1295335 九、發明說明: 【發明所屬之技術領域】 本發明是關於一種藉由門扇滑輪而懸掛支持,並且且 有會自動關閉之自閉機構的拉門所使用的閉鎖裝置,更詳 二番是關於一種例如可將拉門式之防火門完全閉鎖的閉 鎖裝置。 【先前技術】 〇樓為了在火災時防止延燒,㈣會在出人通道設有 :的防火門。防火門具有:平時以開啟狀態將門扇扣 ’只有在緊急時才會解除扣止狀“ _时開式防火 ^’二及通常為關閉狀態’要通過時再以手動方式開啟的 :才工防火門。無論哪—種防火門都設有要 自動關閉的自閉機構。 曰從η 近年來發生的火災,因為濃煙窒息的 火燒死的機率還要古,田+ ^, Β 午汉而比被 4切要问,因此’防火Η並不只是用來阻止延 ^逛要有煙害事故防止功能。因此,像過是關閉防 門並不夠:還必須防止濃煙從防火門的周緣漏出。 為了遽蔽濃煙,最好使防火門密接於通道開口部周圍 的門框’使其密接的機構,過去已有例如日本實開昭 =ΓΓ公報(專利文獻13及日本特公平6-847㈣公報 (專^文獻2)所記载的楔型構件及誘導轉子受到廣泛的使 用。該密接機構是將此模型構件安裝於防火門,並將誘導 轉子固疋於建物側,藉由使楔型構件相對於誘導轉子移 動’而將防火門向相反側的門框推壓。 316229 5 1295335 [專利文獻1]曰本實開昭5 第3圖 ⑽93866就公報,第2圖、 [專利文獻2]日本特公平6_847〇8 3圖、第7圖、第10目 報#2圖、第 【發明内容】 (發明所欲解決之課題) 中,述專利文獻1之横型構件及誘導轉子的方法 誘V轉子有時會在楔型構 致門肩朝#件之料面的中途停止,以 广朝開啟方向返回而沒有完全關 而且―: 王關閉,濃煙及火苗就會窥入。 很難進行傾斜角度的設定’若縮小傾斜:二=: 2的推墨力就會變小,若增加傾斜角度,楔型構件與 子又會在相互抵接時停止,使防火門無法改變位置s,另 外2果強行關閉門扇,門扇將會強力推虔於門框 啟日寸就會發生因過重而益法羚置 幵 二的十月況中,由於平常為開啟狀態,只有在緊急時才合 閉鎖、’,因此不會有什麼不方便,但在f閉式防火門的情^ 中’平常當人們要通過時就必須自行開啟門扇,但 開閉非常沈重,因此並不理想。 ' 於疋,本發明之第1目的在於提供一種可將拉門完全 關閉的拉門用閉鎖裝置。 I王 而且,本發明之第2目的在於提供一種可用較小的力 進行門扇之開閉的拉門推壓裝置。 316229 1295335 (用以解決課題之手段) 本發明之上述第1目的可藉由第1樣態之閉鎖裝置的 發明而達成,該拉門是藉由門扇滑輪而懸掛支持,並且且 有會自動關閉之自閉_,而在關閉位置時,係將拉門^ 門扇面的緣部配置成與門框相對向的拉門用之閉鎖裝置, /、中”有用來凋節拉門之關閉速度的調速機構;以及用 來將拉:的緣部在關閉位置向門框推屡的推壓機構’·在關 閉位置前方的預定位置之前,調速機構會使拉門的關閉速 度減速為比湘自_構的_速度還慢,並且從預定位 置朝向關閉位置加快。 —根據此第1樣態之發明,由於到拉門之關閉位置前的 預定位置之前,是使拉門的關閉速度減速,因此拉門不容 易與往來的人碰撞。另一方面,到達預定位置時,由於是 朝向關閉位置加快,因此即使因推壓機構而對拉門施以朝 開啟方向作用的阻力,仍會以加快的速度關閉,所以拉門 會順著關閉的力量而完全_。因此,由於拉門是配置在 與門框相對向的位置’並在此位置因推壓機構使拉門向Η 框推壓,故可確保密封狀態。此外,使拉門之關閉速度開 始加快的預定位置及加快速度’按照與所使用的推壓裝置 的關係來決定’只要可使拉門完全關閉即可。根據第1樣 態:發明’在拉門為防火門的情況中,火苗及濃煙就不容 易机入而在屬於其他用途的拉門的情況中,則可隔斷拉 門的丽後兩側’而防止不同溫度的外部氣體流入。 另外,在第1樣態之發明實施形態中,調速裝置具有: 7 316229 1295335 藉由門扇滑輪的旋轉而動作,並且用 轉的發電機· # n戶、、Λ认 Ρ制門扇岣輪之旋 至二: 骨輪的旋轉在拉門開啟期間不-傳遠 =達齡與發電機之輸_的電阻^向運 度在預定位m / 以使拉門的關閉速 -在預疋位置之則減速至所希望的速度 值,以使從預定位置到關閉位置之前加快希 :電:值變更機構。在此實施形態中,藉由利用心 關閉速度的調速。 了進仃拉門之 而且,本發明之上述第〗目的可 匕 裝置而達成’該拉門仲由門戶、典私弟才讀之閉鎖 有合自動p…懸掛支持,並且具 曰自動關閉之自閉機構,在關閉位置時,將拉 成與門框相對向,該拉門用之閉鎖裝置具羽 ^凋即拉門之關閉速度的調速機構;以及當 的絲將拉門向門框推壓的㈣機構,在關 速度減速:預位’調速機構可使拉門的關閉 使拉門在關閉位;;可==成無制 猎甶自閉機構而關閉但不會減速。 預匕第上樣態的發明中,由於在拉門之關閉位置前的 K置之耵,拉門的關閉速度會減速,因此拉門不容易 =來的人石並撞。另一方面’在預定位置時,調速裝置是 H制動狀態’拉門在關閉位置之前,可藉由自閉機構 不會減速。因此,拉門的關閉速度是朝向關閉位 316229 8 1295335 置加快,即使對拉門施以藉由推壓機構朝開啟方向作用的 :力,仍會以加快的速度„,所以拉門會順著關閉的力 量而完全關閉。因此,由於拉門是配置在與門框相對向的 位置,並且在此位置藉由推壓機構將拉門向門框推壓,故 :確保密封狀態。此外,使拉門的關閉速度開始加快的預 定位置,可按照與所使用的推壓裴置的關係決定,即可使 拉門完全關閉。第2樣態之發明巾,在拉門為防火門的情 下’火苗及濃煙就不容易竄入,而在其他用途的拉門的 月兄下貝J可斷拉門的前後兩側,而防止不 部氣體流入。 ! U卜 弟2樣態之發明實施形態中,言周速裝置具有 ,:輪的旋轉而動作,並且用來抑制門扇滑 :機;使W的旋轉在拉門開啟㈣不會傳達至發1 電 ^ ’而在拉⑽閉期間傳達至發電機的單向運動傳達機 至所輸出連接的電阻;可將電阻的電阻值降低 所希:值’使拉門的關閉速度在㈣位置之前減速至 動:速ί的:阻變更機構;以及在預定位置之前使其 而且攸預定位置到關閉位置設為0FF的機構。 門启=,在第1及第2樣態之發明實施形態巾,具有將 為二 上方而加以支持的導執,在相對於此導執 之::::::中控將門扇滑輪在導㈣ 安裝:拉的狀態,而且門扇滑輪的安裝工具與 抱轴和互工具㈣由朝拉門之門扇面方向延伸的 連成可旋轉的狀態。因此’藉由推麼裝置對於 316229 9 1295335 門框朝橫向推塵時,在相對於導執成橫向 滑輪會以與導執之扣入點A 、, °中’門扇 門扇滑幹的 ,'’ u、斜,並且因此而傾斜的 動具安裝於拉門的安裝工具會相互轉 ❹置向;1:::安裝工具垂下的狀態,拉門就會藉由推 的狀態=減°因此,可在拉門與門框之間沒有空隙 拿於::::門扇滑輪及拉門藉由門扇滑輪的安裝工具、安 切拉門的安裝工具、以及配置在上述工 二: 與拉門相互連結,此中間_ 二的=具及安裝於拉門的安衷工具分別經 向延伸的栖軸相互連結成可旋轉的狀態。因 ”:=對於導執成橫向的剖面中,門扇滑輪無法以 : 广點為中心傾斜的構造’當拉門藉由推壓裝置 :朝橫向推料,門扇滑輪還是會保持垂直狀離1 的兩個樞轴為中心而傾斜,而且,拉門是:垂下 ::由推塵裝置向門框推壓。因此,可在拉門與門二 曰又有空隙的狀態下推壓。 而達Γ力本發明之上述第2目的可藉由拉門用推壓裳置 =成,雜Η是藉由Η扇滑輪而懸掛支持 =閉之自閉機構,在關閉位置,使拉門之Η扇面 二置成與門框相對向,其中,門框具有分別設在拉門; =二兩辑】上框及第2上框,並且具有:相對於 心而絲面t裝成可在包含此上面的面内以旋轉軸線為中 匕τ動的積桿構件;為使該槓桿構件的力點位於第i上 316229 10 1295335 框側而將槓桿構件朝旋轉方向定位的彈塵機構;設在第^ 上框側,在拉門就要關閉之前作用於槓桿構件的力點,隨 著拉門關閉而抵抗彈麗機構所產生的彈壓力,而對於力點 施力而加以推回的轉向用構件;以及設在第2上框側Λ 槓桿構件被推回時,在作用點受力的推慶用構件;而且: 旋轉軸線朝著對作用在槓桿構件之力點的力的方向成直角 延伸的第1臂部的長度,係比從旋轉軸線朝著對作用在該 作用點的力的方向成直角延伸的第2臂部的長度長。 構件裝置的發明中,在拉門就要關閉之前,槓桿 s在力點與轉向用托架扣合,隨著拉門關閉而抵抗 聖機構所產生的彈壓力然後被推回,藉此使 =抵接於推㈣托架。再者,由於槓桿構件會旋轉^ _由_構件的倍力作用,拉門會朝向門框之面被推 二:’要開啟拉門時,隨著槓桿構件從轉向用牦架遠 、才貝柃構件力點側會因為彈壓機構而朝向拉門的關閉方 向返回’使拉Η從門框之面遠離’而可在無阻力之狀能 1在本發明中,由於第1臂部比第2臂部長,因 猎由槓桿作用,可用較小的力來開閉拉門 大的力將拉門推壓於門框之面。 T用車又 牙曰播再者,在本發明之拉門用推壓裝置的實施形態中,槓 力點及作用點分別設有可轉動地抵接於轉向用構 壓用構件的滾輪,因此可縮小在力點及作 .祭’且可更容易地開閉拉門。 而且,本發明之拉門用推壓裝置的實施形態中,槓桿 11 316229 1295335 =、轉_構件及紅㈣構件係在關閉 門的門所端側及門尾端側的位置,因此 在拉 個拉門壓接於門框。 u此了更為良好地將整 構件裝置的實施形態是將槓桿 及門尾端側的位置:f設在拉門的門前端侧 延伸,且可供轉向用二朝第-框 線延伸,並作用於推單用搂放_、長杯,以及從旋轉軸 及短桿形成以旋轉轴線為中的=干’並且具有藉由長桿 連結,俾使==桿是相互藉由連崎^ 設置成可抵: -本發 用的長桿,·以及從旋轉轴線延伸, 午力件以作 ,並且具有藉由長桿及短桿形成以旋轉件的 ::二方向彎曲之形狀的旋轉曲轴桿主體;又:朝 體 尾端側部分的旋轉體’並且使:::: 裝置來達成,該2二:可藉由拉門用之閉鎖 有合“ 拉門疋猎由門扇滑輪而懸掛支持 自動關閉之自閉機構,且在關閉位置將拉門之門:: 3】6229 12 1295335 ,:=心置成與門框相對向’其中具有:用來使拉門的關 :::減相調速機構;以及上述推壓裝置。根據此閉鎖 衣,可藉由如上述構成的拉門推壓裝置,以較小的力開 閉拉門,同時以較大的力將拉門向門框推壓。 ::,本發明之上述第2目的亦可藉由拉門用之閉鎖 f來達成,該拉門是藉由門扇滑輪而懸掛支持,並且且 有會自動關閉之自閉機構,且在關閉位置將拉 面 =配置成與門框相對向,其中具有上述推壓裝置:根 置’可藉由如上述構成之拉門推麼裝置,以較 。白、力!開閉拉門’同時以較大的力將拉門向門框推壓。 @且,本發明之上述第2目的亦可藉由防火拉門上部 2::門推壓裝置而達成’該推壓裝置是在全閉時防火門 所f接的開口部三方之門前端側縱框、開口部上框、及開 二二尾Γ側縱框,或在全閉時會抵接於上述開口部三方 力、π部分當中的任叫則,設有具彈性 件 在全閉時形成遮煙構造的吊構件而 有可自由轉動並且藉由支:二士門在防火門上部設 動曲軸…—而具有長短差別之曲軸桿的轉 干’在此曲轴桿兩端設有旋轉體,在開口部上 二鎖:二曲轴桿t同的水平面位置,設有會因為防火 架,在曲轴桿另一墙m舳轉版抵接的轉向用托 疋轉肢側的上框設有會因為曲軸桿 轉動而抵接,且用以將防火 架,並藉由上述轉向用部側_用托 推壓用托架,而在全 二曲,主體及上述 丨方人門向開口部側推壓而形成 316229 13 1295335 遮煙構造。 (發明之效果) …根據上述第1及第2樣態之拉門用之閉鎖裝置,由於 是藉由調速機構’在拉門之關閉位置前的預定位置之前使 拉門的關閉速度減速,因此拉門不容易與往來的人碰撞, 另-方面,自預定位置之後會使關閉速度加快,因此可將 拉門完全閉合於門框,且可防止濃煙、火苗、外部氣 竄入。 而且,根據本發明之拉門用推壓裝置,可用較小的力 進仃門扇之開閉。亦即,本發明之拉門用之推壓裝置是藉 由槓桿的原理,而可用較小的力閉合,又能以較大的力推 壓拉門,因此可更確實地將拉門向門框推壓而封住空隙, 並防止濃煙等流入的密封效果。而且,開啟時也同樣可藉 由槓桿的原理更為輕鬆地開啟,因此即使是常閉式的防火 門’比起習知的防火門可更輕鬆地進行開閉。 【實施方式】 以下,參照圖式來說明發明之實施形態。此外,本發 明之拉門用之閉鎖裝置及推壓裝置亦可適用在任何用途的 拉門’但以下的實施形態是針對拉門為常閉式防火門的情 況加以說明。 第1圖是安裝有本發明實施形態之防火門用之閉鎖裝 置的防火門以及安裝於建物的安裝部分的整體圖,並且顯 示防火門完全開啟的狀態。而第2圖是第1圖之防火門的 上部的斜視圖,第3圖是沿著第2圖所示之III-III的向視 14 316229 1295335 圖’又弟4圖是、_ —面‘ 者弟2圖所示之IV-IV的向視圖。 火用之閉鎖梦第1圖至弟4圖’一面說明本實施形態之防 鎖裝置1的構成。 士弟 1圖牵穿 Λ m ^ 口部2的H m Θ斤不,在建物侧是於人們通過的開 門關閉的框4的上方設有朝向防火 框4罝有· + 圖的則碩所示)向下方傾斜的導軌6。門 端部:所相閉的狀態下,防火門16之門前 分所相對J向的門雨端側縱框8,·防火門16之門尾端部 部而門尾端側縱框1G;以及夾住防火⑽之上 圖僅顯-側的第1上框12及第2上框14。此外,第1 向防;=弟門2放上㈣。門前端側縱框8是形成橫剖面朝 wUm形(第5圖所示),俾可在防火門 字形的門吁山〃防火門16的門前端部分收容在C 置,防火2側縱框8中。在防火門16完全關閉的關閉位 框4的面之 ^扇面的周緣部是與門框4相對向。在門 10及第丨广平5之是在門前端側縱框8、門尾端側縱框 2〇,以 框12之與防火門16相對向的面設有密封材 將這此之^18將防火門1_於門框4時, 由橡脒二 貫地加以密封。此密封材20例如最好是 橡骖或夕孔橡膠等彈性構件所形成。 個宽第1圖所示,本實施形態是在防火門Μ的整 迻蔽防火門16之下緣朝向地板垂下成祿狀的 ==蔽材22在防火門16完全關閉的位置會遮蔽 ”地板之間的空隙。遮蔽材22最好是由彈性構 15 316229 1295335 件形成,只要使其可在關閉 高的遮煙效果。 置[接於地板,便可獲得更 本實施形態之防火門16在上 一掛門卢、、典认。厂 一畀/口者導軌6旋轉的 執6上L 而且是藉由門扇滑輪2 4懸掛支持在導 :6上。本貫施形態是使導軌6朝向關閉方向向下方傾斜 使防火門1 ό因本身重毋而白無 、 方 自動關閉,藉由使導軌6斜向下 ’便構成防火門16的自閉機構。 一面參照第3圖及第4 F1, 工Λ, 裝構造加以說明。弟4圖一面針對門扇滑輪Μ的安 如弟3圖及第4圖所示,具有將門扇滑輪載置於上 而==持的導執6,在相對於此導執6為橫向 :導Π 僅設有一個門扇滑輪24,將門扇滑輪Μ 能,而且nV?導執6之扣合點為知支持成可搖動的狀 =而且門扇滑輪24的安褒工具26與安裝於拉門Μ的安 :::28是經由朝向拉門16之門扇面方向延伸的樞轴〇 互連結成可旋轉的狀態。 右j第3圖及第4圖可得知,在門扇滑輪24的周圍形成 曰,可將導執6收容在此凹槽内而得到支持。 如第2圖所詳示,本實施形態之防火門用之閉鎖裝置 具有··用來調節防火門16之關閉速度的調速裝置3〇;以 及用來將防火門16之緣部在關閉位置向Η框4推壓的推壓 裝置18。 第5圖是本實施形態之防火門用之閉鎖裝置的推壓裝 置的俯視圖,顯示防火門位於就要關閉前之位置的狀態。 316229 1295335 不之VI-VI的向視圖,第7圖是 中,當防火門位於關閉位置時的 而第6圖是沿著第2圖所 在第5圖所示的推壓裝置 狀態圖。 推壓裝置18加以說明。 叫兀㈣不貝施形態之 並且=農置18是於防火門16上面設有可自由轉動, ,由支點使長短桿之長度有別的轉動曲轴桿主體 卜在此轉動曲軸桿主體31的 體38、4〇,力A曰, J 叹有紅轉 49 在軸扣32又設有作為彈壓機構的引拉彈# 4二而將曲轴桿32限制在初期位置,另一方面, 上框12側,盘曲站士θ q 〇 4 合因為門雜相同之水平面位置的安裝面設有 :口為閉㈣火門而使上述曲轴桿 接的轉向用拓举^ )疋将版別抵 框14¾有合田: 軸桿另一端的旋轉體40側的上 \有會㈣曲贿32轉動而抵接,並將防火門w 及轉動曲軸桿主體31 並猎由轉向用托架料 門丨6 堊用托架46,在全閉時將防火 心口:H則推壓,使其形成遮煙構造的推壓裝置18。 H細地針對推麼裝£ 18加以說明,則推屬裝置 主姊、31Γΐ揮倍力作用的旋轉曲轴桿主體31。旋轉曲軸桿 =面:、:相對於防火門16的上面安裝成可在包含此 上面的面内以旋轉幸由轉^, 件的曲軸产” 並且作為槓桿構 ::曲軸i2。而且,嶋置18又具有··為使轉動曲 轴杯主體3 1的力點側位於第 弟1上框12側’而將旋轉曲軸 朝凝轉旋轉定位之作為彈塵機構的引拉彈簧 316229 17 1295335 42 ;安裝於第1上框12側,在拉門16 ^ 用於旋轉曲軸桿主體31的力點 會:乍 彈性構…彈壓力,然後在力點P1推回彈 為轉向用構件的轉向用托架44;以及 ,件之作 軸桿32的長桿37被推回時,在作用點p 框曰,當曲 短桿39受力之作為推塵用構件的推壓用托架46軸桿32的 另外,旋轉曲軸桿主體31的 以旋轉軸線0,為中心,並朝防 :正個是由形成 形狀的長桿37及短桿 i 6的開啟方向彎曲之 字形狀。這些長桿37與短桿39 n&由正版疋形成< 照第5圖)是9 W 即曲車由角度α(參 η ^ 之摩巳圍的任何角度。在具萨π 且# 39的各個前端部安農有旋轉體、4 及推厂堅用托架46上移動時的摩擦減少至最二 對於防火門1⑼橫向延伸,而旋轉曲 的推^托'46的面是朝防火門16的開閉方向延伸。_ 夕,推壓裝置18是藉由上述引 曲轴桿主體31,俾可將曲軸桿32的長桿;7、 (=:置ΓΓΓ:…(第5圖的箭頭所示)傾斜W 位置)。而轉向用托架料是在第!上框】2,或是相射 於弟1上框12側的建物壁面,安裝在 一 ' 關閉前長桿37所抵接的 推 J 6此要完全 2上框14。 1而推Μ用托架46是設在第 相對於作用在旋轉曲_主體3】之力點心力的方 316229 1295335 向從旋轉軸線〇,延伸的 7圖),比相對於作 ^也就疋⑦1臂部34(參照第 線〇,延伸的垂& 2 _P2的力的方向從旋轉車由 亦即,第2臂部36(參照第7圖)長。 件46的反力嘹為才件44的反力設為F卜將推壓用構 第2臂^具南 將第1臂部34的長度設為U,將 弟2 ##的長度設為L2時 將 可用以下式子來表示。二力所產生的力矩的關係 Fix Ll=F2x L2 最:==閉力F1獲得較大的㈣- 加以::耒’針對本實施形態之閉鎖裝置的調速裝置3。 第8圖是沿著第 視部分剖視圖。 所不之調速裝置之VI11铺的向 扇滑C置30是如第1圖及第2圖所示僅設在-方的門 ::广。-面參照第8圖,—面針 : 造加以說明。門戶、、成Μ A 、衣罝j ◦的構 安裝於安,托4的門扇滑輪軸48是經由軸承50 安裝於門扇滑輪24的安裝托』=;8置的3另-端侧, 由作為單向運動傳達機構 。、裝置30具有:經 軸48之另一早向軸承52安裝於門扇滑輪 为 令而4的大徑滑輪54 · ri芬5 … 而設置的發電撫“ „ 以及與大徑滑輪54相鄰 , 。备電機56的旋轉軸58是I η戶、> γ 軸48平行而配置 疋、門扇滑輪 料裝置又具有:安裝於發電機56之 19 316229 1295335 而且直徑比大徑滑輪54小的小徑滑輪60;以 葬由、Γ骨輪6〇 &大徑滑輪54相互連結的環狀皮帶55。 向曰軸承輪6〇及大徑滑輪M便構成加快機構。藉由單 門,當防火門16從_位置朝㈣位置移動時, 沿著導執6旋轉所產生的門扇滑輪轴48之旋 朝關閉it達至大徑滑輪M,但在防火門16從開啟位置 移動時’門扇滑輪軸48的旋轉就會傳達至大徑 行^閉運^,門扇滑輪轴48的旋轉只會在防火門16進 =傳達至發電機%的旋轉軸。另外,在發電機 、珣出黾線連接有可變電阻器62。 第9圖是調速裝置30的電路圖。 忾前方Π3° θ在門刖端從開啟位置到達關閉位置稍 心方(弟!圖的d!所示)的預定位置 速度減速至比自閉機構所產生的關閉速度= 第1速度,而從預定位置P到關 度快的第2速度。若—面參昭第9H 9加决至比弟1速 能之w u …弟9圖,一面針對本實施形 Ά周速裝置30的電路加以說明,則調速展置3 . 發電機56 ;設在發電機56之輸出的第 ”有’ 對於此並聯連接的第2可變電阻66 ; ^ 64 ;相 與第2可變電阻66之間進行切換 可變電阻64 及設在建物側的開關切換部72(第開關68及7〇;以 部72是設在防火門1…驗置正:方^ 距離d2之處。此預定距離d2的決定方向)預定 的門前端位於預定位置P時,…f式…火門16 4可猎由開關切換部72使切 316229 20 1295335 :奐:關6 8及7 〇動作。防火門〗6在開閉方向 =?= 纽方向時是藉由切換開關…:使電 開關切換部72,切換開關68及7。 J閉=通過 值。 U就㈢切換亚且切換電阻 面說明本實施形態之閉 —面參照第5圖及第7圖, 鎖裝置1的推壓裝置18的動作c 右要說明推壓裝置的動作,則是者 閉時,也就是在第2圖、第5圖中當:火門::始關 動時’到第5圖所示的防火門:°右私 的曲鉍护Η丄1 J仅置為止,防火門上面 曲軸才干32疋由引拉彈簧4 位置(第5圖之實線所表示⑽位置而保持預定 4時6曲=32之短— 46,之後逐漸推塵防火門16 ^用托木 壓預定距離,然後推壓設在開口火門16會被推 遮蔽開口部。 11的遮煙構件而完全 若要更詳細說明推壓裝置Μ 朝關閉方向(第5圖及第7圖 動作’就使防火門16 16的關閉位置之前,曲轴 右)移動。在防火門 向彈壓,並且定位在第5圖‘刀^置簧:關閉方 之門前端就要到達關閉值置時(繁/刀4位置。在防火門k 長捍37之前端的旋轉體38會 圖所不的位置),設在 曰°在轉向用牦架44的面。 316229 2] 1295335 當防火門16再朝關閉方向 因為轉向用托架44而抵抗彈疋轉曲轴桿主體31會 軸線〇,為中心朝防火門16的;啟方=,然後以旋轉 第7圖所示的本實施形態是朝逆時針:回。亦即’在 中,設在短桿39之前端 向旋轉。在此過程 46。推壓用托架46合?