1361849 六、發明說明: 【發明所屬之技術領域】 置,:η::: 一種雙轴向複合彈性布之製造裝 一種具備透氣性、透濕性及舒 、觸感’且具有夕方向彈性之複合彈性布之製造裝置。 【先前技術】 中一 布之製造方法’主要可分為兩種,其 ί盘= (spandex)或彈性薄膜在縱向張力 下…彈性不織布黏合;另一種則是加熱益彈性不織布 :其】=型方r變無彈性不織布之纖維排列方 式產生具有車-方向延展性之不織布; -方向延展性之不織布在無張力狀態下,與一彈:薄: 黏合。前述不織布之彈性效果主要是由彈性材質產生'、 惟利用彈性絲複合以形成彈性不織布之方式 造成局懸痕外,彈性絲之價格十分:、製、 程亦不裱保,且有化學溶劑之處 土 =織布之方式,因不織布不透氣之特性,易 體濕疹’至於熱延料型橫㈣性 合,亦有不透氣、基重高、生產工㈣:广生相複 缺點。 | &錢乡及產速慢等 此外’美國專利第4720415號揭示一種複合 法,其由一層彈性薄膜或炼嘴彈性不織布,: 举向拉伸之同時在彈性薄膜或炼噴彈: 5 1361849 面各複合一層聚酯紡黏不織布,並經過熱黏合機黏合, 以形成具單向彈性之複合彈性不織布。 美國專利第3575782號則揭示另一種彈性複合不織 布之製造方法,其特徵為將一排彈性絲(Elastic Filament) 於單向拉伸之同時在該排彈性絲之上下兩面各複合一層 不織布,·再經上膠、黏合及烘乾等製程,以形成具單: 彈性之複合彈性布。 台灣專利第1298775號揭示另一種彈性複合不織布 之製造方法,其於一次拉伸彈性不織布之動作,利用不 同轉,之輸入輸出輪組將纖維布附著於此彈性不織布 上’藉以形成具單向彈性之彈性布。 综上所述,前述各種技術手段或相關技術文獻均只 =令複合:性布具有單向彈性,故限縮了複合彈性布產 品之應用範圍。因此’如何產生一種 f有多方向彈性之複合彈性布,實為吾人值 【發明内容】 ,本發明之目的就是在 ,以提供一種製程簡便 。此複合彈性布可用於 人防護材或作為衣物素 有鑑於上述習知技藝之問題 提供一種複合彈性布之製造方法 且具備多方向彈性之複合彈性布 一次性拋棄性衛生醫療產品、個 材等。 種雙軸向複合彈性布之 根據本發明之目的,提出一 ⑽ 18491361849 VI. Description of the invention: [Technical field to which the invention pertains]: η::: A manufacturing material of a biaxial composite elastic cloth having a gas permeability, a moisture permeability, a comfortable feeling, and a sensation in the evening direction. A manufacturing device for a composite elastic cloth. [Prior Art] The manufacturing method of the medium cloth can be mainly divided into two types, namely, the disk = (spandex) or the elastic film under the longitudinal tension... the elastic non-woven fabric is bonded; the other is the heat-elastic non-woven fabric: The fiber arrangement of the square r-inelastic non-woven fabric produces a non-woven fabric having a car-direction ductility; - the non-woven fabric of the ductility is in a tension-free state, and is elastic: thin: bonded. The elastic effect of the non-woven fabric is mainly produced by the elastic material, but the elastic yarn is used to form the elastic non-woven fabric to cause the overhanging. The price of the elastic yarn is very high: the system and the process are not guaranteed, and there is a chemical solvent. The method of soil = weaving, because of the non-breathable nature of the non-woven fabric, easy to body eczema 'as for the heat extension type horizontal (four) sex, also has airtight, high basis weight, production workers (four): Guangsheng complex defects. | & Qian Xiang and slow speed of production, etc. Further, 'US Patent No. 4,410,415 discloses a composite method consisting of a layer of elastic film or a flexible non-woven fabric of a beaker,: a stretched stretch at the same time as an elastic film or a smoldering bomb: 5 1361849 Each layer is laminated with a polyester spunbonded non-woven fabric and bonded by a heat bonding machine to form a composite elastic non-woven fabric having unidirectional elasticity. Another method for manufacturing an elastic composite nonwoven fabric is disclosed in U.S. Patent No. 3,575,782, which is characterized in that a row of elastic yarns is uniaxially stretched while a layer of non-woven fabric is laminated on both sides of the elastic yarn. The process of gluing, bonding and drying is performed to form a composite elastic cloth with a single: elasticity. Taiwan