201005166 九、發明說明: 【發明所屬之技術領域】 本案係使用於玻璃建築工程,更詳而言之,係將玻璃板固定於一建築 • 物預定位置的構件。 【先前技術】 在玻璃建築工程中’使用玻璃安裝裝置將玻璃板固定於建築物之預定 位置(以下簡稱安裝部位),或者是使複數玻璃板相鄰排列構成一玻璃帷幕。 〇 上述安裝部位以及玻璃板的板面週圍需預設複數個孔洞,並便利用複數個 玻璃安裝裝置將玻璃板固定於該安裝部位。 安裝部位之孔洞與玻璃板的孔洞存在有位置誤差是經常面臨的問題之 -一’且此一問題通常在已經安裝了複數個玻璃安裝裝置之後才會被發現。 解決此問題的傳統方案包括:卸下已組裝的玻璃安裝裝置重新調整玻璃板 的位置、在玻璃板或安裝部位重新設孔洞、以及在孔洞誤差的位置不使用 玻璃安裝裝置。前兩個方案需要花費許多的王時成本H案則造成玻 〇 璃板固定不確實的嚴重隱憂。 另外,上述安裝部位不平整,以及複數個玻璃安裝裝置施予安裝部位 及玻璃板的機械力量不—致,將導致複數玻璃板於安裝後出現同一平面高 度差的問題’哺統的解決方制是——的重新調整玻璃安裝裝置,造成 工時成本增加。 【發明内容】 本案之目的係在提供一種玻璃安裝裝置,該玻璃安裝裝置將玻璃板固 定於建築物之預定位i(以下簡稱安裝部位),或者是使複數玻璃板相鄰排列 5 201005166 構成一玻璃帷幕。 本案之目的係在提供一種玻璃安裝裝置,該玻璃安裝裝置具有全方位 ' 自動調整角度之功能,其可依據安裝部位的孔洞以及玻璃板的孔洞自動調 整角度,在安裝部位之孔洞與玻璃板的孔洞存在有相對位置誤差的場合 中,該玻璃安裝裝置仍然可以使用,並且確保玻璃板被穩固的固定。 本案之目的係在提供一種玻璃安裝裝置,該玻璃安裝裝置具有自動調 整角度之功能,複數個玻璃安裝裝置使單一玻璃板固定於安裝部位,或者 〇 是使複數的玻璃板相鄰連接成一玻璃帷幕時,可以大幅減少單一或複數破 璃板於安裝後出現同一平面高度差的問題。 本案達成上述目的之主要技術包括: 一玻璃固定組件,穿樞固定於一玻璃板的一孔洞中; 一安裝部固定組件,固定在預安裝該玻璃板的一安裝部位上; 一支撐組件,其一端連接於該玻璃固定組件,另一端連接於該安裝部 固定組件;以及 β 至少一使該支撐組件調整與該玻璃固定組件及該安裝部固定組件之連 接角度的枢轴結構。 【實施方式】 為便於說明本案於上述發明内容一欄中所表示的中心思想 ,茲以具體 實施例表達。實知例中各種不同物件係按適於說明之比例、尺寸、變形量 或位移量而龄’而非按實際元件的比辭以繪製,合綠明。且以下的 說明中,類似的元件是以相同的編號來表示。 6 201005166 如第一圖至第四圖,本案玻璃安裝裝置,包括: 一玻璃固定組件10 ’穿樞固定於一玻璃板9〇的一孔洞91中; 一安裝部固定組件20,固定在一安裝部位上;該安裝部位包含但不限 ' 於一建築物預安裝玻璃板90的實體物92 ; 一支撐組件30,其一端連接於該玻璃固定組件1〇,另一端連接於該安 裝部固定組件2〇 ; 至少一樞軸結構40,包括一球面接收部41及一球面凸出部42,分別設 © 於該支樓組件3〇與該玻璃固定組件1〇相對的部位而相結合,或者是設於該 支撐組件30與該安裝部固定組件2〇相對連接的部位而相結合;該樞麵結構 40使該切組件3G可以全施轉動’❼驢其與該玻翻定組件1〇及該 安裝部固定組件20的連接角度。 關於上述玻璃固定組件1〇,包括一穿樞元件彳]以及一限位環12。該穿 框元件11具有-中空管狀的穿樞部111,以及一體連接於該穿框部in一端 的擋止部112。該穿樞部111與該限位環12係以螺紋而相對穿套結合。 樞琿111穿樞於該玻璃板90的孔洞91中,該擔止部112及該限位環12接觸於 該玻璃板90的板面901。使該限位環12沿著該穿樞部川的螺紋旋進,可增 加该擔止部112及該驗環12施加簡賴板9Q賴械力量,使該玻璃固 疋組件10穩固的與該玻璃板9〇結合,並且使該玻璃固定組件可適用於不 同厚度的玻璃板90。 關於上述支撐組件30,包括-支撐桿31以及穿套結合於該支撐桿31外 邛的第-定位套32及一第二定位套33。該第一定位套32及該第二定位套 7 201005166 33是以螺紋結合於該支撐桿μ外部。 關於上述樞轴結構40,其球面凸出部4改__#31 ___ .面接收部做於一環座_内部,該環座43以螺紋結合於該穿栖元件仰 '端部。該球面凸出部42與該球面接收部41相結合,使該支揮桿31可以全方 位的轉動。此外,該環座43與上述第一定位套32的相對面分別為可相對結 合的-BI弧接收面431及一圓弧凸出面321,使該第一定位套$沿著該支撑 桿31的螺紋旋進,致關弧接收面431及該圓藏凸出面321相互緊抵,可使 〇該球面凸出部42以及該球面接收部41緊密的接觸而構成相對定位之關係。 關於上述安裝部固定組件20,包括一固定部21、一支撐桿連接部22, 以及一連接於該固定部21及該支撐桿連接部22之間的延伸桿23。該固定部 21具有複數個孔洞211,供複數個安裝元件24樞穿,而使其固定在上述實 體物92上。該支撐桿連接部22具有一長孔221供該支撐桿31的桿端樞穿, 該支撐桿連接部22位於該第一定位套32及第二定位套33之間,上述第二定 位套33沿著該支樓桿31的螺紋方向而旋進,可增加該第一定位套32及該第 ® 二定位套33施加於該支撐桿連接部22的機械力量,使該支撐桿連接部22與 该支撐組件30穩固結合’並且該支撐組件3〇可適用於不同厚度的支撐桿連 接部22。 如第四圖及第五圖’上述樞轴結構40使該支擇組件30可以全方位轉 動’而調整其與該玻璃固定組件10及該安裝部固定組件2〇的連接角度。基 於此’本案玻璃安裝裝置具有自動調整角度的功能,預安裝該玻璃板90的 實體物92上的孔洞與玻璃板的孔洞即使有相對位置的誤差,本案玻璃安裝 8 201005166 裝置仍然可以使用,並且確保玻璃板被穩固的固定。在第一圖至第五圖所 揭露的玻璃安裝裝置,適用在單一玻璃板的安裝及固定。 - 如第六圖’一安裝部固定組件20具有一固定部21,二個支撐桿連接部 22以及二個連接於該固定部21及該支撑桿連接部22之間的延伸桿23。二個 安裝部固定組件20以其固定部21上下相對’螺絲元件穿鎖該固定部21的孔 洞211 ’使二個安裝部固定組件2〇連接組合起來。複數玻璃板9〇分別以其 玻璃固定組件10以及支撐組件30—該支撐桿連接部22連接,使複數玻璃板 © 90兩兩相鄰連接構成一玻璃帷幕,基於該玻璃安裝裝置具有自動調整角度 之功能,可以很容易的將複數玻璃板90連接起來,並大幅減少複數玻璃板 90於安裝後出現同一平面高度差的問題。第六圖中介於二個固定部21之間 的是一個墊片25 ’不同厚度的整片25可改變二個固定部21的相對距離,而 調整相鄰玻璃板90的間距。 雖然本案是以一個最佳實施例做說明,但精於此技藝者能在不脫離本 案精神與範訂做各鮮同形式的改變。以上所舉實細僅肋說明本案 ❹ *已’非用以限制本案之範圍。舉凡不違本案精神所從事的種種修改或變 化,俱屬本案申請專利範圍。 【圖式簡單說明】 第一圖係本案玻璃安裝裝置與玻璃板結合的外觀示意圖。 第一圖係本案玻璃安裝裝置與玻璃板之組合外觀圖。 第-圖係本案玻璃安裝裝置與玻璃板之立體分解圖。 第四圖係本案麵安裝裝置的組合剖關5使職態示意圖。 9 201005166 第五圖係本案玻璃安裝裝置的組合剖面圖暨使用狀態示意圖。 第六圖係本案玻璃安裝裝置使複數玻璃板相鄰連接之示意圖。 【主要元件符號說明】 901-板面 91- 孔洞 92- 實體物 1 〇_玻璃固定組件 II- 穿樞元件 III- 穿樞部 112-擋止部 12-限位環 Λ 20-安裝部固定組件 21- 固定部 211_孔洞 22- 支撐桿連接部 221-長孔 23- 延伸桿 24- 安裝元件 25- 墊片 30-支撑組件 φ 31-支撐桿 32- 第一定位套 321-圓弧凸出面 33- 第二定位套 40- 樞轴結構 41- 球面接收部 42- 球面凸出部 43- 環座 431-圓弧接收面 90-玻璃板201005166 IX. INSTRUCTIONS: [Technical field to which the invention pertains] This case is used for glass construction work, and more specifically, a member for fixing a glass plate to a predetermined position of a building. [Prior Art] In a glass construction project, a glass mounting device is used to fix a glass plate to a predetermined position of a building (hereinafter referred to as a mounting portion), or a plurality of glass plates are arranged adjacent to each other to constitute a glass curtain.