q Π、 月罕由(3 3 A ) ( 3 3 Β )限位所形 成的水平及宾_ ^ y 、 ^ ’也夠有效地隔絕地震或振動的傳遞 ,達到隔震、減振及丨肖Λ r及咱此的效能,並且於地震或振動等外 力作用結束後,利用雔 用又曲式弧形滑孔(3 2 A ) (12) (3 2 B ) ( 2 ? Z〕的對應作用,能夠讓滑軸(3 3 A ) (3 3 B )自動地回歸 口歸到仞始的設定位置。 請參看第一、-R ^ ^ 一圖式所示的本創作第一較佳實施例, 該雙曲式隔震消能梦署 衷置係设有平行間隔設置的一基板(1 〇)與一承板(p )’於基板(1 0 )與承板(2〇) 的相向板面相斜呀古 有—組以上呈交錯型態設置的架軌(1 1 )、( 2 1 ) ’並於兩架軌(1 1 ) ( 2 1 )的交錯部位 之間連結设有一連έ士驶里, 、 ^逆…凌置(3 〇 );其中, 前述的基板(1 Π \ j ^ 〇 )於朝向承板(2 0 )的上側板面 設置有一供連結裝詈Γ 直(3 〇 )組裝結合的平直型架軌(1 1 ),於該架軌(1 Ί、< + 丄丄)设有一呈條板狀的執體(1 1 2 )’並於軌體(1 1 9 丄2 )與連結裝置(3 0 )的連結位置 ’各相對應設有一凹σ 士 & 士 ^ w 口方向朝向連結裝置(3 0 )中間平 面方向〔即承板(9 Ω、 A k d 〇 )方向〕的弧形滑孔(1 2 ),同 時可以於基板(1 \ 丄υ )的下側板面結合設有一具彈性阻尼 作用的阻尼裝置(4 η、 〇〇 、4 0 ),該阻尼裝置(4 0 )係可以由 彈性橡膠、黏性彈性 十 |王材枓(viscoelastic materials)、磨擦 ^ 材料(fnCtl〇nal mate「ials)或阻尼係數(Damping efficient)較佺的材料所製成,如圖所示的阻尼裝置(4 M286848 ο 係為彈性橡 膠層 前述的承板(2 〇 )於朝向 嗖置有~# π 向基板(1 〇 )的下側板面 口又直’供連結裝置(q η、/ # 1 ),於#加^ , )、、且4結合的平直型架軌(2 ),*认紅 J 口又有一呈條板狀的執體(2 1 2 ) 亚方;執體(2 1 2 )盥遠处扭罢r 0 %古^ ,、連…表置(3 0 )的連結位置 = 向朝向連結装置(3㈧中間平面方向〔即 ;;/ ◦)方向〕的弧形滑孔(以),再於承板(2 U )的上侧板面結合設有一 w 具弹性阻尼作用的阻尼裝置( 40、),’該阻尼裝置(4〇)係可以由彈性橡膠、黏性彈 I·生材料、磨擦性材料或阻尼係數較佳的材料所製成,如圖 所示:阻尼裝置(4〇)係為彈性橡勝層; 月』述的連結裝置(3 〇 )係可以設為如圖所示塊體型 態’於連結裝置(30)的下、上部位各設有一可分別相 對嵌合於架軌(1 1 ) ( 2 1 )所設執體(1 1 2 ) ( 2 的欣槽(31A) (31B),並對應於架軌(1 ❿ 1 ) ( 2 1 )所設的弧形滑孔(丄2 ) ( 2 2 ),連結裝 置(3 〇 )在位於肷槽(3 1 a ) ( 3 1 B )兩側的板面 各相對應設有一凹口朝向相反方向的弧形滑孔(3 2 A ) (32B),即位於下方的弧形滑孔(3 2 A )的凹口方 向係朝向位於下方的基板(1 Q ),位於上方的5瓜形滑孔 (3 2 B )的凹口方向係朝向位於上方的承板(2 〇 ); 承前所述,於相對應的弧形滑孔(3 2 A ) (12) 及弧形滑孔(3 2 B ) (22),分別穿設有一受弧形滑 孔(32A) (12) ( 3 2 B ) (22)限動及定位之 10 M286848 滑軸(3 3 A ) ( ο Ο 形滑孔(3 ? Α w ) °襄各組形成雙曲式設計的弧 )) (12)及弧形滑孔(32Β) (2? 此夠利用各滑軸(3 對的位移,並可以於滑輪(3 :限動形成相 覆設有—具彈性阻尸μ ( 3 3 B )的外部包 的阻尼U ):的阻尼裝置(4〇),如圖所示 4 〇)係為彈性橡膠包覆層; 如此,當地震或振動等外力 板(10)、連結裝置用設於基 )承板(2 0 )之間的雙 曲式弧形滑孔(32Α) (12) (32β) (Η): 1’,夠利用基板(1〇)與承板(2〇)的相對水平: 矛及幵降所產生的作用,有效地隔絕地震或振動的傳遞, 達到隔震、減振及消能的效能,纟且本創作能夠進一步利 用設於基板(1 Q )及承板(2 ◦ ) @阻尼裝置(4 〇 ) 適時地吸收垂直方向的振動能量,提供於垂直方向的吸震 及減振效能。 # #地震或振動等外力作用結束後,利用雙曲式的弧形 滑孔(3 2A) (12) (32B) (22)及滑轴(3 3 A ) ( 3 3 B )的設計,基板(工〇 )、承板(2 〇 ) 及連結裝置(3 0 )能夠自動地回歸到最穩定的初始設定 位置。 請參看第三圖所示的本創作第二較佳實施例,該實施 例於滑軸(3 3 A ) ( 3 3 B )的外部包覆設置阻尼裝置 ,亦可於連結裝置(3〇)的下、上嵌槽(3 ία) ( 3 1 B )的内壁面設有一可供架軌(i X ) ( 2丄)抵靠的 M286848 阻尼裝置(4 Ο ) ’該阻尼裝置(4 〇 )係由軟性材料構 成而能提供緩衝作用。 請參看第四圖所示的本創作第三較佳實施例,該實施 例係將滑軸(33 A) (3 3 B)設為螺栓型態,並二: 月軸(3 3A) (33B)之兩端’各設有阻尼裝置(4 〇 ) ’在本較佳實施例t ’該阻尼裝置(4 Q )係為一摩 擦塾片(4 1 ),各滑軸(3 3 A) ( 3 3 B )的兩端分 別伸出該弧形滑孔(32A) (32B)之外壁,並於兩 =分別結合設有—摩擦墊片(41),並各以兩螺帽分別 月軸(33A) (33B)的兩端螺合固定,讓各摩 ::片(4 1 )抵靠於弧形滑孔(3 2 A ) ( 3 2 b )之 例係第五圖所示的本創作第四較佳實施例,該實施 、ϋ木1 1 ) ( 2 1 )設為丁字形的實施型態。 σ月參看弟六圖所示的本創竹楚 例將架軌(η”2 例’該實施 °又為八轨槽(1 1 4 ) ( 2 1 軌槽=型態,並且架軌(")(川在位於 杜妒置 4 )( 2 1 4 )兩側的板面各設有-用以與連 、…(3 0)連結的弧形滑孔 並於各架執⑴)(川的孔壁一』=”生 阻尼作用的阻尼裝置(4〇),:…有層具择性 以由彈性橡膠、黏性彈性材=尼裝置(4 ◦)係可 佳的材料所製成,如g所I 材料或阻尼係數較 橡膠層; 展置(4 0 )係為彈性 12 M286848 該實施例將連結裝置(30A)設為塊體型態,並對 應於架軌(1 1 ) ( 2 1 )所設的孤形滑孔(丄2 A )( 22A) ’連結裝置(30A)在嵌置於執槽(ll4) (2 1 4 )的下、上部位’各相對應設有一凹口朝向相反 方向的孤形滑孔(32A) (32B),即位於下方的弧 形滑孔(3 2 A) #凹口方向係朝向位於下方的基板(丄 〇),位於上方的弧形滑孔(32B)的凹口方向係朝向 位於上方的承板(20),再於相對應的弧形滑孔(3 2 A ) ( 1 2 A )及弧形滑孔(3 2 B ) ( 2 2 A ),分別 穿設有-受弧形滑孔(32A) (12a) (32b)( 2 2 A )限動及定位之滑軸(3 3 A ) ( 3 3 b )。 請參看第七圖所示的本創作第六較佳實施例,該實施 ㈣結構型態大致相同於前述如第六圖所㈣“例,該 貫施例主要係直接採用相同於如第二圖所示實施例的連結 裝置(3 ◦) ’即於連、^ ( 3 (Π的下、上部份設有 嵌槽(3 1 A ) ( 3 1 B )。 以上所述,僅是本創作的較佳實施例,並非對本創作 作任II形式上的限制,任何所屬技術領域中具有通常知識 者,右在不脫離本創作所括 ㈤作所k技術特徵的範圍内,利用本創 :所:示技術内容所作出局部更動或㈣的等效實施例, 特徵的範圍内。 