Patent No. 1,298,775 discloses another method for producing an elastic composite non-woven fabric, which is characterized in that the elastic non-woven fabric is stretched once, and the input and output wheel sets are attached to the elastic non-woven fabric by different rotations, thereby forming a unidirectional elasticity. Elastic cloth. In summary, the various technical means or related technical documents mentioned above only make the composite: the sexual cloth has one-way elasticity, so the application range of the composite elastic cloth product is limited. Therefore, how to produce a composite elastic cloth having a multi-directional elasticity of f is actually a value of the present invention. The object of the present invention is to provide a simple process. The composite elastic cloth can be used for a human protective material or as a clothing. In view of the above-mentioned problems of the prior art, a composite elastic cloth manufacturing method is provided, and a multi-directional elastic composite elastic cloth disposable sanitary medical product, individual material, and the like are provided. A biaxial composite elastic cloth according to the object of the present invention, a (10) 1849
-第j ’其包含—第—承載滾軸、—第二承載滾轴、 承截^向拉伸模組及一第二轴向拉伸屢合模組。第一 布载2承載一彈性布,第二承载滚轴承載一非彈性 第一軸向拉伸模組夾固並拉伸彈性布以產生且第一 轴=彈性之彈性布,第二軸向拉伸壓合模組則拉伸具第 生軸向之彈性布以產生具第一軸向彈性及第二軸向 ^之彈性布,並將非彈性布與具第一軸向彈性及第二 軸向彈性之彈性布壓合以產生一複合彈性布。 承上所述,依本發明之雙軸向複合彈性布之製造裝 置’其可具有一或多個下述優點: 夕(1)此雙軸向複合彈性布之製造裝置可產生一具有 多方向彈性之複合彈性布,藉此可提高複合彈性布使用 上之便利性。 (2) 此雙軸向複合彈性布之製造裝置可產生一具有 良好透氣性及透濕性之複合彈性布,藉此可更廣泛的應 用於醫療素材或衣物素材上。 (3) 此雙軸向複合彈性布之製造裝置可透過簡易製 私·產生具有良好透氣性、透濕性及多方向彈性之複合彈 性布,藉此可降低其生產成本。 【實施方式】 請參閱第1A圖,其係為本發明之雙軸向複合彈性 布之製造裝置之實施態樣不意圖。圖中,雙轴向複合彈 性布之製造裝置包含一第一承載滚軸100、一第二承載 7 1361849 ::140、一第一軸向拉伸模組12〇及一第二軸向拉伸 一二模組130。此第二軸向拉伸壓合模組13〇包含至少 壓。滾輪131。第一承載滾軸1〇〇承載一彈性布1〇1 ; ^二承載滾軸14〇承載一非彈性布141。第一軸向拉伸 ^組120失固彈性布1(n,並沿第一轴向ιΐ2拉伸彈性 ιοί。第二軸向拉伸壓合模組13〇沿第二軸向拉伸具 第軸向彈性之彈性布160,並將非彈性布141與具第 ★軸向彈性及第二軸向彈性之彈性布壓合以產生一 複&彈〖生布I11。雙轴向複合彈性布之製造裝置更包含 一收納滾軸1〗〇以收納複合彈性布11 1。 詳言之,第一軸向拉伸模組120包含一第一夾固鏈 條導執121、一第一活動鏈條導軌U2、一第一鏈條123、 第一夾固鏈條導執151 ' 一第二活動鏈條導軌152及 一第二鏈條153。第一活動鏈條導軌122經由一第一活 動關節125與第一灸固鏈條導軌121連接,第一活動鍵 條導執122藉由此第一活動關節125進行活動;第二夾 固鏈條導執151經由―第二活動關節155與第二活動鍵 條導軌152連接’第二活動鏈條導軌152藉由此第二活 動關節155進行活動;第一鍊條123環設於第一夹固鏈 ,導軌121及第一活動鏈條導軌122周圍;第二鍊條153 環設於第二夹固鏈條導軌151及第二活動鏈條導軌152 周圍。第一夾固鏈條導執121與第二夾固鏈條導軌151 為平行排列;第一活動鏈條導軌122以第一活動關節125 為基礎,進行左右移動;第二活動鏈條導軌152以第二 活動關卽15 5為基礎,進行左右移動。 1361849 第一鏈條123及第二鏈條153各包含多個第一夹固 機構124及第二夾固機構154,其各夹固彈性布1〇1之 一侧。第一鏈條123沿著第一夹固鏈條導軌12ι及第一 活動鏈條導軌122之周圍移動;第二鍊條153沿著第二 夾固鍵條導軌151及第二活動鍵條導軌152之周圍移 動,彈性布101隨第一鏈條123及第二鍊條153之移動 方向進行移動。然而,為避免彈性布1〇1受第一鏈條123 及第二鏈條153夾固時產生歪斜現象,第一鏈條123及 • 第二鏈條153之繞行速度必須彼此同步。因第一活動鏈 條導軌122及第二活動鏈條導執152非平行排列,故彈 性布101隨第一鏈條123及第二鏈條153移動時,將因 第一活動鏈條導軌122及第二活動鏈條導轨152之位置 逐漸擴張,產生沿第一軸向112拉伸之作用;此第一軸 向112拉伸倍率為出口寬度/入口寬度“卯%。在本實施 例中,壓合滚輪131需與第一活動鏈條導軌丨22及第二 活動鏈條導軌152保持在一定距離以内,以維持彈性布 Φ 在第一軸向112之張力。 此外’第一夾固鏈條導執121之一端設置有一第一 感應器126 ;第一活動鏈條導執122之一端設置有一第 二感應器127。當第一感應器126感應到彈性布ι〇ι到 達一第一預設位置114時,第一感應器126控制第一夾 固機構124夹固彈性布1〇1 ;當第二感應器127感應到 由第一夾固機構124夾固之彈性布1〇1到達一第二預設 位置115時,第二感應器127則控制第一夾固機構^ 以釋放已夾固之彈性布1Gle同理,第二夾固鍵條導軌 9 1361849 151之一端設置有一第三感應器156,·第二活動鏈條導軌 152之一端設置有一第四感應器157。第三感應器156 及第四感應器157係用以感應彈性布101之位置,並控 制第二失固機構154以進行夾固及釋放之動作。 