為輅粗40會抵接於推壓用托架 壓用托架46是固定:第;:=39而來的力,但由於推 時,由於短桿39之前端的旋^因此在曲轴桿32旋轉 火門i 6合^他「轉體4 〇會受到推壓,所以防 2 ;1_壓用托架4“如 I 12側移動,亚且如第7 的關閉位置,防火門16合 …15方火門16完全關閉 火門推向門框4。本實施形態的防 巧6㈢被推壓於門前端側 第1上框u。由於在防火門心、1^側門框10及 20,因此可更為確保這㈣件之;Γ間設有密封材 一傅仟之間的密閉狀態。 期門r鐘:第5圖所示的位置移動到第7圖所示的位置 期間,旋轉體38、40會在 置 之面上 ^ Α Ό托呆44及推壓用托架4ό 4移動2 移動。亦即,隨著防火門16朝向門框 二?Γ抽桿主體31的旋轉體州 =編筆直延伸的轉向用托架44之面移動。而旋 =干主體31的旋轉體40會隨著旋轉曲轴桿主體31 的方疋轉而沿著朝防火η 1 6 1 4開閉方向延伸的推壓用牦架 面^動。到達防火門16的關閉位置時(第7圖所示的 ):糟由推屢裝置18’防火門16會被強綱於門框 方人門會因為與門框4之間的摩擦力而無法再朝開 316229 22 1295335 啟方向移動,旋轉曲軸桿 上停止。 版便會在第7圖所示的位置 在此,一面參照第3 藉由推壓裝置18而推斤於圖及^ 4圖,—面針對防火門16 以說明。當防火Η 心==防火心之動作加 門扇滑輪24用的安裝杯加 、罝1 8而被推向門框4時, 心旋轉(第3圖及第4 : 26會:與導執6之扣合部為中 24用的安裝托架26相對於防^針由於門扇滑輪 在旋轉軸線0連結成$ 6用的安裝托架28是 是以垂直垂下的狀=由轉動的狀態,因此防火門Μ 卜的狀怨朝向門框4移動。 接下來,若要針對開啟防 是隨著防火門16的移動,使曲6的^況加以說明,則 =〇也會繼用托㈣分離,使轉 針對調速震 接下來,一面參照第8圖及第9圖,一 置3〇的動作加以說明。 ★首先,利用可變電阻器62的調節轉盤69及71 弟1可變電阻64及第2可變電阻66的各個電阻值 1速度及第2速度設定成所希望的速度。此外,為使第^ 速度比第1速度快’第2可變電阻66的帛2電阻值是設; 成比第1可變電阻64的第1電阻值大。 用手將防火門16打開至第i圖所示的開啟位置。此 時,門扇滑輪24會旋轉,但由於單向軸永 干丨」W取52,門扇滑輜BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a locking device used for a sliding door supported by a door leaf pulley and having a self-closing mechanism that automatically closes, and more specifically A locking device, for example, which can completely lock a sliding door type fire door. [Prior Art] In order to prevent the burning in the event of a fire, (4) there will be a fire door in the exit passage. The fire door has: the door leaf buckle is normally opened in the open state. The buckle is only released when it is in an emergency. _ The time-open fire protection ^'2 and the normally closed state are manually opened when passing: fire protection Doors. No matter which kind of fire door is equipped with a self-closing mechanism to be automatically closed. 曰 From η fires in recent years, because the chance of burning smoke of smouldering smoke is still ancient, Tian + ^, 午 汉It is asked by 4, so the 'fire dam is not only used to prevent the smog accident prevention function. Therefore, it is not enough to close the door: it is also necessary to prevent the smoke from leaking from the periphery of the fire door. In the past, it has been known that the door frame of the fire door is closely connected to the door frame around the opening of the passage to make it close to each other. In the past, for example, the Japanese version of the Japanese translation (Patent Document 13 and the Japanese Special Fair 6-847 (4) bulletin (specialized) ^ The wedge member and the induction rotor described in Document 2) are widely used. The adhesion mechanism is to mount the model member to the fire door, and the induction rotor is fixed to the building side by making the wedge member relative to Induced rotor In the case of the fire door, the fire door is pushed to the door frame on the opposite side. 316229 5 1295335 [Patent Document 1] 曰本实开昭5 3rd figure (10) 93866 is the bulletin, 2nd drawing, [Patent Document 2] 3, 7th, 10th, and #2, and [invention] (the object to be solved by the invention), the transverse member of Patent Document 1 and the method of inducing the rotor induce the V rotor to sometimes be wedged. The structure of the door stops at the middle of the material of the #-piece, and returns in the direction of the opening of the Guang Dynasty without being completely closed. -: The king is closed, and the smoke and the flame will peep into it. It is difficult to set the inclination angle. Tilt: 2 =: 2 The ink pushing force will become smaller. If the tilt angle is increased, the wedge member and the child will stop when they abut each other, so that the fire door cannot change the position s, and the other 2 forcefully closes the door leaf, the door leaf Will be strongly pushed to the door frame, the opening of the day will occur due to overweight and the law is set in the first month of October, because it is usually open, only in an emergency, only closed, ', so there will be nothing Convenient, but in the case of f closed fire doors ^ ordinary people When they want to pass, they must open the door leaf by themselves, but the opening and closing is very heavy, so it is not ideal. ' Yu, the first object of the present invention is to provide a locking device for the sliding door which can completely close the sliding door. A second object of the present invention is to provide a sliding door pressing device that can open and close a door leaf with a small force. 316229 1295335 (Means for Solving the Problem) The above first object of the present invention can be achieved by the first aspect. According to the invention of the locking device, the sliding door is suspended and supported by the door leaf pulley, and has a self-closing _ that automatically closes, and in the closed position, the edge of the sliding door is arranged to be the same as the door frame. The locking device for the opposite sliding door, /, "there is a speed governing mechanism for closing the closing speed of the sliding door; and the pressing mechanism for pushing the edge of the pulling: to the door frame in the closed position." Before the predetermined position in front of the closed position, the speed governing mechanism decelerates the closing speed of the sliding door to be slower than the speed of the sliding door, and accelerates from the predetermined position toward the closed position. According to the invention of the first aspect, since the closing speed of the sliding door is decelerated before the predetermined position before the closing position of the sliding door, the sliding door cannot easily collide with the passing person. On the other hand, when the predetermined position is reached, since it is accelerated toward the closed position, even if the sliding mechanism acts on the sliding door in the opening direction due to the pressing mechanism, it will be closed at an accelerated speed, so the sliding door will be closed. The power is completely _. Therefore, since the sliding door is disposed at a position opposite to the door frame, and the pressing mechanism pushes the sliding door toward the frame, the sealing state can be ensured. Further, the predetermined position and the acceleration speed at which the closing speed of the sliding door starts to be increased are determined in accordance with the relationship with the pressing device used, as long as the sliding door can be completely closed. According to the first aspect: the invention 'in the case where the sliding door is a fire door, the flame and the thick smoke are not easy to enter, and in the case of a sliding door belonging to other uses, the two sides of the sliding door can be cut off' It prevents the inflow of external gases at different temperatures. Further, in the first embodiment of the invention, the speed governing device has: 7 316229 1295335, which is operated by the rotation of the door leaf pulley, and is used by the generator of the turn, the door, the wheel, and the wheel. Rotate to two: The rotation of the bone wheel does not pass during the opening of the sliding door = the resistance of the age and the output of the generator _ the resistance is at the predetermined position m / so that the closing speed of the sliding door - in the pre-turn position Then, the speed is decelerated to the desired speed value so that the speed: value change mechanism is accelerated from the predetermined position to the closed position. In this embodiment, the speed of the speed is closed by the use of the heart. Moreover, the above-mentioned first object of the present invention can achieve the "sliding support", which is automatically closed by the portal, the privately-held brother, and the automatic closing of the door. The closing mechanism, when in the closed position, is pulled to oppose the door frame, the locking device for the sliding door has a speed adjusting mechanism for the closing speed of the sliding door; and when the wire pushes the sliding door toward the door frame (4) The mechanism, deceleration in the closing speed: the pre-position 'speed governing mechanism can make the sliding door close so that the sliding door is in the closing position;; can be == into the self-closing mechanism without hunting, but will not slow down. In the invention of the first state, the closing speed of the sliding door is decelerated due to the K setting before the closing position of the sliding door, so that the sliding door is not easy to hit. On the other hand, when the vehicle is in the predetermined position, the governor is in the H-braking state. The door can be decelerated by the self-closing mechanism before the door is closed. Therefore, the closing speed of the sliding door is set to be faster toward the closing position 316229 8 1295335, even if the sliding door is applied by the pressing mechanism in the opening direction: the force will still be at an accelerated speed, so the sliding door will follow The closing force is completely closed. Therefore, since the sliding door is disposed at a position opposite to the door frame, and the sliding door pushes the sliding door toward the door frame at this position, the sealing state is ensured. The predetermined position at which the closing speed starts to be accelerated can be determined according to the relationship with the