1356120 九、發明說明: 【發明所屬之技術領域】 本發明係一種可避免因強風吹襲導致玻璃破裂之防趣 破璃強化器。 【先前技術】 —門窗之破璃因其剛性高但強度低之特性,而導致在受 -外力’例如··受強風吹襲時容易使其變形量超過可承受 範圍而產生破裂之現象。故每當颱風襲來時,往往可以見 到在玻璃上貼有膠帶,藉由膠帶提供之抗張力來減緩玻璃 又風吹襲所產生之變形’而獲得防止玻璃破裂之效用。 性:帶:然也可以達到補強之效果,但膠帶本身為一軟 m 抵抗變形的能力低’故所能提供之抗張力亦有 :古·風力較強時,僅憑藉膠帶所能獲得的補強的效果, 至之虞。此外由於膠帶是以其本身之黏著勝來附著 於㈣岔有不易撕除或黏著膠殘留 帶之外的補強方式。 仁至目别為止尚未見膠 【發明内容】 望上需求’本發明提供一防賤破璃強化器,希 =二發明可得到避免坡璃因受風吹襲而破裂且便於安 裝及卸除之效果。 &万'女1356120 IX. Description of the invention: [Technical field to which the invention pertains] The present invention is an anti-fouling glass intensifier capable of avoiding cracking of glass due to strong wind blowing. [Prior Art] - The glass of the door and window is characterized by its high rigidity and low strength, and it is likely to cause cracking when the amount of deformation exceeds the allowable range when subjected to strong winds, for example, by strong winds. Therefore, whenever a typhoon hits, it is often seen that tape is attached to the glass, and the deformation resistance caused by the tape is slowed down to reduce the deformation caused by the wind and the wind. Sex: Belt: It can also achieve the effect of reinforcement, but the tape itself is a soft m. The ability to resist deformation is low. Therefore, the tension resistance that can be provided is also: when the wind is strong, the reinforcement can be obtained only by the tape. The effect, to the end. In addition, since the tape is adhered to it by its own adhesion, it is a reinforcing method other than the tape which is not easily peeled off or adhered. Nothing has been seen since the end of the term [Summary of the Invention] The present invention provides a tamper-proof glass intensifier, and the invention can be used to prevent the glazing from being broken by the wind and easy to install and remove. . & million women
I 為了達到上述發明目的,本發明所使 於提供一種防趟玻璃強化器,其包括有: 仏丁手段在 一連接桿,其端部設有螺紋; 1356120In order to achieve the above object, the present invention provides an anti-mite glass intensifier comprising: a butt means in a connecting rod, the end of which is provided with a thread; 1356120
*****·_· ’ _ II ~ , - · - |丨· I .- 7月厂日修(更)正替择頁 至少兩吸附座’其中,該吸附座包含有: 一座體,其内部為一嵌槽,座體上部平面中心位置設 有—貫通至内部嵌槽之連桿孔,並於座體上部形成有三面 相鄰的突壁,於兩相對側壁内且位在相同軸心位置設有套 管座’-套管固定於該套管座内,該套管外端部形成有徑 向螺絲孔’ 一螺絲配置於孔内,該套管可供前述連接 設; φ a一吸盤件,包含一作動連桿及一吸盤,作動連桿一端 固又於吸盤上,另-端設有銷孔,該作動連桿由座體底部 貫穿於連桿孔,且吸盤可以位在座體之嵌槽中; 一扳件,其底部向外側突設有突塊並内凹有一接合槽 3供作動連桿嵌人,並於扳件兩側且位於相同軸心位置各 設有銷孔,並以一中空固定銷穿設於該孔與作動連桿上端 之銷孔。 ▲本發明的優點在於,各相鄰的兩吸附座間彳由連接桿 •(該連接桿亦可以由可撓性之線體代替)作相互連接,使其 成為一具有能提供高抗張力的構件,利用其吸附於玻璃上 、咸緩玻璃之變形’而藉以得到強化玻璃的效果,並可視 破璃面積大小調整所需的吸附座體數及排列方式,另外, 本發明乃利用扳件帶動作動連桿使吸盤產生吸力以附著於 破璃上,反之亦,經由將扳件扳回未作動位置即可消除吸盤 之吸力,使用者在裝設與卸除上亦相當的便利。 【實施方式】 見第圖及第一圖所示,為本發明之防邀玻璃強化 6 1356120 100年6月14日修正替換頁 器的第一種實施例,盆句把女I τ J八包括有至少兩吸附座(1)、一連接桿 (4 0 )。其中: 該吸附座(1 )進一步句古 Γ*- f 1 f\\ 匕栝有一座體(1〇)、一吸盤件(Μ) 及一扳件(30)。 ,進一步配合參見第三圖所示,該座體(1〇)底部為一方 形底盤,其上突伸形成有圓形平台(15),底盤與平台(⑸ 間於連接處上另設有複數個肋(151),座體(1〇)下部内凹形 成—嵌槽(11),另於平台(15)上部平面中心位置設有一貫 通至下部嵌槽(11)之連桿孔(12),並於平台(15)上部設有 三面相鄰的突壁(13),該突壁(13)於兩相對的側壁上且位 在相同軸心位置設有套管座(14),該套管座(14)設計有穿 孔,一套管(141),其一端結合在穿孔處,且中央具有一軸 向貝通之套官孔(142) ’並於外端部設有徑向之螺絲孔(丨43 ) 與套管孔(142)相通,一螺絲(144)裝設於螺絲孔(143)内; 該吸盤件(20),其具有一吸盤(22)及一作動連桿 (21),該作動連桿(21) —端固定於吸盤(22)上,該作動連 桿(21)的另一端設有銷孔(211 ),該端可由座體(1 〇 )底部貫 穿連桿孔(12)使該吸盤(22)位在座體(1〇)下部的内凹處; 該扳件(3 0 ),其底部向外側突伸有一突塊(3 3 ),並由 底部内凹形成一接合槽(32),於扳件(30)兩側相同軸心位 置各3又有貝通之銷孔(31)’前述之作動連桿(21)上端部可 甘欠入接合槽(32)内,一固定銷(311)呈中空管體,其貫穿銷 孔(31)及作動連桿(21)的銷孔(211),固定銷(311)的二 端與銷孔(31)固定,此時吸盤(22)上端部會抵靠於嵌槽(11) 7 切 6120 I 100年6月14日修正替換百 内部亚使吸盤(22)底面會略突出於座體(1〇)底部平面。 