請續參閱第1B圖’其係為本發明之雙軸向複合彈 f生布之製造裝置之第二實施態樣俯視圖。圖中,第三夾 固鏈條導執180可經由一第三活動關節19〇與第一活動 鏈條導執122連接;第四夾固鏈條導軌181可經由一第 四活動關節191與第二活動鏈條導轨152連接;第一鍊 條123環設於第一夾固鏈條導軌121、第一活動鏈條導 執122及第三夾固鏈條導執18〇周圍;第二鍊條153環 設於第二夾固鏈條導軌151、第二活動鏈條導軌152及 第四夾固鏈條導軌181周圍;彈性布1〇1依第一鏈條123 及第二鏈條153之行進路線移動。第一活動鏈條導軌122 以第一活動關節125及第三活動關節19〇為基礎,進行 不同角度之考折,第二活動鏈條導軌丨52以第二活動關 卽15 5及第四活動關節191為基礎,進行不同角度之彎 折。使用者可因應欲生產之產品,調整第一活動鏈條導 執122及第二活動鏈條導執152之彎折角度,進一步調 整彈性布101沿第一軸向112之拉伸程度。依本實施例 之實施方式,第三夾固鏈條導軌18〇及第四夾固鏈條導 轨181可用以維持彈性布101在第一軸向112之張力。 此外,第一感應器126設置於第一夾固鏈條導軌 121 ;第二感應器127設置於第三失固鏈條導執18〇上; 第二感應器156 6又置於第二夾固鍵條導軌m之上;第 1361849 四感應器157設置於第四夾固鏈條導軌18ι上。各鏈條 導軌上之各感應器用以感應彈性布1 〇 1之位置,並控制 各夾固機構以進行夾固及釋放之動作。 請續參閱第2圖,其係為本發明之雙軸向複合彈性 布之製造裝置之第一及第二實施態樣之側視示意圖。圖 中,經第一軸向拉伸模組12〇拉伸產生之具第一軸向112 彈性之彈性布160,進一步移動至第二軸向拉伸壓合模 組130。此第一軸向拉伸壓合模組no包含至少一壓合 滚輪131。此壓合滚輪131之滾輪線速度a大於鏈條: 移動速度b (第一軸向拉伸模組12〇運輸彈性布之運輸速 度)’故將使具第一軸向彈性之彈性布16〇再產生第二軸 白113拉伸之作用,藉以使得具第一軸向彈性之彈性布 160成為具第一軸向彈性及第二軸向彈性之彈性布 17〇。此第二軸向113拉伸倍率為壓合滾輪131之滾輪線 速度a/鏈條之移動速度bxl〇〇%。 將上下兩非彈性布141放入上下兩壓合滾輪131之 間,使非彈性布141與具第一轴向112彈性及第二軸向 113彈性之彈性布17〇黏合,使具第一軸向彈性及第二 軸向彈性之彈性布170在受張力之情況下與非彈性布 141複合黏合,形成複合彈性布111。當複合彈性布1U 通過壓合滾輪1314麦,其内部之彈性布i 吏非彈性布⑷產生第一抽向及第二轴向3 _ ,彈性布之物性、規格、材質、延伸率與壓合 皺Π,、紋大小:型態會相互複合形成具有口同; /、備舒適觸感及透氣、透濕性之多軸向彈性之 複合彈性布111。 在本實施例中,第-+ ± 向彈性之彈性布〗60【:^軸:設置於具第-軸 組13。將第二承載主轴心==向拉㈣合模 货心丄 υ τ之非彈性布141壓合於且 :::向彈性及第二性軸向之使: =⑷以雙層結構黏合於具第一=使: Γ=布17〇之兩側,藉以產生複合彈性布二 ^-承載絲14〇亦可設置於具第 向彈性之彈性布170 彈口第-軸 組13。可將第二承载主軸壓合模 具第-軸向彈性及第-:二非弹性布141壓合於 二軸向彈性之彈性:二?合於具第-軸向彈性及第 m 〇 布 之早側,藉以產生複合彈性布 布二彈=1〇1透過物理或化學之方式與非彈性 °σ彈f生布101為熔噴不織布、紡 熔喷紡黏複合不織布,且彈性 、 、、或 ^ ^ . 彈11布ι〇1之材質為苯乙烯彈 性體、㈣及聚氨卿 彈性布141為熔喷不锉右.^ 办成非 ^ ^ ^ ^ 織布、,方黏不織布、熔喷紡黏複合 =二=風不織布、短纖維熱壓不織布或水軋 ^ 之材質為纖維素纖維、碳纖維、 聚酉曰(PET)、尼隆(NYL〇N)、聚- a j-th comprising - a first carrying roller, a second carrying roller, a bearing tensioning module and a second axial stretching repeating module. The first cloth carrier 2 carries an elastic cloth, and the second carrier roller carries a non-elastic first axial stretching module to clamp and stretch the elastic cloth to generate and the first shaft=elastic elastic cloth, the second axial direction The tensile pressing module stretches the elastic cloth with the first axial direction to produce the elastic cloth with the first axial elasticity and the second axial direction, and the non-elastic cloth has the first axial elasticity and the second The axially elastic elastic cloth is pressed to produce a composite elastic cloth. According to the invention, the apparatus for manufacturing a biaxial composite elastic cloth according to the present invention may have one or more of the following advantages: (1) The manufacturing apparatus of the biaxial composite elastic cloth can produce a multi-directional direction. The elastic composite elastic cloth can improve the convenience of use of the composite elastic cloth. (2) The manufacturing apparatus of the biaxial composite elastic cloth can produce a composite elastic cloth having good gas permeability and moisture permeability, thereby being more widely applied to medical materials or clothing materials. (3) The manufacturing apparatus of the biaxial composite elastic cloth can reduce the production cost by simply producing a composite elastic cloth having good