pressing device used, so that the sliding door can be completely closed. The second aspect of the invention towel, in the case that the sliding door is a fire door, the flame And the smoke is not easy to break in, but in the other use of the sliding door of the moon brother, the shell J can break the front and rear sides of the sliding door, and prevent no gas from flowing in. ! U Budi 2 state of the invention embodiment , the peripheral speed device has: the rotation of the wheel and the action, and is used to suppress the door leaf slip: the machine; the rotation of the W is not turned on when the sliding door is opened (4) and is not transmitted to the hair 1 and is transmitted to the hair during the pull (10) closing period. One-way motion of the motor to the machine Output the connected resistance; the resistance value of the resistor can be lowered: the value 'decels the closing speed of the sliding door before the (four) position to the motion: speed: the resistance changing mechanism; and the predetermined position before the predetermined position The mechanism to the closed position is set to 0FF. Doors =, in the first and second aspects of the invention, the towel has a guide that will be supported by the top two, and in contrast to the guide:::: ::The central control will install the door leaf pulley in the guide (4): the state of pulling, and the installation tool of the door leaf pulley and the holding shaft and the mutual tool (4) are connected in a rotatable state by extending toward the door of the sliding door. Therefore, Pushing device for 316229 9 1295335 When the door frame is pushed to the lateral direction, the horizontal pulley will be slid with the guide point A, ° in the relative position of the guide, ''u, oblique, and Therefore, the tilting implements are mounted on the sliding door, and the installation tools are turned to each other; 1::: the installation tool is suspended, and the sliding door is pushed by the state = minus. Therefore, the sliding door and the door frame can be There is no gap between them:::: door leaf pulley and pull The installation tool of the door leaf pulley, the installation tool of the Archer door, and the arrangement of the second working device and the sliding door are respectively connected to each other, and the intermediate tool and the mounting tool attached to the sliding door are respectively extended. The habitat axes are connected to each other in a rotatable state. Because: = for the lateral section of the guide, the door leaf pulley cannot be constructed with: a wide-centered structure. When the sliding door is pushed by the pushing device, The door leaf pulley is still tilted centering on the two pivots that are perpendicular to one, and the sliding door is: hanging down:: pushed by the dust pushing device toward the door frame. Therefore, it is possible to push the door and the door with a gap. And the above-mentioned second object of the present invention can be pushed by the sliding door to be set, and the chowder is suspended by the fan pulley to support the closed-closed self-closing mechanism, and in the closed position, the sliding door is The two sides of the fan are disposed opposite to the door frame, wherein the door frame has a sliding door, a second and a second frame, and an upper frame and a second upper frame, and the wire surface t is mounted on the upper surface relative to the heart. a rod member whose inner surface is rotated by a rotation axis; a dusting mechanism for positioning the lever member in the rotational direction so that the force point of the lever member is located on the frame side of the ith 316229 10 1295335; On the upper frame side, a force member acting on the lever member before the sliding door is closed, a steering member that is pushed back against the force point when the sliding door is closed to resist the elastic pressure generated by the elastic mechanism; And a member for pushing the force at the action point when the lever member is pushed back on the second upper frame side; and: the rotation axis extends at a right angle to the direction of the force acting on the force point of the lever member 1 The length of the arm is proportional to the point of action from the axis of rotation The direction of the force is long in the length of the second arm extending at right angles. In the invention of the component device, before the sliding door is closed, the lever s is engaged with the steering bracket at the force point, and is resisted by the elastic force generated by the holy mechanism as the sliding door is closed, thereby being pushed back. Abuts the push (four) bracket. Furthermore, since the lever member will rotate ^_ by the force of the member, the sliding door will be pushed toward the face of the door frame: 'When the sliding door is to be opened, as the lever member is turned away from the truss, it is only The force point side of the member will return to the closing direction of the sliding door due to the biasing mechanism, so that the pulling force can be moved away from the surface of the door frame, and the energy can be in the absence of resistance. In the present invention, the first arm is more than the second arm. Because the hunting is leveraged, the force can be opened and closed with a small force to push the sliding door against the door frame. In the embodiment of the sliding device for sliding door according to the present invention, the lever force point and the action point are respectively provided with rollers that rotatably abut against the member for steering pressure control. It can be reduced in strength and work. It can be opened and closed more easily. Further, in the embodiment of the sliding device for a sliding door of the present invention, the lever 11 316229 1295335 =, the rotating member and the red (four) member are at the position of the door end side and the rear end side of the door to be closed, so The sliding door is crimped to the door frame. u, the embodiment of the whole component device is more preferably configured to extend the position of the lever and the rear end side of the door: f on the front end side of the door of the sliding door, and to extend the second to the first frame line for the steering, and Acting on the push-pull 搂, the long cup, and the rotation axis and the short rod are formed with the rotation axis as the middle = dry' and have the long rods connected, so that the == rods are mutually connected by Lianzaki ^ It is arranged to be: - a long rod for the hair, and extending from the axis of rotation, the afternoon force member, and having a rotation of the long rod and the short rod: the rotation of the shape of the two-direction bending Crankshaft body; again: the rotating body of the side end side of the body and the :::: device to achieve, the 2nd: can be closed by the sliding door with the sliding door sliding door hanging by the door pulley The self-closing mechanism that supports automatic closing, and the door of the sliding door will be closed in the closed position:: 3] 6229 12 1295335 , := The heart is placed opposite the door frame. 'There is: used to make the sliding door off::: dephasing a speed adjusting mechanism; and the above pressing device. According to the locking device, the sliding door pressing device configured as described above can be used The smaller force opens and closes the sliding door, and at the same time pushes the sliding door to the door frame with a large force. :: The above second object of the present invention can also be achieved by the locking f for the sliding door, which is borrowed Suspended by a door leaf pulley, and has a self-closing mechanism that automatically closes, and in the closed position, the rake surface = is arranged to face the door frame, wherein the above-mentioned pushing device: the root 'can be pulled by the above The door pushes the device to compare the white, force! opening and closing the sliding door' while pushing the sliding door to the door frame with a large force. Moreover, the above second object of the present invention can also be achieved by the fireproof sliding door upper part 2: : The door pressing device achieves that the pressing device is a three-way door front end vertical frame, an opening upper frame, and an open two-tailed side vertical frame at the opening of the fire door When fully closed, it will contact any of the three-way force and the π-portion of the opening, and a lifting member having a structure in which the elastic member forms a smoke-blocking structure when fully closed can be freely rotated and supported by: The crankshaft is set on the upper part of the fire door...the crankshaft of the difference in length and length There are rotating bodies at both ends of the crank rod, and two locks on the opening part: the same horizontal position of the two crank rods t, and there is a turning bracket for the other side of the crank rod pole due to the fireproof frame. The upper frame of the limb side is provided to be abutted by the rotation of the crank rod, and is used for the fireproof frame, and the bracket for the steering portion is used for the second two parts, the main body and the above-mentioned cymbal The