進一步參見第四圖所示,連接桿(4〇)為一實心之圓桿 或具有一定強度的桿體,其端部形成有螺紋(401),該連接 桿(40)用以連接各吸附座(1),其端部穿設於前述之套管孔 (142)内,並藉由螺絲(144)施以一迫緊之力量使之固定, 連接桿(40)端部之螺紋(4〇1)可增加其在受螺絲(144)迫緊 後之結合強度。 進一步參見第五圖所示,將此吸附座(1)置於玻璃(5〇) 表面上S扳件(3 0)向下扳至作動位置時,由於扳件(3 〇) 之固定銷(311)至突塊(33)外緣之距離大於固定銷(3U )至 平台(15)上部平面之距離,故作動連桿(21)及吸盤中 “ a被在上帶動相當於兩段距離差之高度,而使得吸盤(22) 產生吸力’而使吸附座(丨)能吸附於玻璃(5〇)上,吸附座 之座體(10)底部並貼靠於玻璃(50)上。 配合參見第六圖所示’為本發明第一種實施例於玻璃 (50)上之實施狀態示意圖,其採對角線式配置,由右上至 左下以連接桿(40)連接五個吸附座(1)以形成強化器,並於 左上及右下角再配置以連接桿(40)連接2個吸附座(1)所形 成的強化器。 進一步參照第七圖所示,於本發明之第二種實施例 中’進一步將連結部之構造作一改變,其具體構造為於二 相對突壁(1 3)上設有位在同一中心的連接桿孔(1 6),且於 連接桿孔(16)上方自突壁(13)頂面下凹形成有一螺絲座 (17),螺絲座(17)並於突壁(13)之外側壁面上形成有一開 8 1356120 100 年 6 月 口 ’一貫穿至連接桿孔(16)之螺絲孔(171)形成於螺絲座 (17)上,孔内形成有螺紋,另有一螺絲〇44)設於螺絲孔 (1Ή)上,於本實施例中’吸附座(1)間之連結係以連接桿 (40)穿設於連接桿孔(16)中,再以螺絲(144)施以—迫緊力 使連接桿(40)—端固定於連接桿孔(16)内,據以連接兩吸 附座(1)。本發明中用以連接固定各吸附座(i )之連接桿 (40),亦可以一可撓性線體(41)取代,進一步參照第八及 九圖所示,本發明之第三種實施例中,係設有三個吸附座 (1),於各吸附座(1)之間可由一具可撓性之線體(41)經由 穿設套管座(14)的套管孔(142)或連接桿孔(16)以及中空 之固定銷(311)後,配合參照第十圖所示,由螺絲(144)施 以一迫緊之力量使可撓性線體(41)固定以進行連結,其設 置於玻璃(50)表面上時’架設順序先使兩側之吸附座(丨)固 定於玻璃(50)上,隨後將可撓性線體(41)拉撐並以螺絲 (143 )固定於吸附座(丨)上,之後再扳下配置於内側之吸附 座(1 〇 )(請配合參看第九圖所示),如此便可使穿設於固定 銷(311)之可撓性線體(41)於作動連桿(21)作動同時被往 上拉緊’使連結各裝置之可撓性之線體(4丨)進一步繃緊以 獲得較好的強化效果。 配合參見第十一圖所示,為本發明第三種實施例於玻 璃(50)上之實施狀態示意圖,玻璃受強風吹襲時,最脆弱 之部位為角落處,因此於本實施例中,以吸附座(丨)配置於 玻璃(50)的四個角落,並以可撓性線體(41)分別連接上下 兩個吸附座(1)以形成兩個強化器,由於吸附座(1)係呈方 9 1356120 • ’ 100年6月14曰修正替換頁~ 形’因此可抵靠於玻璃(5〇)之框架上,此時由於吸附著玻 璃(50)的吸附座(!)受框架抵住,而進一步增加吸附座(◦ 所組成之強化器的剛性,以強化保護玻璃最脆弱之角落, 防止其受強風吹襲而破裂。 需連結之吸附器(1 )數量及排列方式則端視玻璃(50) 面積及欲保護之部位作調整,經由結合數個吸附器⑴後, ,裝置便成為一整體性之強化器,架設於玻璃(5。)表面時 可藉由其抗張力以減緩玻璃(5〇)之變形而獲得避免玻璃於 強風吹襲時破裂之效果,另於使用後將板件(3〇)板回非作 動位置,即可自玻璃表面卸下此裝置,實為使用便利之設 計。 【圖式簡單說明】 第圖為本發明第—種實施例之立體外觀圖。 第二圖為本發明第-種實施例之立體分解圖。 第三圖為本發明於未作動狀態之側面剖視圖。 第四圖為本發日为第… 产 x月弟種貫施例之連結部之剖視圖。 第五圖為本發明於你& & & '作動狀態之側面剖視圖。 第六圖為本發明之法 — 之第—種實施例實施狀態示意圖。 第七圓為本發明篦 々 一種貫施例之立體分解圖。 第八及九圖為本發明 意圖 第二種貧施例之扳件作動順序示 〇 第十圖為本發明第+ 贫 弟一種貫施例之連結部之剖視圖。 第十一圖為本發明夕&_ r ± s . .第三種貫施例實施狀態示意圖。 【主要元件符號說明】 1356120 100年6月14日修正替換頁 (1)吸附座 (10)座體 (11)嵌槽 (12)連桿孔 (13)突壁 (14)套管座 (141)套管 (142)套管孔 (143)螺綵孔 (144)固定螺絲 (15)平台 (151)肋 (16)連接桿孔 (17)螺絲座 (171)螺絲孔 (20)吸盤件 (21)作動連桿 (.211)銷孔 (22)吸盤 (30)扳件 (31)銷孔 (311)固定銷 (32)接合槽 (33)突塊 (40)連接桿 (401)螺紋 (41)可撓性線體 (50)玻璃 11*****·_· ' _ II ~ , - · - |丨· I .- July factory repair (more) is replacing at least two adsorption seats', among which the adsorption seat contains: The inner part is a recessed groove, and the center of the upper part of the seat body is provided with a connecting rod hole penetrating to the inner recessed groove, and three adjacent protruding walls are formed on the upper part of the seat body, and are located on the same axis in the opposite side walls. The heart position is provided with a sleeve seat'--the sleeve is fixed in the sleeve seat, and the outer end portion of the sleeve is formed with a radial screw hole'. A screw is disposed in the hole, and the sleeve is provided for the connection; φ a A suction cup member comprises an actuating link and a suction cup, and one end of the actuating link is fixed on the suction cup, and the other end is provided with a pin hole, the actuating link is penetrated by the bottom of the base body through the connecting rod hole, and the suction cup can be seated in the seat a triggering member; a trigger member having a projection protruding outwardly from the bottom thereof and having an engaging groove 3 recessed therein for engaging the movable link, and pin holes respectively provided at both sides of the trigger member at the same axial center position And a hollow fixing pin is passed through the