air permeability, moisture permeability and multi-directional elasticity. [Embodiment] Please refer to Fig. 1A, which is a schematic view of an embodiment of a manufacturing apparatus for a biaxial composite elastic cloth of the present invention. In the figure, the manufacturing device of the biaxial composite elastic cloth comprises a first bearing roller 100, a second bearing 7 1361849::140, a first axial stretching module 12〇 and a second axial stretching. One or two modules 130. The second axial tensile compression module 13A comprises at least a pressure. Roller 131. The first carrier roller 1 〇〇 carries an elastic cloth 1〇1; the second carrier roller 14 〇 carries a non-elastic cloth 141. The first axially stretched group 120 is uncured elastic cloth 1 (n, and stretched elastically along the first axial direction ι 2). The second axially stretched compression module 13 is stretched along the second axial direction The elastic sheet 160 elastically elastically presses the non-elastic cloth 141 with the elastic cloth having the second axial elastic and the second axial elasticity to produce a composite & elastic fabric I11. Biaxial composite elastic fabric The manufacturing device further includes a storage roller 1 to accommodate the composite elastic cloth 11 1. In detail, the first axial stretching module 120 includes a first clamping chain guide 121 and a first movable chain guide. U2, a first chain 123, a first clamp chain guide 151', a second movable chain guide 152 and a second chain 153. The first movable chain guide 122 is coupled to the first moxibustion chain via a first movable joint 125 The guide rails 121 are connected, the first movable key bar guide 122 is moved by the first movable joint 125; the second clamped chain guide 151 is connected to the second movable key link 152 via the second movable joint 155. The movable chain guide 152 is moved by the second movable joint 155; the first chain 123 is arranged at the a clamping chain, a guide rail 121 and a first movable chain guide 122; a second chain 153 is disposed around the second clamping chain guide 151 and the second movable chain guide 152. The first clamping chain guide 121 and the second clamping member The fixed chain guide rails 151 are arranged in parallel; the first movable chain guide rails 122 are moved left and right based on the first movable joint 125; and the second movable chain guide rails 152 are moved left and right based on the second movable joints 15 5 . Each of the chain 123 and the second chain 153 includes a plurality of first clamping mechanisms 124 and a second clamping mechanism 154, each of which clamps one side of the elastic cloth 1〇1. The first chain 123 is along the first clamping chain The rail 12 is moved around the first movable chain guide 122; the second chain 153 moves along the circumference of the second clamping button rail 151 and the second movable button rail 152, and the elastic cloth 101 follows the first chain 123 and the second The moving direction of the chain 153 is moved. However, in order to prevent the elastic cloth 1〇1 from being skewed when the first chain 123 and the second chain 153 are