square door is pressed toward the opening side to form a 316229 13 1295335 smoke shielding structure. (Effect of the invention) ... The locking device for the sliding door according to the first and second aspects described above is The sliding position of the sliding door is decelerated before the predetermined position before the closing position of the sliding door, so that the sliding door is not easy to collide with the passing person, and on the other hand, the closing speed is accelerated after the predetermined position, so that the sliding door can be completely closed. In the door frame, it can prevent smoke, fire, and external air from entering. Further, according to the pressing device for a sliding door of the present invention, the opening and closing of the door leaf can be performed with a small force. That is, the pressing device for the sliding door of the present invention is closed by a small force by the principle of the lever, and can push the sliding door with a large force, so that the sliding door can be more reliably The sealing effect is pressed to seal the gap and prevent the inflow of smoke or the like. Moreover, it is also easier to open by the principle of the lever when opening, so even a normally closed fire door can be opened and closed more easily than a conventional fire door. [Embodiment] Hereinafter, embodiments of the invention will be described with reference to the drawings. Further, the locking device and the pressing device for the sliding door of the present invention can be applied to the sliding door of any use, but the following embodiment is directed to the case where the sliding door is a normally closed fire door. Fig. 1 is an overall view of a fire door to which a lock device for a fire door according to an embodiment of the present invention is attached, and a mounting portion to be mounted on the structure, and shows a state in which the fire door is fully opened. 2 is a perspective view of the upper part of the fire door of Fig. 1, and Fig. 3 is a view of the III-III of the III-III shown in Fig. 2, 14 316229 1295335, and the figure 4 is _ face The view of the IV-IV shown in Figure 2. The structure of the anti-lock device 1 of the present embodiment will be described with reference to the first embodiment of the fire lock. The 1st figure of the sergeant is 牵m ^ The H m of the mouth 2 is not, and the building side is placed above the frame 4 where the opening of the door is closed by the person facing the fireproof frame 4 ) The guide rail 6 that is inclined downward. Door end: in the closed state, the door front side of the fire door 16 is opposite to the J-direction door rain end side vertical frame 8, the door end portion of the fire door 16 and the door end side vertical frame 1G; The first upper frame 12 and the second upper frame 14 on the display side of the fire prevention (10) are sandwiched. In addition, the first direction is prevented; = the second door is placed on (4). The front end side vertical frame 8 is formed in a cross section toward the wUm shape (shown in Fig. 5), and can be accommodated in the front end portion of the door of the fire door type in the fire door type, and the fireproof 2 side vertical frame 8 in. The peripheral portion of the face of the closing position frame 4 in which the fire door 16 is completely closed is opposed to the door frame 4. In the door 10 and the third floor of the third floor, the front frame side vertical frame 8 and the door end side vertical frame 2 are provided with a sealing material on the surface of the frame 12 facing the fire door 16 to be used. When the fire door 1_ is attached to the door frame 4, it is sealed by the rubber. This sealing material 20 is preferably formed, for example, of an elastic member such as a rubber or a matte rubber. As shown in Fig. 1, the present embodiment is such that the lower edge of the fire door sill is swayed toward the floor at the lower edge of the fire damper. The == cover material 22 is shielded at the position where the fire door 16 is completely closed. Between the gaps, the masking material 22 is preferably formed of a resilient structure 15 316229 1295335, as long as it can close the high smoke shielding effect. [Connected to the floor, the fire door 16 of this embodiment can be obtained. On the last door, Lu, and the code. The factory 畀 / mouth guide 6 rotation of the 6 on the L and is supported by the door pulley 2 4 suspension on the guide: 6. The form is to make the guide rail 6 facing off The direction is inclined downward so that the fire door 1 is automatically closed due to its own weight, and the rail 6 is inclined downwardly to constitute a self-closing mechanism of the fire door 16. Referring to Figures 3 and 4F1, The structure of the work, the structure is explained. The figure of the brother 4 is directed to the Anrudi 3 and the fourth figure of the door pulley, and has a guide 6 for placing the door pulley on the top and == Guide 6 is horizontal: guide Π only one door leaf pulley 24, the door leaf pulley Μ, and nV? guide 6 The snap-fit point is known to be supported as a rockable shape = and the ampoules 26 of the door leaf pulley 24 and the ampere-mounted:::28 mounted on the sill are pivot 〇 interconnects extending toward the door sector of the sliding door 16. In a state in which it can be rotated. It can be seen from the right j, Fig. 3 and Fig. 4 that a weir is formed around the door leaf pulley 24, and the guide 6 can be received in the groove for support. As shown in Fig. 2 The lock device for a fire door of the present embodiment has a speed governing device 3 for adjusting the closing speed of the fire door 16, and a pusher for pushing the edge of the fire door 16 toward the frame 4 in the closed position. Fig. 5 is a plan view of the pressing device of the lock device for a fire door according to the embodiment, showing a state in which the fire door is located before being closed. 316229 1295335 Not the view of the VI-VI, Fig. 7 is a view showing a state in which the fire door is in the closed position and Fig. 6 is a state of the pressing device shown in Fig. 5 in Fig. 2. The pressing device 18 is explained. Form and = farmer 18 is provided on the fire door 16 is free to rotate, by the fulcrum The length of the long and short rods is rotated to rotate the crankshaft main body. Here, the body 38, 4〇 of the crank rod main body 31 is rotated, and the force A曰, J sighs with a red turn 49. The shaft buckle 32 is further provided with a tensioning mechanism as a spring pulling mechanism. The bomb #32 is used to restrain the crankshaft 32 in the initial position. On the other hand, on the upper frame 12 side, the winding station θ q 〇4 is combined with the same horizontal surface position as the door surface: the port is closed (four) fire door The steering extension for the above-mentioned crankshaft lever ^ ) 疋 版 抵 143 143 143 143 143 143 143 143 143 143 143 143 143 143 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : w and the crankshaft main body 31 are rotated and the steering bracket sill 6 is used for the bracket 46, and when the vehicle is fully closed, the fireproof core: H is pressed to form the pressing device 18 for the smoke shielding structure. H is described in detail for the push-fit device 18, and the pusher device main body 31 is used to rotate the crankshaft main body 31. Rotating crankshaft = face:,: mounted on the upper surface of the fire door 16 so as to be rotatable in the plane containing the upper surface, and as a lever structure:: crankshaft i2. 18 is further provided with a pull-out spring 316229 17 1295335 42 as a dust-collecting mechanism for positioning the rotating crankshaft toward the condensing rotation in order to rotate the crank cup main body 3 1 on the side of the first frame 12 of the first crank 1; On the side of the first upper frame 12, at the force point of the sliding door 16 ^ for rotating the crank rod main body 31, the elastic force of the elastic member is pushed, and then the steering bracket 44 for the steering member is pushed back at the force point P1. And when the long rod 37 of the shaft 32 is pushed back, it is framed at the point of action p, and when the curved rod 39 is forced to act as the pushing member 46 of the pushing member 46, the shaft 32 is additionally The rotating crankshaft main body 31 is centered on the rotation axis 0, and is prevented from being bent: the positive shape is curved by the opening direction of the formed long rod 37 and the short rod i6. These long rods 37 and short rods 39 n&formed by genuine &< according to Figure 5) is 9 W that is the angle of the curved car from the angle α (refer to the η ^ of the 巳 任何. When the front end portions of the saddle π and #39 are mounted on the rotating body, 4 and the pusher bracket 46, the friction is reduced to the second, and the fire door 1 (9) is laterally extended, and the rotating song is pushed. The face of 46 extends toward the opening and closing direction of the fire door 16. On the other hand, the pressing device 18 is a long rod of the crank rod 32 by the above-mentioned crank rod main body 31; (=: ΓΓΓ:... The arrow in Fig. 5 shows the position of the tilting W.) The steering bracket is in the upper frame of the second frame, or the wall of the building on the side of the upper frame 12 of the younger one, and is mounted before the 'closed' The push J 6 abutted by the rod 37 is completely 2 upper frame 14. 