pin hole of the hole and the upper end of the actuating link. ▲ The advantage of the present invention is that the adjacent two adsorption seats are connected to each other by a connecting rod (the connecting rod can also be replaced by a flexible wire body), so that it becomes a member capable of providing high tensile strength. The effect of obtaining the tempered glass by using the adsorption on the glass and the deformation of the salty glass, and adjusting the number and arrangement of the adsorption seats required by the size of the broken glass area, and the present invention uses the action of the puller belt The rod causes the suction cup to generate suction to adhere to the broken glass, and vice versa, the suction of the suction cup can be eliminated by pulling the pull back to the unactuated position, and the user is also quite convenient in installation and removal. [Embodiment] See the first figure and the first figure, which is the first embodiment of the invention of the anti-invitation glass reinforcement 6 1356120 revised the pager on June 14, 100, the basin sentence includes the female I τ J eight There are at least two adsorption seats (1) and a connecting rod (40). Wherein: the adsorption seat (1) further has a body (*- f 1 f\\ 匕栝 has a body (1 〇), a suction cup (Μ) and a wrench (30). For further cooperation, as shown in the third figure, the bottom of the seat (1〇) is a square chassis, and a circular platform (15) is formed on the bottom, and the chassis and the platform ((5) are provided with a plurality of joints at the joint a rib (151), a lower portion of the seat body (1〇) is concavely formed into a groove (11), and a center of the upper plane of the platform (15) is provided with a connecting rod hole (12) penetrating to the lower fitting groove (11). And a three-sided adjacent protruding wall (13) is arranged on the upper part of the platform (15), and the protruding wall (13) is provided on the opposite side walls and located at the same axial center with a sleeve seat (14), the sleeve The tube seat (14) is designed with a perforation, a sleeve (141), one end of which is coupled to the perforation, and has an axial shell-through sleeve (142) at the center and a radial screw at the outer end. The hole (丨43) communicates with the sleeve hole (142), a screw (144) is installed in the screw hole (143); the suction cup member (20) has a suction cup (22) and an actuation link (21) The actuation link (21) is fixed at the end to the suction cup (22), and the other end of the actuation link (21) is provided with a pin hole (211) which can be penetrated by the bottom of the base (1 〇) hole (12) positioning the suction cup (22) in a recess in the lower portion of the seat body (1); the trigger member (30) has a protrusion (3 3 ) projecting outward from the bottom portion, and is formed by the bottom concave portion An engaging groove (32) is provided at the same axial center on both sides of the trigger member (30), and a pinhole (31) of the Beton's upper end portion of the actuating link (21) can be owed into the engaging groove (32) Inside, a fixing pin (311) is a hollow pipe body penetrating through the pin hole (31) and the pin hole (211) of the actuating link (21), and the two ends of the fixing pin (311) and the pin hole (31) Fixed, at this time, the upper end of the suction cup (22) will abut against the groove (11). 