clamped, the bypass speeds of the first chain 123 and the second chain 153 must be mutually Synchronization A movable chain guide 122 and a second movable chain guide 152 are non-parallel, so that when the elastic cloth 101 moves with the first chain 123 and the second chain 153, the first movable chain guide 122 and the second movable chain guide 152 will be The position gradually expands to produce a tensile force along the first axial direction 112; the first axial 112 stretch ratio is the outlet width/inlet width "卯%. In this embodiment, the press roller 131 needs to be the first The movable chain guide 22 and the second movable chain guide 152 are held within a certain distance to maintain the tension of the elastic cloth Φ in the first axial direction 112. Further, one end of the first clamp chain guide 121 is provided with a first inductor 126; and one end of the first movable chain guide 122 is provided with a second inductor 127. When the first sensor 126 senses that the elastic cloth ι〇ι reaches a first preset position 114, the first sensor 126 controls the first clamping mechanism 124 to clamp the elastic cloth 1〇1; when the second sensor 127 senses When the elastic cloth 1〇1 clamped by the first clamping mechanism 124 reaches a second preset position 115, the second inductor 127 controls the first clamping mechanism to release the clamped elastic cloth 1Gle. A third inductor 156 is disposed at one end of the second clamp rail guide 9 1361849 151, and a fourth inductor 157 is disposed at one end of the second movable chain rail 152. The third inductor 156 and the fourth inductor 157 are used to sense the position of the elastic cloth 101 and control the second unclamping mechanism 154 for clamping and releasing. Please refer to FIG. 1B, which is a plan view of a second embodiment of the apparatus for manufacturing a biaxial composite elastic fabric of the present invention. In the figure, the third clamping chain guide 180 can be connected to the first movable chain guide 122 via a third movable joint 19〇; the fourth clamping chain guide 181 can be connected to the second movable chain via a fourth movable joint 191 The guide rails 152 are connected; the first chain 123 is disposed around the first clamp chain guide 121, the first movable chain guide 122 and the third clamp chain guide 18A; the second chain 153 is disposed on the second clamp. Around the chain guide 151, the second movable chain guide 152, and the fourth clamped chain guide 181; the elastic cloth 〇1 moves according to the travel path of the first chain 123 and the second chain 153. The first movable chain guide 122 is based on the first movable joint 125 and the third movable joint 19〇, and is tested at different angles. The second movable chain guide 52 is connected to the second movable joint 15 and the fourth movable joint 191. Based on the bending of different angles. The user can adjust the bending angle of the first movable chain guide 122 and the second movable chain guide 152 according to the product to be produced, and further adjust the degree of stretching of the elastic cloth 101 along the first axial direction 112. According to an embodiment