需 A plurality of holes are to be preset around the mounting portion and the surface of the glass plate, and the glass plate is conveniently fixed to the mounting portion by a plurality of glass mounting devices. The presence of positional errors between the holes in the mounting portion and the holes in the glass sheet is a common problem - one and this problem is usually discovered after a plurality of glass mounting devices have been installed. Traditional solutions to this problem include removing the assembled glass mounting device, repositioning the glass, repositioning holes in the glass or mounting area, and not using glass mounting devices at the location of the hole error. The first two programs cost a lot of money. The H case is a serious concern that the glass plate is not fixed. In addition, the above-mentioned installation site is not flat, and the mechanical strength of the glass mounting device and the glass plate is not caused by the plurality of glass mounting devices, which will cause the problem of the same plane height difference after the installation of the plurality of glass plates. Yes - the re-adjustment of the glass mounting device caused an increase in working hours costs. SUMMARY OF THE INVENTION The object of the present invention is to provide a glass mounting device for fixing a glass plate to a predetermined position i of a building (hereinafter referred to as a mounting portion), or for arranging a plurality of glass plates adjacent to each other 5 201005166 Glass curtain. The purpose of the present invention is to provide a glass mounting device having an all-round 'automatic angle adjustment function, which can automatically adjust the angle according to the hole of the installation part and the hole of the glass plate, and the hole and the glass plate at the installation part. In the case where there is a relative positional error in the hole, the glass mounting device can still be used and the glass plate is securely fixed. The purpose of the present invention is to provide a glass mounting device having a function of automatically adjusting an angle, a plurality of glass mounting devices for fixing a single glass plate to a mounting portion, or a plurality of glass plates adjacent to each other to form a glass curtain. At the same time, the problem of the same plane height difference after single or multiple glass plates can be greatly reduced. The main technology for achieving the above object in the present invention includes: a glass fixing component, which is pivotally fixed in a hole of a glass plate; a mounting portion fixing component fixed on a mounting portion pre-mounted with the glass plate; a supporting component; One end is connected to the glass fixing component, and the other end is connected to the mounting part fixing component; and β is at least one pivot structure that adjusts the supporting component to the glass fixing component and the mounting part fixing component. [Embodiment] For the convenience of the description, the central idea expressed in the column of the above summary of the present invention is expressed by a specific embodiment. In the examples, various objects are drawn according to the ratio, size, amount of deformation, or amount of displacement, which is suitable for the description, rather than the actual component ratio. In the following description, like elements are denoted by the same reference numerals. 