1 and the pusher bracket 46 is disposed at a side opposite to the force 316229 1295335 acting on the rotating curved body 3 The axis 〇, the extended 7 figure) is the same as the relative arm 34 71 arm portion 34 (refer to the direction of the force of the extension 的 & 2 _P2 from the rotating vehicle, that is, the second arm portion 36 (Refer to Fig. 7). The reaction force of the member 46 is the reaction force of the member 44, and the length of the first arm portion 34 is set to U. 2 ## length is set to L2 The following formula can be used to express the relationship between the torque generated by the two forces. Fix Ll=F2x L2. Most:==The closing force F1 is larger (four) - and the following:: 耒 'Speed adjustment for the locking device of the present embodiment Device 3. Fig. 8 is a cross-sectional view along the front view. The fan-slip C set 30 of the VI11 of the speed governor is a door that is only provided in the square as shown in Figs. 1 and 2: Wide.- Face reference to Figure 8, - face needle: made to explain. The portal, the Μ 、, and the 罝 罝 ◦ are attached to the amp, and the door pulley shaft 48 of the bracket 4 is attached to the door pulley 24 via the bearing 50 』 = 8 is placed on the other end side, One-way motion communication mechanism. The device 30 has a power transmission handle "" disposed on the large-diameter pulley 54 of the door pulley 52, and a large-diameter pulley 54 adjacent to the large-diameter pulley 54. The rotating shaft 58 of the standby motor 56 is I η, and the γ axis 48 is arranged in parallel. The door pulley material device has a small diameter pulley that is mounted on the generator 56 and has a smaller diameter than the large diameter pulley 54. 60; an endless belt 55 which is connected to each other by a funeral, a humeral wheel 6 〇 & a large diameter pulley 54. The 曰 曰 bearing wheel 6〇 and the large diameter pulley M constitute an acceleration mechanism. With a single door, when the fire door 16 moves from the _ position toward the (four) position, the rotation of the door leaf pulley shaft 48 generated along the guide 6 is turned to close to the large diameter pulley M, but the fire door 16 is opened. When the position is moved, the rotation of the door pulley shaft 48 is transmitted to the large diameter line ^closing, and the rotation of the door pulley shaft 48 is only transmitted to the rotating shaft of the generator %. Further, a variable resistor 62 is connected to the generator and the twist line. FIG. 9 is a circuit diagram of the speed governing device 30.忾3° θ in front of the 刖 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在The predetermined position P is at a second speed that is fast. If the face-to-face H9 9 9 is added to the 1 弟 弟 弟 弟 弟 弟 , , , , , , 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟 弟The first variable resistor 66 of the output of the generator 56 is connected to the second variable resistor 66; ^ 64; the phase and the second variable resistor 66 are switched between the variable resistor 64 and the switch provided on the building side. The portion 72 (the switches 68 and 7; the portion 72 is located at the fire door 1 ... the inspection positive: square ^ distance d2. The predetermined direction of the predetermined distance d2) when the predetermined front end of the door is at the predetermined position P, ... f type...The fire door 16 4 can be hunted by the switch switching unit 72 to cut 316229 20 1295335 : 奂: off 6 8 and 7 〇 action. Fire door 〗 6 in the opening and closing direction =? = button direction is by switching the switch...: The electric switch switching unit 72 is switched, and the switches 68 and 7 are switched. J is closed = pass value. U is (3) switching sub-switching and resisting surface description The closing surface of the present embodiment will be described with reference to FIGS. 5 and 7 and the pushing device 1 is pushed. The operation c of the pressure device 18 will be described on the right side of the operation of the pressing device, that is, when it is closed, that is, in the second figure and the fifth figure: when the fire door:: When the fire door shown in Figure 5: ° right private curved 铋 Η丄 1 J is only placed, the crankshaft above the fire door is only 32 疋 by the tension spring 4 position (shown by the solid line in Figure 5 (10) The position is kept at 4 o'clock and 6 seconds = 32 short - 46, and then the dust door 16 is gradually pushed. The predetermined distance is pressed by the pallet, and then the pressing is provided at the opening fire door 16 to be shielded from the opening. For the component, it is necessary to explain in more detail the pressing device Μ in the closing direction (the action of the fifth and seventh diagrams is to move the crankshaft right before the closed position of the fire door 16 16). The fire door is biased and positioned Figure 5 'knife ^ spring: close the front end of the door to reach the closing value (tradition / knife 4 position. The position of the rotating body 38 at the front end of the fire door k long 捍 37 will not be shown), set in曰° is on the face of the steering truss 44. 316229 2] 1295335 When the fire door 16 is again in the closing direction, the steering bracket 44 is resisted by the bobbin, and the crankshaft main body 31 is axially 〇, centered toward the fire door 16; Start =, then rotate this figure shown in Figure 7 counterclockwise: back. In the process, the front end of the short rod 39 is rotated. In this process 46, the pressing bracket 46 is closed to the upset 40 and is abutted against the pressing bracket. The bracket 46 is fixed: first: := The force from 39, but due to the push, due to the rotation of the front end of the short rod 39, the crankshaft 32 rotates the fire door i 6 and he "turns the body 4 〇 will be pushed, so the 2; 1_ press The bracket 4 "moves as I 12 side, and the seventh position is closed, the fire door 16 is closed... the 15 square fire door 16 completely closes the fire door and pushes toward the door frame 4. The anti-knock 6 (3) of the present embodiment is pressed against the first upper frame u on the front end side of the door. Because of the fire door center and the side door frames 10 and 20, the (4) pieces can be more ensured; the sealing material is sealed between the turns. Period gate r: When the position shown in Fig. 5 is moved to the position shown in Fig. 7, the rotating bodies 38, 40 will be placed on the surface ^ Ό Ό 44 and the pressing bracket 4 ό 4 move 2 mobile. That is, as the fire door 16 faces the door frame two? The rotator of the ram main body 31 is moved to the surface of the steering bracket 44 that extends straight. On the other hand, the rotary body 40 of the dry main body 31 rotates along the direction of the rotation of the crankshaft main body 31 along the pressing truss surface extending in the opening and closing direction of the fire prevention η 1 6 1 4 . When the closed position of the fire door 16 is reached (as shown in Fig. 7): the fire door 16 will be forced to be hardened by the friction between the door frame 4 and the door frame 4 Open 316229 22 1295335 Move in the starting direction and stop on the rotating crankshaft. The version will be shown in Fig. 7 here, with reference to the third by means of the pressing device 18, and the surface of the fireproof door 16 will be described. When the fireproof = heart == fire heart action, the mounting cup for the door leaf pulley 24 is added, and the door is pushed to the door frame 4, the heart rotates (Fig. 3 and 4: 26: buckle with the guide 6) The mounting bracket 26 for the middle portion 24 is a state in which the mounting bracket 28 for connecting the brackets to the rotation axis 0 at the rotation axis 0 is rotated vertically. Bu's grievances move toward the door frame 4. Next, if the opening prevention is to be explained with the movement of the fire door 16, the 66 will be explained, then 〇 will also be used to separate the four (4) The quick shock will be described next with reference to Fig. 8 and Fig. 9 and the operation of a set of 3 turns. ★ First, the adjustment dials 69 and 71 of the variable resistor 62 are used, and the first variable resistor 64 and the second variable are used. Each of the resistance values 1 of the resistor 66 and the second speed are set to a desired speed. Further, in order to make the second speed faster than the first speed, the 帛2 resistance value of the second variable resistor 66 is set; The first resistance value of the variable resistor 64 is large. The fire door 16 is opened by hand to the open position shown in Fig. i. At this time, the door leaf pulley 24 Rotation, but the axis of the unidirectional permanent dry Shu "W taken 52, the slide door y