特被内谷,均仍屬於本創作技術 【圖式簡單說明】 之立體結構示意圖 第一圖係本創作實施運用 13 M286848 第二圖係本創作第一較佳實施例之立體結構示意圖。 第三圖係本創作第二較佳實施例之立體結構示意圖。 第四圖係本創作第三較佳實施例之立體結構示意圖。 第五圖係本創作第四較佳實施例之立體結構示意圖。 第六圖係本創作第五較佳實施例之立體結構示意圖。 第七圖係本創作第六較佳實施例之立體結構示意圖。 【主要元件符號說明】 Φ ( 1〇)基板 (1 1 )架軌 (112)軌體 (114)軌槽 (12) ( 1 2 A )弧形滑孔 (2〇)承板 (2 1 )架執 (212)軌體 (214)軌槽 (22) ( 2 2 A )弧形滑孔 (30) (30A)連結裝置 (3 1 A ) ( 3 1 B )嵌槽 • ( 3 2 A ) ( 3 2 B )弧形滑孔 (3 3 A ) ( 3 3 B )滑軸 (4 0 )阻尼裝置 (4 1 )摩擦墊片 143. This creation creates a hyperbolic joint structure directly between the rails arranged in a staggered configuration, which not only effectively simplifies the composition, reduces the height and length of the device, but also allows the hyperbolic type. The isolation and energy dissipation device is easier to assemble and apply. 4. The hyperbolic isolation and energy dissipation device provided by the present invention can provide a considerable horizontal movement stroke by using the corresponding hyperbolic arc-shaped sliding hole structure and the sliding shaft disposed between the two. Under the same size conditions, the creation can provide about twice the movement of the reference, and effectively achieve the effect of reducing the volume of the device. 5. This creation has the function of a damper to effectively cut the vibration of the building 7 M286848, bridge, instrumentation, and wafer processing equipment into the summer, and convert it into the functional effect of the kinetic energy of the splicing device. [Embodiment] In order to understand in detail the technical features and sounds of this creation, only the work efficiency, and can be implemented according to the contents of the manual, further elaborate on the example of the Weiwei 所示, as detailed in : ]^住本本本系 is a kind of 雔 雔 消 消 消 运 运 运 , , , , , , 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作 创作There is no specific restriction on the creation, and the work is not the same as the one or two drawings. The creation system includes a ν I plate (1 〇) and a carrier plate (20) arranged in parallel intervals on the substrate (L 〇 Between the opposing plates of the carrier (2 〇), there is a set of more than one staggered type, which is also called i evil, and the set is held (work 1 ^ (21), on the two corresponding rails (1) ) f 9 η, 丄丄", 2 1 ) is provided with a connecting device (3 〇) between the staggered parts, respectively, 兮, by w; knives are connected to the Tenghai connection device (3〇) and each stand (1 1) ( 2 1 ) The connected singer is next to you 々丄丄 ^ π 堤,,,, mouth is standing, each corresponding to a set of notches in opposite directions Set the curved sliding holes (3 2 Α ) (Work 2 ) ( 3 2 B ) ( 2 2 ), and the corresponding curved sliding holes ( 3 2 A) ( ! 2 ) ( 3 2 B ) (2 2) Each of them is provided with a pulley "3 3 A" (3 3 B) to form a positioning and a limit, and can be selectively attached to the substrate (1 〇), the connecting device (3 〇), the sliding shaft (3) 3 A ) (3 3 B ) and the support plate (2 〇) 'Set the damper device with elastic damping (4 〇); thus, when an earthquake or vibration occurs, use the substrate (丄0) and the link Between the device (30) and the connecting device (3〇) and the carrier plate (2 8 M286848 〇), use the equal-curve + double-curved curved sliding hole (3 2 A ) ( 1 2 ) ( 3 2 B ) ( 2 2) The level formed by the limit of the slippery f γ QQ Π, Yuehan by (3 3 A ) ( 