6 201005166 As shown in the first to fourth figures, the glass mounting device of the present invention comprises: a glass fixing assembly 10' pivotally fixed in a hole 91 of a glass plate 9〇; a mounting portion fixing assembly 20 fixed in an installation The mounting portion includes, but is not limited to, a physical object 92 pre-installed with a glass panel 90; a support assembly 30 having one end connected to the glass fixing assembly 1 and the other end connected to the mounting portion fixing assembly The at least one pivot structure 40 includes a spherical receiving portion 41 and a spherical convex portion 42 respectively, which are respectively combined with the portion of the branch assembly 3 〇 opposite to the glass fixing component 1 ,, or The support assembly 30 is coupled to the portion of the mounting portion fixing assembly 2 that is oppositely coupled; the pivoting structure 40 allows the cutting assembly 3G to be fully rotated '❼驴' with the glass flipping assembly 1 The connection angle of the mounting portion fixing assembly 20. Regarding the above-mentioned glass fixing assembly 1 , a pivoting member 彳 and a limiting ring 12 are included. The frame member 11 has a hollow tubular piercing portion 111 and a stopper portion 112 integrally connected to one end of the frame portion in. The piercing portion 111 and the retaining ring 12 are threaded and coupled to each other. The pivoting hole 111 is pivoted into the hole 91 of the glass plate 90, and the supporting portion 112 and the limiting ring 12 are in contact with the plate surface 901 of the glass plate 90. Scaling the retaining ring 12 along the thread of the pivoting portion to increase the force applied by the supporting portion 112 and the inspection ring 12 to stabilize the glass fixing assembly 10 The glass sheets 9 are bonded and the glass fixing assembly can be applied to glass sheets 90 of different thicknesses. With respect to the above-mentioned support assembly 30, a support rod 31 and a first positioning sleeve 32 and a second positioning sleeve 33 which are coupled to the outer sleeve of the support rod 31 are included. The first positioning sleeve 32 and the second positioning sleeve 7 201005166 33 are screwed to the outside of the support rod μ. Regarding the above-mentioned pivot structure 40, the spherical convex portion 4 is changed to __#31 ___. The surface receiving portion is formed inside a ring seat, and the ring seat 43 is screwed to the end portion of the penetrating member. The spherical projection 42 is coupled to the spherical receiving portion 41 so that the swing lever 31 can be rotated in all directions. In addition, the opposite faces of the ring seat 43 and the first positioning sleeve 32 are respectively a conjugated -BI arc receiving surface 431 and a circular arc convex surface 321 , so that the first positioning sleeve $ along the support rod 31 When the thread is screwed in, the closing arc receiving surface 431 and the circular convex surface 321 abut each other, and the spherical convex portion 42 and the spherical receiving portion 41 are brought into close contact to form a relative positioning relationship. The mounting portion fixing assembly 20 includes a fixing portion 21, a support rod connecting portion 22, and an extension rod 23 connected between the fixing portion 21 and the support rod connecting portion 22. The fixing portion 21 has a plurality of holes 211 for pivoting a plurality of mounting members 24 to be fixed to the body 92. The support rod connecting portion 22 has a long hole 221 for pivoting the rod end of the support rod 31. The support rod connecting portion 22 is located between the first positioning sleeve 32 and the second positioning sleeve 33, and the second positioning sleeve 33 is The screwing in the thread direction of the support bar 31 increases the mechanical force applied by the first positioning sleeve 32 and the second positioning sleeve 33 to the support rod connecting portion 22, so that the support rod connecting portion 22 and The support assembly 30 is securely coupled 'and the support assembly 3' is adaptable to support rod connections 22 of different thicknesses. As shown in the fourth and