9Q 316229 1295335 車^8的旋轉並不會經由大徑滑輪$ 滑輪60傳这δ+ n f狀皮页55及小控 並不會動:二機56的旋轉轴58。因此,發⑽ 就會二身:而::從防火門16放開時’防火㈣ 藉此,門户1沿著導軌6朝向關閉位置移動。 1扇⑺輪24就會旋轉,並且經 扇滑輪軸沾浐姑 1且、工由早向軸承52,門 的疋轉就會經由大徑滑輪54、環狀虔# 55 3 56 " Ιί 機56動作β在磁場内,一旦發電機 轉“ 電流就會流到電抱,並且因為可變電阻而:,5“疋轉, 發電機56#,含I U為了义包阻而使電壓變高而對 是6轭加負載,並且對於旋轉軸58產 制動力是從小徑滑_ 6〇妳出广处由* 生制動力。该 滑幹54 ^戶 辰狀皮帶55依序傳達至大徑 制動\ 扇滑輪4 8,並且對於門扇滑輪2 4的旋轉施以 =力。儘言防火門16想沿著傾斜的導執6加速行進,作 門扇滑輪24的旋轉會因為此制動力而受 ; 16的關閉速度減慢。 人門 繼之,若針對電路加以言兒日月,則在初期位置是藉由切 換開關68使第i可變電阻64導通。使防火16 ^扇滑 輪24沿著傾斜的導軌6轉動而開始關閉’並且以藉由月 1 可變電阻64而減速的第1關閉速度行進。當防火門弟從 1啟位置朝關閉位置行進,使門前端到達上述預定位置^ 時,第1可變電阻64側的切換開關68會因為開關切換部 72而成為OFF,第2可變電阻66侧的切換開關7〇會成為 ON,使第1可變電阻64變成無效,使第2可變電阻66微 成有效。藉此,對於發電機56會要求更大的電流而使旋= 316229 24 1295335 轴58之旋轉的制動減輕,防火門! 第"㈣速度快的第2關閉速度,比 ==7Γ成為,第1可變電__ 、 ㈢成為ON,使第2可變電阻料 第1可變電阻☆ 變成無效,使 义包阻64交成有效而重新設定調速 門16開啟的期間,如先前 ^ 火 二=於單向轴承52,門扇滑輪48的旋 會二 大杈滑輪54、小徑滑鈐60毺、告$代+ 付1小曰、、工由 因此:發電機::= 第」〇圖是本實施形態之推壓裝置的第i變形例,第 :圖疋第2變形例,.第12圖是第 4變形例。 Μ夂形例,苐13圖是第 閉鎖:Ϊ::Ϊ 1〇圖至第13圖,一面針對本實施形態之 =鎖裝置的推«置的第!變形例至第4變形例加以說 圖所示的第】變形例是將與本實施形態之推壓裝 為相同構造的-對曲抽桿等,相對於防火門Μ的關 ,方向設在門前端侧及門尾端侧。若要具體加以說明,則 2軸杯80在防火門16之上面的門前端側及門尾端側分 :.安裝有一個。同時’轉向用托架82及推壓用托架料 這些❹桿8〇對應的位置,與本實施形態同樣安 -方;弟1上框12及第2上框14的上面。在此情況下,門 尾端及門前端的推屡裝置是完全重·,因此縱剖視圖與第 316229 25 1295335 6圖相同。 也有依安裝位::二曲軸桿的情況加以說明,但 況。亦即,在防火無法設置—對相同曲軸桿的情 如果會與門尾端側的;=;二裝於門前端側的曲軸桿 ,門前端側的曲軸二之 突,同時變更門前端側之轉向用以避免衝 用托架8“㈣即可。此時女f位置及推厂堅 此外,Λ 舆本實施形態的推«置18相同。 的轉動曲轴桿用,便能以先設定成將支柱提高 望 — /、I私準品使用相同的零件。 弟12圖所示的帛3變 例,在防火門16之上面的門凌置疋運用弟1變形 軸㈣,為使…及門尾㈣分別安裳曲 由轉動的連結板88相互連結。全二1、^^ =側的旋轉物斤抵接的轉向用托架之 ::二:僅設有—個。推壓用托架 _。第\^ 兩個或是設置雙方可扣合之長度的框 例由於僅設有—個轉向用托架9〇,因 ㈣例中干擾的問題,即使將其安裝在防火門16 位置也沒有問題。若要針對第3變形例的推 裳置的動作加以簡單說明,則是當設有轉向用托竿90 之側的曲軸桿86之長桿37的旋轉體们抵接 列時,此動作會因為可自由轉動的連結板88傳達至用另托: 316229 26 1295335 方的曲軸桿86而同樣動作’使設在兩個曲軸桿%之 的旋轉體89分別扣合在推壓用牦架%,並將防火門w 2 門框4推壓。 同 再者,針對第13圖所示的第4變形例之推壓裝置 說明。第4變形例的推壓裝置是在防火n 16之上面的 部僅設有-個曲軸桿94。第5@所示的推壓裝置是在曲轴 杯94中取代設在短桿側的旋轉體4〇,而在旋轉體%之, 轉轴的中心位置設有可自由轉動之作為旋轉體支持構件: ㈣板96 ’在推壓才反96白勺兩端分別設有旋轉體%。 言之’推壓板96是從安裝於短桿的樞軸,朝防火門的 關閉方向及開啟方向延伸,並且在其前端部分別將旋轉體 %安裝成可自由轉動的狀態。在第i上框12的預定位置 設有轉向用托架_,在第2上框14的預定位置設有與上 $兩個旋轉體扣合的推壓用托架1〇2。設在曲軸桿料的推 壓板96之兩端的兩個旋轉體98皆是抵接於推壓用托架 1〇2而進行防火門推塵動作。藉由轉向用托架_、曲: 94及推壓隸架1G2,全閉時就會將防火門 側推壓而遮蔽濃煙。 朝開口 弟14圖至f 16圖是本實施形態之閉鎖裝置的推壓 置的其他實施例。其中’第14圖是與第2圖同樣表示防 門之上部的圖,而第15圖及第16圖是其他實施例的推 裝置的俯視圖。 第14圖至第16圖的推壓裝置1〇4具有:安裝於防火 門16的推壓導件106;以及安裝於第2上框14,並且與推 3]6229 27 1295335 壓導件106扣合的推璧滾輪1〇8。_ 遷滾輪108突出,並且具有盘從 一疋朝向推 =:=:r8“的扣合 閉方向平行延伸的平行面。更成,並且與開 由金屬製的板狀構件所形成,心;推®導件1〇6是 門前端側部分從防火門16的門:;=;7是使板狀構件在 滾輪_⑽,在門尾端部分二二二尾:側向推* 曲。 1刀⑴共開閉方向平行延伸而彎 一面參照第15圖及第μ圖,一 am 明。如第15圖所示,在防火門16的:針對其動作加以說 舻而一、 人門16的全閉位置之前,更且 防火門16之門前端部分就要到達關閉位置之、 防火門^爯輪/08會與推塵導件106的傾斜面扣合。隨著 導件m朝關閉位置移動(第15圖的箭頭所示),推麼 广牛⑽會相對於推壓滾輪108而移動, =的㈣面跨越平行面而扣合在推壓滾輪⑽同時= 猎此,防火門16就會從第2門框4側遠離。當防火 ⑽合=2全的關閉位置時’如第16圖所示,推壓滾輪 實地^「4件1G6的平行面,並且將防火門16確 貝地向門框4之面推壓0 ^上本實施形態之閉鎖裝置是在防火門16就要到達 =置之前使推壓裝置開始動作,並且衫全關閉前 的㈣’藉由推壓裝置18對於防火門16產生移動阻力, 316229 28 1295335 但由於調速裝置30,從預定位置p j關閉位置疋以加快的 速度關閉,因此防火門16會順著關丄 s貝者關閉的力道勝過移動阻力 而元全關閉。因此,由於在完全關 牡兀王關閉的狀態下推壓裝置18 ^作用,故可完全隔斷防火門16與門框4之間。 本發明並不限於以上實施形態,而可在申請專利範圍 ^己载的發明之範圍内進行各種變更,這些當然也包含在 本發明的範圍内。 例如,上述實施形態是針對將閉鎖裝置i適用在拉門 ^方火門的情況加以說明,但是並不限於防火門,亦可 適用於其他用途的拉門。 而且,上述實施形態是說明將閉鎖裝置ι適用在單拉 J的情況’但同樣亦可適用在雙拉門。雙拉門的情況是只 义形成在兩者的貼合部安裝密封材、或是使—方拉門的門 别端:分的橫剖面形狀形成c字形,而可收容另一方拉門 之門前端部分等的遮煙構造即可。推壓裝置18是例如只要 X貼σ部為中心對稱地在兩扇防火門上面安裝推壓裝置 18’便可將兩扇防火門-起壓接於門框4,並消除與門框4 之間的空隙。 、主再者,上述實施形態是針對適用在常閉式防火門Μ 的情況加以說明,❻亦可將上述閉健置1適用在藉由扣 止機構停留在將防火門16開啟的位置,並且在發生火災時 才解除扣止機構而加以關閉的常開式防火門。 /而且,上述實施形態是沿著門框4安裝有密封材2〇 而形成高遮煙效果的構造,但只要門框4與防火門16充分 316229 29 1295335 密接’則亦可不一定要設有密封材2〇。 另外,防火門並不需要使門扇面四邊的 與門框4相對向,只要在由推壓裝置18推壓日士;、、“全部 開口部2,則亦可使―部分推壓於 關閉通路 另外,亦可如上述實施形態之防火門16的下。卩等。 相對向之面的情況下,利用遮煙橡膠°’在沒有 隙。 、把*構件來封閉空 此外,上述實施形態中,門前端側門框 為C字形的構件所構成,而可在其中收容面 前端部分,因而具有可更確實阻隔濃煙=的門 ’’’’—疋,門前端側門框§只要具有在防火n】a Α 置中可與門扇面的周緣部相對向,並藉由二=位 方式形態中,防火門16的自閉機構的構成 導軌6,並藉由本身n 1朝關閉位置向下方傾斜的 火門移動H 閉’但自閉機構亦可為使防 火門16, # ㈣何機構,例如亦可為連結於防 捲繞彈簧、防火門16朝關閉方向施力的阻尼器、 但是,在防火卩1丨6_衫It; /桿式減機構。 置會減速,從預定位 除了可適外心裝置的情況下,推壓裝置 飞以外’遇可適用本身使用第14圖至第 316229 30 1295335 圖所示的推塵導件1〇6及推愿滚 推壓裝置。 0扁置、或其他 另外,上述實施形態是採用 裝置30,作碉狀罢* 身使用^电機56的調速 火門…Λ /為可從開啟位置到預定位置使防 置。例如,亦可使調速裝置由安=加快的任何調速裝 機而旋轉的^仏 於防火門16並藉由電動 執所:並7由 =沿… 籌:i上猎由」空制電動機的旋轉速度來調整關。 關閉位置前的預定位置p, m軌疋6在防火門】6之9Q 316229 1295335 The rotation of the car ^8 does not pass through the large-diameter pulley $ pulley 60. This δ+ n f-shaped sheet 55 and the small control do not move: the rotary shaft 58 of the second machine 56. Therefore, the hair (10) will be two-in-one: and: when the fire door 16 is released, the fire is prevented (four), whereby the portal 1 moves along the guide rail 6 toward the closed position. The 1 (7) wheel 24 will rotate, and the fan pulley shaft will be smothered and the early bearing 52 will be turned. The door will be turned by the large diameter pulley 54 and the ring 虔# 55 3 56 " Ιί 56 action β in the magnetic field, once the generator turns "the current will flow to the electric hug, and because of the variable resistance: 5" 疋, generator 56#, containing IU for the sense of block to make the voltage high The pair is 6 yoke plus load, and the braking force for the rotating shaft 58 is from the small diameter slip _ 6 广 out of the wide range by * generating braking force. The slidable 54^family belt 55 is sequentially conveyed to the large diameter brake/fan pulley 4, and the force is applied to the rotation of the door leaf pulley 24. It is stated that the fire door 16 is intended to accelerate along the inclined guide 6, and the rotation of the door leaf pulley 24 is affected by this braking force; the closing speed of 16 is slowed down. Next, if the circuit is used for the day and the month, the i-th variable resistor 64 is turned on by switching the switch 68 at the initial position. The fire prevention 16^fan pulley 24 is rotated along the inclined guide rail 6 to start closing' and travels at the first closing speed decelerated by the month 1 variable resistor 64. When the fireproof door is moved from the open position to the closed position and the front end of the door reaches the predetermined position ^, the changeover switch 68 on the first variable resistor 64 side is turned off by the switch switching unit 72, and the second variable resistor 66 side is turned off. The changeover switch 7A is turned ON, the first variable resistor 64 is rendered inactive, and the second variable resistor 66 is made effective. Thereby, a larger current is required for the generator 56, so that the rotation of the rotation of the shaft 316229 24 1295335 is reduced, the fire door! (4) The second closing speed of the speed is fast, the ratio is ==7Γ, the first variable electric __, (3) is turned ON, and the second variable resistance material first variable resistor ☆ is invalidated, so that the sense resistor is disabled. 64 is effective and resets the period during which the speed control door 16 is opened. For example, the previous fire 2 = one-way bearing 52, the door pulley 48 is rotated by two large pulleys 54 , the small diameter sliding 钤 60 毺, $ $ generation + In the first embodiment, the generator::= is the i-th modification of the pressing device of the embodiment, the second modification of the second embodiment, and the fourth modification is the fourth modification. example. In the case of a Μ夂 苐 苐 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图 图In the modified example to the fourth modification, the first modification shown in the figure is a pair of curved rods and the like which are attached to the same structure as the pressing of the present embodiment, and the direction is set in front of the door with respect to the fire door sill. End side and door end side. To be specifically described, the 2-axis cup 80 is divided on the front end side and the rear end side of the door above the fire door 16: one is attached. At the same time, the positions of the steering brackets 82 and the pressing brackets are the same as those of the first embodiment, and the tops of the upper frame 12 and the second upper frame 14 are the same. In this case, the rear end of the door and the front end of the door are completely heavy, so the longitudinal sectional view is the same as that of the first 316229 25 1295335. It is also described in the case of the mounting position:: two crankshafts, but the situation. That is, the fire can not be set up - if the same crankshaft is in contact with the rear end side of the door; =; the crankshaft attached to the front end side of the door, the crankshaft of the front end side of the door protrudes, and the front end side of the door is changed. The steering can be used to avoid the use of the bracket 8 "(4). At this time, the position of the female f and the pusher of the factory are the same as those of the crankshaft of the present embodiment. The pillars are raised to look at the same parts. The I used the same parts. The 帛3 variant shown in the figure 12, the door above the fire door 16 is placed on the axis of the deformation of the brother 1 (four), in order to make ... and the tail (4) Separately, the songs are connected to each other by the rotating connecting plates 88. The steering brackets for the rotation of the two sides of the ^2, ^^ = side:: two: only one - push brackets _ The second frame or the frame with the length that can be engaged by both sides is only provided with a steering bracket 9〇. Because of the interference problem in the (4) example, even if it is installed at the fire door 16 position, there is no The problem is to briefly describe the action of the pusher in the third modification, that is, the crankshaft on the side of the steering bracket 90 is provided. When the rotating bodies of the long rods 37 of the rods 86 are abutting, this action is transmitted to the two crankshafts by the freely rotatable coupling plate 88 to the other: 316229 26 1295335 square crankshaft 86 The rotating body 89 of the lever % is engaged with the truss % for pressing, and the door frame 4 of the fire door w 2 is pressed. The same applies to the pressing device of the fourth modification shown in Fig. 13 . In the pressing device according to the fourth modification, only one crankshaft 94 is provided on the upper portion of the fire prevention n 16. The pressing device shown in the fifth @ is a rotating body provided on the short rod side in the crank cup 94. 