of the present embodiment, the third pinch chain guide 18 and the fourth pinch chain guide 181 can be used to maintain the tension of the elastic cloth 101 in the first axial direction 112. In addition, the first inductor 126 is disposed on the first clamp chain guide 121; the second inductor 127 is disposed on the third lost chain guide 18〇; the second inductor 156 6 is placed on the second clamp button Above the guide rail m; the 1361849 four inductor 157 is disposed on the fourth clamp chain guide 18 ι. Each of the sensors on each of the chain guides senses the position of the elastic cloth 1 〇 1 and controls the clamping mechanisms for clamping and releasing. Please refer to Fig. 2, which is a side elevational view showing the first and second embodiments of the apparatus for manufacturing a biaxial composite elastic cloth of the present invention. In the figure, the first axial 112 elastic elastic cloth 160 which is stretched by the first axial stretching module 12 is further moved to the second axial tensile pressing mold set 130. The first axial tensile compression module no comprises at least one pressure roller 131. The linear speed a of the roller of the pressing roller 131 is greater than the chain: the moving speed b (the transport speed of the first axial stretching module 12 〇 transporting the elastic cloth), so that the elastic cloth with the first axial elasticity is 16 The second shaft 113 is stretched to cause the elastic cloth 160 having the first axial elasticity to become the elastic cloth 17 having the first axial elasticity and the second axial elasticity. The second axial 113 stretch ratio is the roller linear velocity a of the press roller 131/the moving speed bxl〇〇% of the chain. The upper and lower non-elastic cloths 141 are placed between the upper and lower pressing rollers 131, and the non-elastic cloth 141 is bonded to the elastic cloth 17 具 having the first axial direction 112 elastic and the second axial direction 113 elastic to make the first shaft The elastic cloth of the elastic and second axial elasticity is compositely bonded to the non-elastic cloth 141 under tension to form a composite elastic cloth 111. When the composite elastic cloth 1U passes through the pressing roller 1314, the inner elastic cloth i 吏 non-elastic cloth (4) generates the first drawing direction and the second axial direction 3 _ , the physical properties, specifications, materials, elongation and pressing of the elastic cloth Wrinkles, grain size: the types will be combined with each other to form a composite elastic cloth 111 having the same mouth; /, a comfortable touch and a plurality of axial elasticity which is breathable and moisture permeable. In the present embodiment, the -+± elastic elastic cloth 60 [:^ axis: is disposed on the first-axis group 13. The non-elastic cloth 141 of the second load-bearing main shaft == pull-to-pull (four) mold-bonding core τ is pressed and the ::: direction elastic and the second axial direction are made: = (4) is adhered to the double-layer structure With the first = make: Γ = cloth 17 〇 on both sides, thereby producing a composite elastic cloth 2 - carrier wire 14 〇 can