3 3 Β ) and the bins _ ^ y , ^ ' are also effective to isolate the transmission of earthquakes or vibrations. Earthquake, vibration reduction, and 效能 Λ 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱 咱The corresponding action of 2 ? Z] enables the sliding shaft (3 3 A ) (3 3 B ) to automatically return Return to the set position of the beginning. Please refer to the first preferred embodiment of the creation shown in the first, -R ^ ^ pattern, the double-curve isolation and energy dissipation system has parallel spacing The set substrate (1 〇) and a carrier plate (p)' are inclined on the opposite plate surface of the substrate (10) and the carrier plate (2〇), and the frame rails are arranged in an interlaced manner. 1), (2 1 ) 'and a pair of gentlemen driving between the staggered parts of the two rails (1 1 ) ( 2 1 ), and the opposite side (3 〇); The substrate (1 Π \ j ^ 〇) is provided with a flat frame rail (1 1 ) for assembling the assembly straight (3 〇) on the upper side surface facing the carrier plate (20), on which the frame rail is provided. (1 Ί, < + 丄丄) is provided with a strip-shaped body (1 1 2 )' and corresponds to the joint position of the rail body (1 1 9 丄2) and the connecting device (30) It is provided with a curved sliding hole (1 2 ) which is oriented in the middle plane direction (ie, the direction of the carrier plate (9 Ω, A kd 〇)) toward the connecting device (30), and can be disposed on the substrate at the same time. Underside of (1 \ 丄υ ) The surface is combined with a damping device (4 η, 〇〇, 40) that is elastically damped. The damping device (40) can be made of elastic rubber, viscous elastic material, viscoelastic materials, friction^ The material (fnCtl〇nal mate "ials" or damping coefficient (Damping efficient) is made of a sturdy material, as shown in the damper device (4 M286848 ο is the elastic rubber layer of the aforementioned carrier (2 〇) in the orientation嗖 ~ ~ # ~ ~ ~ 基板 基板 基板 基板 基板 基板 ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ ~ 2), *Zhonghong J mouth has a slab-like body (2 1 2) Asian side; the body (2 1 2) 盥 处 r r r 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0) connection position = arc-shaped slide hole toward the connecting device (3 (eight) direction of the middle plane [ie;; / ◦)], and then a pair of upper plate surface of the carrier plate (2 U ) Damping device with elastic damping (40,), 'The damping device (4〇) can be made of elastic rubber, viscous elastic material, raw material, abrasive material or The material with better Nie coefficient is made as shown in the figure: the damping device (4〇) is the elastic rubber layer; the connecting device (3 〇) described in the month can be set as the block type as shown. 'The lower and upper parts of the connecting device (30) are respectively provided with a body (1 1 2 ) (31A) (31B) which can be respectively fitted to the frame rail (1 1 ) ( 2 1 ) ) and corresponds to the curved sliding hole (丄2) (2 2 ) provided by the frame rail (1 ❿ 1 ) ( 2 1 ), and the connecting device (3 〇) is located in the groove (3 1 a ) ( 3 1 B) The plate faces on both sides are correspondingly provided with a curved sliding hole (3 2 A ) (32B) with the notch facing in the opposite direction, that is, the notched direction of the curved sliding hole (3 2 A ) located below