7 Cut 6120 I On June 14th, 100, the replacement of the inner surface of the suction cup (22) will slightly protrude from the seat (1〇). Further, as shown in the fourth figure, the connecting rod (4〇) is a solid round rod or a rod having a certain strength, and the end portion is formed with a thread (401), and the connecting rod (40) is used for connecting. Each of the adsorption seats (1) has an end portion which is bored in the sleeve hole (142) and is fixed by a force of a screw (144) to connect the end of the rod (40) ( 4〇1) can increase its acceptance The bonding strength of the screw (144) after tightening. Further, as shown in the fifth figure, when the suction seat (1) is placed on the surface of the glass (5〇), the S-roller (30) is pulled down to the active position. Since the distance between the fixing pin (311) of the trigger (3 〇) and the outer edge of the protrusion (33) is greater than the distance between the fixing pin (3U) and the upper plane of the platform (15), the actuation link (21) and the suction cup are " a is driven by the height corresponding to the distance difference between the two sections, so that the suction cup (22) generates suction ', so that the adsorption seat (丨) can be adsorbed on the glass (5〇), and the bottom of the seat (10) of the adsorption seat is Close to the glass (50). Referring to the sixth figure, a schematic view of the implementation state of the first embodiment of the present invention on the glass (50) is carried out in a diagonal configuration, and the five adsorption seats are connected by a connecting rod (40) from the upper right to the lower left. (1) A strengthener is formed, and a strengthener formed by connecting two adsorption seats (1) with a connecting rod (40) is disposed in the upper left and lower right corners. Further, referring to the seventh figure, in the second embodiment of the present invention, the configuration of the joint portion is further changed, and the concrete structure is configured to be located at the same center on the two opposite protruding walls (13). a connecting rod hole (16), and a screw seat (17) is formed on the top surface of the protruding wall (13) above the connecting rod hole (16), and the screw seat (17) is disposed on the outer wall surface of the protruding wall (13) An opening 8 1356120 is formed in the mouth of the door of the joint rod hole (16). The screw hole (171) is formed on the screw seat (17), the thread is formed in the hole, and a screw 〇 44) is disposed on the opening. In the screw hole (1Ή), in the present embodiment, the connection between the adsorption seats (1) is inserted into the connecting rod hole (16) by the connecting rod (40), and then applied by the screw (144) - pressing The force connects the connecting rod (40) end to the connecting rod hole (16), thereby connecting the two adsorption seats (1). In the present invention, the connecting rod (40) for connecting and fixing the adsorption bases (i) may be replaced by a flexible wire body (41). Referring further to the eighth and ninth drawings, the third embodiment of the present invention In the example, there are three adsorption seats (1), and between the adsorption seats (1), a flexible wire body (41) can be passed through the sleeve hole (142) through the sleeve seat (14). Or, after connecting the rod hole (16) and the hollow fixing pin (311), as shown in the tenth figure, a tightening force is applied by the screw (144) to fix the flexible wire body (41) for connection. When it is placed on the surface of the glass (50), the mounting order is