fifth figures, the pivot structure 40 allows the adjustment assembly 30 to be rotated in all directions to adjust its connection angle with the glass fixing assembly 10 and the mounting portion fixing assembly 2''. Based on the fact that the glass mounting device of the present invention has the function of automatically adjusting the angle, even if there is a relative position error between the hole in the physical object 92 of the glass plate 90 and the hole of the glass plate, the glass installation 8 201005166 device can still be used, and Make sure the glass plate is securely fastened. The glass mounting device disclosed in the first to fifth figures is suitable for mounting and fixing a single glass plate. - As shown in the sixth figure, a mounting portion fixing assembly 20 has a fixing portion 21, two support rod connecting portions 22, and two extending rods 23 connected between the fixing portion 21 and the support rod connecting portion 22. The two mounting portion fixing members 20 are configured such that the fixing portions 21 are vertically opposed to each other by the screw members operating the holes 211' of the fixing portions 21 to connect the two mounting portion fixing members 2 to each other. The plurality of glass plates 9 are respectively connected by the glass fixing assembly 10 and the support assembly 30 - the support rod connecting portion 22, so that the plurality of glass plates 90 are adjacently connected to form a glass curtain, and the glass mounting device has an automatic adjustment angle based on the glass mounting device. The function of the plurality of glass plates 90 can be easily connected, and the problem of the same plane height difference of the plurality of glass plates 90 after installation is greatly reduced. Between the two fixing portions 21 in the sixth figure is a spacer 25'. The entire thickness 25 of different thicknesses can change the relative distance between the two fixing portions 21, and adjust the spacing of the adjacent glass sheets 90. Although the present case is illustrated by a preferred embodiment, those skilled in the art can make various changes in the form without departing from the spirit and scope of the present invention. The above is only a rib to illustrate the case ❹ * has been used to limit the scope of the case. All kinds of modifications or changes that are not in violation of the spirit of this case are the scope of patent application in this case. [Simple description of the drawings] The first figure is a schematic view of the appearance of the glass mounting device and the glass plate in this case. The first figure is a combined appearance of the glass mounting device and the glass plate in the present case. The first figure is an exploded view of the glass mounting device and the glass plate of the present case. The fourth figure is a schematic diagram of the combination of the surface installation device of the present case. 9 201005166 The fifth picture is a combined sectional view of the glass installation device in this case and a schematic diagram of the use state. The sixth figure is a schematic view of the glass mounting device of the present invention for connecting a plurality of glass plates adjacently. [Main component symbol description] 901-plate surface 91- hole 92- physical object 1 〇 _ glass fixing component II - piercing element III - piercing portion 112 - stopper portion 12 - limit ring Λ 20 - mounting portion fixing assembly 21- fixing part 211_ hole 22- support rod connecting part 221-long hole 23- extension rod 24-- mounting element 25- spacer 30-support assembly φ 31-support rod 32- first positioning sleeve 321-arc convex surface 33-Second positioning sleeve 40- Pivot structure 41- Spherical receiving part 42- Spherical projection 43- Ring seat 431-Arc receiving surface 90-Glass plate