is oriented Located on the lower substrate (1 Q ), the notch direction of the 5 melon-shaped slide holes (3 2 B ) at the top is oriented toward the upper plate (2 〇); as described above, in the corresponding curved slide hole (3 2 A ) (12) and curved sliding holes (3 2 B ) (22), respectively, are provided with a curved sliding hole (32A) (12) (3 2 B ) (22) for limiting and positioning 10 M286848 slide shaft (3 3 A ) ( ο Ο shape slide hole (3 ? Α w ) °襄 each group forms a double Arc design)) (12) and curved sliding hole (32Β) (2? This is enough to use each sliding shaft (3 pairs of displacement, and can be used on the pulley (3: the movement is formed to cover the same - with elastic resistance The damping of the external package of the corpse μ ( 3 3 B ): the damping device (4〇), as shown in the figure 4 〇) is an elastic rubber coating; thus, when an external force plate such as earthquake or vibration (10) The connecting device uses a hyperbolic arc-shaped sliding hole (32Α) (12) (32β) (Η): 1' between the base plate (20), which is sufficient for the substrate (1〇) and the carrier plate. The relative level of (2〇): The effect of spear and sag, effectively isolating the transmission of earthquakes or vibrations, achieving the effectiveness of isolation, vibration reduction and energy dissipation, and the creation can be further utilized on the substrate (1) Q) and carrier plate (2 ◦) @damper device (4 〇) Timely absorbs the vibration energy in the vertical direction, providing shock absorption and vibration damping performance in the vertical direction. ##The design of the hyperbolic arc-shaped slide hole (3 2A) (12) (32B) (22) and the sliding shaft (3 3 A ) ( 3 3 B ) after the end of the external force such as earthquake or vibration, the substrate The (worker), the carrier (2 〇) and the connecting device (30) can automatically return to the most stable initial setting position. Referring to the second preferred embodiment of the present invention shown in the third figure, the embodiment is provided with a damping device on the outer side of the sliding shaft (3 3 A ) ( 3 3 B ), and can also be connected to the connecting device (3〇). The inner wall surface of the lower and upper recessed grooves (3 ία) ( 3 1 B ) is provided with a M286848 damping device (4 Ο ) for the rail (i X ) ( 2 丄) to abut the 'damper device (4 〇) It is made of a soft material and provides a cushioning effect. Referring to the third preferred embodiment of the present invention shown in the fourth figure, the sliding shaft (33 A) (3 3 B) is set to a bolt type, and the second axis is a moon axis (3 3A) (33B). The two ends 'each are provided with a damping device (4 〇) 'In the preferred embodiment t' the damper device (4 Q ) is a friction cymbal (4 1 ), each sliding shaft (3 3 A) ( The two ends of the 3 3 B) respectively protrude from the outer wall of the arc-shaped sliding hole (32A) (32B), and are respectively provided with a friction pad (41), and each of the two nuts respectively has a moon axis ( 33A) Both ends of (33B) are screwed and fixed, so that each piece of the film: (4 1 ) abuts against the curved sliding hole (3 2 A ) ( 3 2 b ) is the creation shown in the fifth figure. In a fourth preferred embodiment, the embodiment, the eucalyptus 1 1 ) ( 2 1 ) is in the form of a T-shape. σ月 