first to fix the adsorption bases on both sides to the glass (50), and then the flexible wire body (41) is pulled and fixed by screws (143). On the suction seat (丨), then pull down the suction seat (1 〇) disposed on the inner side (please refer to the figure shown in Figure 9), so that the flexible wire worn on the fixing pin (311) can be made. The body (41) is actuated while the actuating link (21) is actuated while being pulled up to further tighten the flexible body (4丨) connecting the devices to obtain a better strength. Effect. Referring to FIG. 11 , it is a schematic diagram of the implementation state of the third embodiment of the present invention on the glass ( 50 ). When the glass is subjected to strong wind, the most vulnerable part is a corner, so in this embodiment, The adsorption seat (丨) is disposed at four corners of the glass (50), and the upper and lower adsorption seats (1) are respectively connected by the flexible wire body (41) to form two strengtheners, due to the adsorption seat (1) The system is in the form of a square 1 1356120 • 'June 14 100 曰 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 Resist, and further increase the rigidity of the adsorber (◦) to strengthen the most vulnerable corner of the protective glass to prevent it from being broken by strong winds. The number of adsorbers (1) to be connected and the arrangement are terminated. Depending on the area of the glass (50) and the part to be protected, the device becomes a monolithic strengthener by combining several adsorbers (1), which can be slowed down by tension resistance when mounted on the surface of the glass (5.). Glass (5〇) deformation to obtain avoidance of glass The effect of cracking when strong wind blows, and the plate (3〇) plate is returned to the non-actuated position after use, the device can be removed from the glass surface, which is convenient to use. [Simplified illustration] The figure is a perspective view of the first embodiment of the present invention. The second figure is an exploded perspective view of the first embodiment of the present invention. The third figure is a side cross-sectional view of the present invention in an unactuated state. The cross-sectional view of the joint portion of the production method of the first month of the present invention. The fifth figure is a side cross-sectional view of the present invention in the operating state of the &&&&&&&&&&&&&&&&&&&&& BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENT The seventh circle is a perspective exploded view of a cross-sectional embodiment of the present invention. The eighth and ninth drawings are the tenth diagram of the triggering sequence of the second embodiment of the present invention. A cross-sectional view of a joint portion of a third embodiment of the present invention. The eleventh diagram is a schematic diagram of a third embodiment of the present invention. [Main component symbol description] 1356120 Correction replacement page (1) adsorption on June 14, 100 (10) Seat (11) Inserted groove (12) Link hole (13) Projected wall (14) Bushing (141) Bushing (142) Bushing hole (143) Screw color hole (144) Fixing screw ( 15) platform (151) rib (16) connecting rod hole (17) screw seat (171) screw hole (20) suction cup member (21) actuating connecting rod (.211) pin hole (22) suction cup (30) wrench ( 31) Pin hole (311) fixing pin (32) engaging groove (33) projection (40) connecting rod (401) thread (41) flexible wire body (50) glass 11