4〇, and in the rotating body%, the center of the rotating shaft is provided with a freely rotatable rotating body supporting member: (4) The plate 96' is respectively provided with a rotating body % at both ends of the pushing and reverse 96. The push plate 96 extends from the pivot shaft attached to the short rod toward the closing direction and the opening direction of the fire door, and the rotating body % is rotatably mounted at the front end portion thereof. A steering bracket _ is provided at a predetermined position, and a rotating body buckle is provided at a predetermined position of the second upper frame 14 The pressing brackets 1〇2. The two rotating bodies 98 provided at both ends of the pressing plate 96 of the crank bar material abut against the pressing brackets 1〇2 to perform the fire door dusting operation. Steering bracket _, song: 94 and pushing the jib 1G2, when fully closed, the fire door side is pressed to shield the smoke. The opening of the brothers 14 to f 16 is the pushing of the locking device of this embodiment. Other embodiments of the press-fitting are shown in Fig. 14 which is a view showing the upper portion of the door as shown in Fig. 2, and Figs. 15 and 16 are plan views of the pushing device of the other embodiment. Fig. 14 to Fig. 16. The pressing device 1〇4 of the drawing has: a pushing guide 106 attached to the fire door 16; and a pushing roller 1 attached to the second upper frame 14 and being engaged with the pressing member 106 of the pusher 3] 6229 27 1295335 〇 8. _ The retracting roller 108 protrudes, and has a parallel surface in which the disc extends from the side of the yoke toward the push-and-close direction of the yoke. The yoke is formed in parallel with the plate-shaped member made of metal. The guide member 1〇6 is the front end side portion of the door from the door of the fire door 16;;=;7 is to make the plate member in the roller _(10), at the end portion of the door 222: laterally push * 曲. 1 knife (1) The common opening and closing direction extends in parallel and the bending side is referred to the fifteenth and fifth views, as shown in Fig. 15. As shown in Fig. 15, in the fire door 16, the full-closed position of the human door 16 is described for the action. Previously, the front end of the door of the fire door 16 is about to reach the closed position, and the fire door 8.0 will be engaged with the inclined surface of the dust guide 106. As the guide m moves toward the closed position (15th) As indicated by the arrow in the figure, the pusher (10) will move relative to the push roller 108, and the (four) face will cross the parallel face and snap on the push roller (10) while hunting. The fire door 16 will be from the second. The door frame 4 side is far away. When the fireproof (10) is combined with the 2 full closing position, as shown in Fig. 16, push the roller to the ground ^ "4 pieces of 1G6 parallel faces" And the fire door 16 is pressed against the surface of the door frame 4. The locking device of the present embodiment is such that the pressing device starts to move before the fire door 16 is reached, and the (four) before the shirt is completely closed. By the pressing device 18, the movement resistance of the fire door 16 is generated, 316229 28 1295335, but due to the speed adjusting device 30, the closing position is closed from the predetermined position pj, and the speed is closed at an accelerated speed, so the fire door 16 will be closed along the door. The force is better than the movement resistance and is closed. Therefore, since the pressing device 18 is actuated in a state in which the oyster king is completely closed, the fire door 16 and the door frame 4 can be completely blocked. The present invention is not limited to the above. The embodiment is intended to be modified within the scope of the invention as set forth in the appended claims. For example, the above embodiment is directed to the application of the locking device i to the sliding door fire. The case of the door is described, but it is not limited to the fire door, and may be applied to a sliding door for other purposes. Moreover, the above embodiment describes the case where the locking device ι is applied to the single pull J. The same can be applied to the double sliding door. In the case of the double sliding door, the sealing material is formed only at the bonding portion of the two, or the cross-sectional shape of the door of the square sliding door is formed into a c-shape. The damper structure can be accommodated in the front end portion of the door of the other sliding door. For example, the pressing device 18 can be mounted on the two fire doors with the X σ portion being symmetric about the center. The fan fire door is pressed against the door frame 4 and the gap between the door and the door frame 4 is eliminated. The main embodiment is that the above embodiment is applied to the case of the normally closed fire door sill, and the above-mentioned closing can also be used. The setting 1 is applied to a normally open fire door that is closed by the fastening mechanism at a position where the fire door 16 is opened, and the buckle mechanism is released in the event of a fire. Further, in the above embodiment, the sealing material 2 is attached to the door frame 4 to form a high smoke shielding effect. However, if the door frame 4 and the fire door 16 are sufficiently 316229 29 1295335, the sealing member 2 may not necessarily be provided. Hey. In addition, the fire door does not need to face the door frame 4 on the four sides of the door leaf, as long as the Japanese device is pressed by the pressing device 18, and "all the opening portions 2 can also push the portion to the closed path. It is also possible to use the lower portion of the fire door 16 of the above-described embodiment. 卩, etc. In the case of facing the surface, the smoke-shielding rubber is used in the absence of a gap, and the * member is closed. In addition, in the above embodiment, the front door The end side door frame is composed of a C-shaped member, and the front end portion of the receiving surface can be accommodated therein, thereby having a door that can more reliably block the smoke = "疋", and the door front side door frame § as long as it has fire protection n]a The ridge can be opposed to the peripheral portion of the door leaf surface, and in the form of the two-position mode, the self-closing mechanism of the fire door 16 constitutes the guide rail 6, and the valve is tilted downward by the n 1 toward the closed position. The H-closed but the self-closing mechanism may also be a damper that is connected to the anti-winding spring and the fire door 16 in the closing direction, for example, in the fire door 16, #,丨6_shirt It; / rod type reduction mechanism. Deceleration, from the pre-positioning position, except for the external device, the push device is not suitable for use. The dust guide 1〇6 and the push roller are shown in Figure 14 to 316229 30 1295335. Pressing device 0 flat, or otherwise, in the above embodiment, the device 30 is used as a 碉-shaped body. The speed control valve of the motor 56 is used to prevent the position from being from the open position to the predetermined position. For example, the speed control device can be rotated by any speed control device that is accelerated by the ampere-speed motor and is controlled by the electric door: and 7 by ==... Rotate the speed to adjust off. The predetermined position before the closing position p, m 疋 6 in the fire door] 6