Refer to the six-figure example of the founder of the six-figure map (n"2 cases' the implementation is again eight-track slot (1 1 4) (2 1 track groove = type, and rail (" ;) (Chuan in the Du Fu set 4) ( 2 1 4 ) on both sides of the board surface - each with a curved sliding hole connected to the joint, ... (3 0) and in each rack (1)) The wall of the hole is a damping device (4〇) with a damping effect, and the layer is made of a material that is elastically made of elastic rubber or viscous elastic material=4 ◦. For example, g material I or damping coefficient is smaller than rubber layer; spread (40) is elastic 12 M286848 This embodiment sets the connecting device (30A) to block type and corresponds to the frame rail (1 1 ) ( 2 1) The isolated slide hole (丄2 A ) ( 22A) 'the joint device ( 30A ) is provided with a notch in the lower and upper parts of the groove ( ll4 ) ( 2 1 4 ) Orphaned slide hole (32A) (32B) facing in the opposite direction, that is, the arc-shaped slide hole (3 2 A) located below. # Notch direction is toward the substrate (丄〇) located below, and the curved slide hole located above (32B) The direction of the notch is oriented upwards The carrier plate (20) is further provided with a corresponding curved sliding hole (3 2 A ) ( 1 2 A ) and a curved sliding hole (3 2 B ) ( 2 2 A ) Hole (32A) (12a) (32b) (2 2 A) Sliding shaft (3 3 A ) (3 3 b ) for limiting and positioning. Please refer to the sixth preferred embodiment of the present invention shown in FIG. The structure of the implementation (4) is substantially the same as the above-mentioned "fourth" (four) "example, the embodiment is mainly used directly in the same connection device as the embodiment shown in the second figure (3 ◦) 'that is, even, ^ (3 (The lower and upper parts of the cymbal are provided with a recessed groove (3 1 A ) ( 3 1 B ). The above is only a preferred embodiment of the present creation, and is not a limitation on the form of this creation. Anyone having ordinary knowledge in the technical field, right in the scope of the technical features of the present invention, using local innovations or (four) equivalent embodiments, features Within the scope of the special. The inner valley, are still in the creative technology [schematic description of the schema] The first diagram of the three-dimensional structure is the implementation of this creation 13 M286848 second map BRIEF DESCRIPTION OF THE DRAWINGS The third embodiment is a perspective view of a third preferred embodiment of the present invention. The fourth figure is a three-dimensional structure of the third preferred embodiment of the present invention. The third embodiment of the present invention is a three-dimensional structure diagram of the fifth preferred embodiment of the present invention. The seventh figure is a three-dimensional structure diagram of the sixth preferred embodiment of the present invention. [Main component symbol description] Φ (1〇) substrate (1 1) frame rail (112) rail body (114) rail groove (12) (1 2 A) curved sliding hole (2〇) carrier plate (2 1 ) Rack (212) rail body (214) rail groove (22) (2 2 A) curved slide hole (30) (30A) joint device (3 1 A ) ( 3 1 B ) slotted groove • ( 3 2 A ) ( 3 2 B ) Curved slide hole (3 3 A ) ( 3 3 B ) Sliding shaft (4 0 ) Damping device (4 1 ) Friction washer 14