以後使的電阻值,藉此自預定位置P 置ίο的^預定位置P的加快方式亦可例如在調速裝 〇的笔路設置0N/0FF開關(參照第17圖),並 閉位置正前方的預定位置P設置0N/0FF門 ^ 你加止 1Ν/υΜ開關用的開關切 ^部,當防火門關閉時,在預定位置Ρ將調速裝置^ =從預定位置。到關閉位置則加快使調速/ 二 動作2就Μ自閉機構所產生的原本的_速度關閉: 亦可繼3…峨m前的減速, 啟位置到上述預定位置p階段性減速成複數個不 5、k又’而且從預定位置!>到關閉位置的加快 性進行。 白千又 θ再者推[茗置18中,曲軸桿32的旋轉體38、40 是只要可縮小轉向用托架44與推壓用托架46間的摩擦 則不-定需要設置,例如亦可如第18圖所示,使曲轴桿 316229 31 1295335 %的長桿67及短桿65的前端 端部安裝鐵氟隆(登錚商1形,或是在這些的前 另外,上、乂 易滑動的構件。 卜上述推壓裝置18亦可Ά 形成〈字形的曲軸桿3 2以外桿:桿:及短桿3 9 在槓桿構件之力點的力的方向從扩=件,或疋相對於作用 就是第〗臂部,比相對於作用在;:=的垂線,也 構件。 #°卩長的任何形狀的槓桿 此外,將上述旋轉曲軸桿主 拉彈簧42可為任何的彈性;位在初期位置的引 等。 牛例如可為壓縮彈簧、橡膠 另外,上述實施形態是如第3 一 將門扇滑輪24载置於上方“ ^弟圖所示,具有 ^戟置瓦上方而加以彡梏 、, 對於此導軌6為横向的剖面巾、’亚且在相 滑輪A並且將門扇滑輪24在導:上僅設有-個門扇 執6之)人 幸6上支持成能以與導 的安穿……: 您,而且,門扇滑輪24 哀工具26及女裝於拉門16 門16之門戶而士 a 丄 女表工具28疋經由朝拉 離。因此It 峰G相互連結成可旋轉的狀 ㈣由推壓裝置18相對於門框4朝橫向推壓時,在 子於‘執ό為橫向的剖面中,門戶 的扣人1…心 滑輪4會以與導軌6 丫點為中心傾斜,因此而傾斜的門扇滑輪24的安裝工 八舁安裝於拉門的安裝工呈2 、 柘叫, 衣具28會相互轉動,並且維持 署6從安裝工具28垂下的狀態,拉Η 16便會由推壓裝 向門框4推壓。因此,可在拉門16與門框4之間沒 Q9 3]6229 1295335 有空隙的狀態下推壓。 於導軌m為橫向的 ,如/ 19圖所示,在相對The resistance value to be obtained later, whereby the predetermined position P of the predetermined position P is set to be faster, for example, the 0N/0FF switch is set in the stroke of the speed regulation device (refer to FIG. 17), and the closed position is directly in front. The predetermined position P sets the 0N/0FF door. ^ You add the switch to the 1Ν/υΜ switch. When the fire door is closed, the speed control device is turned from the predetermined position at the predetermined position. When the position is closed, the speed/second action 2 is accelerated. The original _speed is closed by the self-closing mechanism: it can also be decelerated before 3...峨m, and the position is decelerated into multiple numbers in the above-mentioned predetermined position. Not 5, k and 'and from the predetermined position!> to the speed of the closing position. In the case of the spring 18, the rotating bodies 38 and 40 of the crankshaft 32 are not required to be set as long as the friction between the steering bracket 44 and the pressing bracket 46 can be reduced, for example, As shown in Fig. 18, the front end of the long rod 67 and the short rod 65 of the crankshaft 316229 31 1295335 % are fitted with Teflon (the shape of the board of the dealer, or in addition to these, The sliding member 18 can also form a <-shaped crankshaft 3 2 other than the rod: the rod: and the short rod 3 9 in the direction of the force of the force of the lever member from the expansion member, or 疋 relative to The function is the first arm, which is also a member of the vertical line with respect to the action of ::=. #°卩 Any lever of any shape Further, the above-mentioned rotating crankshaft main tension spring 42 can be any elasticity; For example, the cow may be a compression spring or a rubber. In the above embodiment, the door leaf pulley 24 is placed on the upper side as shown in the third figure. For this guide rail 6 is a transverse profile towel, 'sub and in the phase pulley A and the door leaf pulley 24 is guided There is only one door fan on the 6th). Fortunately, 6 people support the ability to wear and guide the wearer...: You, and, the door leaf pulley 24 mourning tools 26 and women's clothing at the door of the door 16 door 16 a virgin watch tool 28 拉 is pulled away by the direction. Therefore, the It peaks G are connected to each other in a rotatable shape. (4) When the urging device 18 is pressed laterally with respect to the door frame 4, in the section which is in the lateral direction The buckle of the portal 1...the heart pulley 4 will be inclined with respect to the guide rail 6 , point, so the installer of the inclined door leaf pulley 24 is installed on the sliding door, and the installer is 2, squeaking, and the clothes 28 will Rotating with each other, and maintaining the state of hanging from the installation tool 28, the pull tab 16 is pushed by the push fitting to the door frame 4. Therefore, there is no gap between the sliding door 16 and the door frame 4 3) 6] 6229 1295335 Pushed under the state of the guide rail m, as shown in /19, in relative
導轨no益法來成傾:中P使疋門扇滑輪112相對於 的安裝工具也只要藉由門扇滑輪山 於上述工具之間=門16的安裝工具116以及安裝 門的安f工呈八門扇滑輪的安裝工具及安裴於拉 〇,,連丄;:別經由朝拉門之門扇面方向延伸的樞轴 拉門L疋H態的中間構件⑴,使Η扇滑輪112及 相互連結即可。藉此,當拉門16由推壓裝置18 =於門框4朝橫向推壓時,門扇滑輪m便會保持垂直 心使中間構件92以兩個樞軸〇,,為中心而傾斜,而且, 拉門16會以垂下的狀態由推壓裝置18向門框4推壓。因 此可在拉門16與門框4之間沒有空隙的 【圖式簡單說明】The guide rail is not inclined to make a tilt: the middle P makes the installation tool of the trick fan pulley 112 relative to the tool, and the installation tool 116 of the door 16 and the installation door of the door are provided by the door leaf pulley. The installation tool of the pulley and the ampule are attached to the cymbal, and the cymbal; the intermediate member (1) of the L 疋 H state of the pivotal sliding door extending in the direction of the sliding door of the sliding door, so that the fan pulley 112 and the mutual connection can be connected . Thereby, when the sliding door 16 is pushed laterally by the pressing device 18 = in the door frame 4, the door leaf pulley m maintains the vertical center so that the intermediate member 92 is tilted with two pivots, centered on it, and The door 16 is pressed by the pressing device 18 toward the door frame 4 in a hanging state. Therefore, there is no gap between the sliding door 16 and the door frame 4 [Simplified description of the drawing]
第1圖疋女裝有本發明實施形態之防火門用閉鎖裝置 的防火門以及安裝於建物之安裝部分的整體圖,以顯示防 火門完全開啟的狀態。 第2圖是第!圖之防火門的上部的斜視圖。 弟3圖疋沿著第2圖所示之ΙΙΙ-ΙΗ方向的剖視圖。 第4圖是沿著第2圖所示之IV_IV方向的剖視圖。 弟5圖是本實施形態之防火門用之閉鎖裝置的推壓裝 置的俯視圖。 弟6圖是沿著第2圖所示之VI-VI方向的剖視圖。 第7圖是在第5圖所示的推壓裝置中,防火門位於關 閉位置時的狀態圖。 316229 33 1295335 第8圖是沿著第 的剖視圖。 1圖所示之調速裝置之VIII-VIII方向 第9圖是調速裝置的電路圖。 2 10圖是本實施形態之推壓裝置的第丨變形例。 ^ 11圖是本實施形態之推壓裝置的第2變形例。 j 12圖是本實施形態之推壓裝置的第3變形例。 =13圖是本實施形態之推壓裝置的第4變形例。 — 第14圖疋本實施形態之閉鎖裝置的推壓裝置的其他 貝加例疋與第2圖同樣表示防火門之上部的圖。 — 弟Μ圖是本實施形態之閉鎖裝置的推壓裝置的其他 只轭例,疋與表示防火門之上部的第2圖同樣的圖。 第16圖是本實施形態之閉鎖裝置的推壓裝置的其他 貫施例’是與表示防火門之上部的第2圖同樣的圖。 第17圖是本實施形態之調速裝置的變形例。 第18圖是本實施形態之推壓裝置的其他實施例。 第19圖是本實施形態之門扇滑輪及拉門之連結構造 的變形例。 【主要元件符號說明】 1 閉鎖裝置 4 門框 8 門前端側縱框 12 弟1上框 16 防火門(拉門) 密封材 2 開口部 6 導軌 10 門尾端側縱框 14 第2上框 18 推壓裝置 22 遮蔽材 34 316229 20 24 26 28 3〇 32 36 38 4〇 44 46 48 52 54 56 6〇 62 64 67 69 71 8〇 84 87 89 31 凝轉曲轴桿主體 34 第1臂部 37 長桿 39 短桿 42 拉伸彈簧(彈壓機構) 件) 件) 50 轴承 達機構) 55 環狀皮帶 58 旋轉軸 更機構) 66 第2可變電阻 68 切換開關 70 切換開關 72 開關切換部 82 轉向用托架 86 曲軸桿 88 連結板(連結構件) 90 轉向用托架 316229 1295335 門扇滑輪 門扇滑輪的安裝托架(安裝工具) 女裝於拉門的安裝托架(安裝工具) —速機構 曲軸桿(槓桿構件) 第2臂部 旋轉體 旋轉體 門扇滑輪 單向軸承(單向 大徑滑輪 發電機 小徑滑輪 可變電阻器(電 第1可變電阻 長桿 調節轉盤 調節轉盤 曲軸桿 推壓用托架 旋轉體 滾輪 35 1295335 92 推壓用托架 94 曲軸桿 96 推壓板(旋轉體支持構件) 98 滾輪 100 轉向用托架 102 推壓用托架 104 推壓裝置 106 推壓導件 108 推壓滾輪 109 扣合面 110 導軌 112 門扇滑輪 114、 116 安裝工具 118 中間構件 0 旋轉軸線 〇, 旋轉軸線 0,, 旋轉軸線 P 預定位置 P1 力點 P2 作用點 L1 第1臂部之長度 L2 第2臂部之長度 36 316229Fig. 1 is a general view of a fire door of a fire door locking device according to an embodiment of the present invention and a mounting portion mounted on the structure to show a state in which the fire door is fully opened. Figure 2 is the first! An oblique view of the upper part of the fire door of the figure. Figure 3 is a cross-sectional view taken along the ΙΙΙ-ΙΗ direction shown in Fig. 2. Fig. 4 is a cross-sectional view taken along line IV_IV shown in Fig. 2. Fig. 5 is a plan view showing a pressing device of the lock device for a fire door according to the embodiment. Figure 6 is a cross-sectional view taken along the VI-VI direction shown in Fig. 2. Fig. 7 is a view showing a state in which the fire door is in the closed position in the pressing device shown in Fig. 5. 316229 33 1295335 Figure 8 is a cross-sectional view along the first. Figure VIII-VIII direction of the governor shown in Figure 1. Figure 9 is a circuit diagram of the governor. Fig. 2 is a third modification of the pressing device of the embodiment. Fig. 11 is a second modification of the pressing device of the embodiment. Fig. 12 is a third modification of the pressing device of the embodiment. Fig. 13 is a fourth modification of the pressing device of the embodiment. — Fig. 14 is a view similar to Fig. 2 showing the upper portion of the fire door as in the second embodiment of the pressing device of the lock device of the present embodiment. — The drawing is another yoke example of the pressing device of the locking device of the present embodiment, and is the same as the second drawing showing the upper portion of the fire door. Fig. 16 is a view similar to Fig. 2 showing the upper portion of the fire door in the other embodiment of the pressing device of the lock device of the present embodiment. Fig. 17 is a modification of the speed governing device of the embodiment. Fig. 18 is a view showing another embodiment of the pressing device of the embodiment. Fig. 19 is a view showing a modification of the connection structure between the door leaf pulley and the sliding door of the embodiment. [Main component symbol description] 1 Locking device 4 Door frame 8 Door front side vertical frame 12 Brother 1 upper frame 16 Fire door (sliding door) Sealing material 2 Opening part 6 Guide rail 10 Door end side vertical frame 14 2nd upper frame 18 Push Pressing device 22 Shielding material 34 316229 20 24 26 28 3〇32 36 38 4〇44 46 48 52 54 56 6〇62 64 67 69 71 8〇84 87 89 31 Condensing crankshaft body 34 First arm 37 Long rod 39 Short rod 42 Tension spring (elastic mechanism) Parts) 50 Bearing mechanism) 55 Ring belt 58 Rotary shaft mechanism) 66 Second variable resistor 68 Diverter switch 70 Switching switch 72 Switching unit 82 Steering Rack 86 Crankshaft 88 Coupling plate (joining member) 90 Steering bracket 316229 1295335 Door pulley pulley door pulley mounting bracket (installation tool) Women's sliding door mounting bracket (installation tool) - Speed mechanism crankshaft (lever Member) 2nd arm rotating body rotating body door fan pulley one-way bearing (one-way large diameter pulley generator small diameter pulley variable resistor (electrical first variable resistance long rod adjustment dial adjustment turntable crankshaft push Bracket for rotating body 35 1295335 92 Bracket for pressing 94 Crankshaft 96 Pushing plate (rotating body supporting member) 98 Roller 100 Steering bracket 102 Pushing bracket 104 Pushing device 106 Pushing guide 108 Pushing Pressing roller 109 Fitting surface 110 Guide rail 112 Door pulley 114, 116 Mounting tool 118 Intermediate member 0 Rotation axis 〇, axis of rotation 0, axis of rotation P Predetermined position P1 Force point P2 Acting point L1 Length of the first arm L2 2 Length of the arm 36 316229