also be placed on the first elastic group 170 elastic elastic cloth 170. The second load-bearing spindle press-fit mold first-axial elastic and the first:-two non-elastic cloth 141 can be pressed against the elasticity of the two-axial elasticity: two-in-one with the first-axial elastic and the m-th elastic Side, by which a composite elastic cloth is produced, two bombs = 1 〇 1 through physical or chemical means and inelastic ° σ elastic f fabric 101 is a melt-blown non-woven fabric, spun melt-spun spunbond composite non-woven fabric, and elastic,,, or ^ ^ . The material of the 11 cloth ι〇1 is styrene elastomer, (4) and the polyurethane soft cloth 141 is melted and blown right. ^ Do not ^ ^ ^ ^ Weaving, square non-woven fabric, melt-blown spinning Adhesive composite = two = wind non-woven fabric, short-fiber hot-pressed non-woven fabric or water-rolled ^ The material is cellulose fiber, carbon fiber, polythene (PET), nylon (NYL〇N), poly
丁二醇酯(PBT)、臂栌贫h>d〇、 不訂本一 T I (PE)。 ^本_)、聚乳酸(PLA)或聚乙烯 12 1361849 合彈:及第犯圖’其係分別為本發明之複 合彈性:俜由?:::態樣剖面示意圖。· 3A圖中,複 =布係由早層非彈性布32〇黏合於雙輪向拉伸 二生布330上’且彈性布33〇及非彈性布32〇之間形成複 ,=合點31G以黏合非彈性布32()及彈 。此 為菱形、圓形或橢圓形,且此些結合點- 传由兩愿點/cm2。·3B圖中,複合彈性布 係由兩層非彈性布320黏合於雙軸向拉伸之彈性布330 =側’且彈性布33G及非彈性布32q之間形成複數個 、,。合點3H)以黏合非彈性布32()及彈性布33()。此些結 合:310為菱形、圓形或橢圓形,且此些結合點η之壓 點密度為6〜15壓點/cm2。 本發明之雙軸向複合彈性布之製造裝置中的鍵條更 ^含鏈條本體及設置於鏈條本體上之夾固機構。請㈣ 4A〜4B圖,其係為本發明之雙軸向複合彈性布之製造 裝置之夾固機構之兩種態樣之剖面示意圖。如第4A圖 所示,第一種態樣之夾固機構42〇具有一置物平台45/、 -固定針43G及-卡固輪421。固定針伽係用以穿透 前述之彈性布410以將彈性布41〇穩固放置於置物平台 450上,卡固輪421則以一機械運作之方式自上方壓^ 於彈性布410上;彈性布410經由固定針43〇及卡固輪 421之兩方作用以穩定置放於置放平台45〇上。請續參 閱第4B圖,第二種態樣之夾固機構42〇包含卡固臂 及置放平台450,彈性布410放置於置放平台45〇上, 而後經由卡固臂440壓固於彈性布41〇上,使彈性布41〇 13 1361849 穩定放置於置放平台450上。太眘#在丨&斑山 上本實允例所舉出之鏈條態 樣係使用乘福工業之產品舰第14頁之鏈條結構,惟其 僅為舉例,實際上並不以此為限。 前述實施例亦可基於本發明之精神略加修改,例 如,利用任一元件以牽引或拉伸彈性布,以及改變彈性 布拉伸的比例或彈性布及非彈性布之黏合方式等。惟此 等運用本發明精神之細微修正均不脫離本發明之精神和 ,要特性。因此,上文所列之實施例在各方面都應認為 =例不性而非限制性,而所有之改變只要合乎申請專利 轨圍之意義和範圍或其等效者,均應包含在本發 疇之内。 【圖式簡單說明】 第1A圖係本發明之雙軸向複合彈性布之製造裝置之第 一實施態樣俯視圖。 第1B圖係本發明之雙軸向複合彈性布之製造裝置之第 二實施態樣俯視圖。 第2圖係本發明之雙軸向複合彈性布之製造裝置之第一 及第一實施態樣之側視示意圖。 第3 A〜3B圖係分別為本發明之複合彈性布之兩種成品態 樣剖面示意圖。 第4A〜4B圖係分別為本發明之雙軸向複合彈性布之製造 裝置之夾固機構之兩種態樣之剖面示意圖。 1361849 【主要元件符號說明】Butylene glycol ester (PBT), arm stagnation h > d 〇, do not order a T I (PE). ^本_), Polylactic acid (PLA) or Polyethylene 12 1361849 Combined bomb: and the first map are respectively the composite elasticity of the present invention: 俜 by? ::: Schematic diagram of the profile. · In Fig. 3A, the complex = cloth is bonded by the early layer of non-elastic cloth 32〇 to the double-wheel stretched fabric 250 and the elastic cloth 33〇 and the non-elastic cloth 32〇 are formed, == 31G To bond non-elastic cloth 32 () and bomb. This is a diamond, a circle or an ellipse, and these joint points - passed by two points / cm2. In the 3B diagram, the composite elastic fabric is bonded to the biaxially stretched elastic cloth 330 = side ' by two layers of non-elastic cloth 320, and a plurality of elastic cloths 33G and non-elastic cloths 32q are formed. Joint 3H) to bond non-elastic cloth 32 () and elastic cloth 33 (). Such combinations: 310 is a diamond, a circle or an ellipse, and the point density of the bonding points η is 6 to 15 pressure points/cm 2 . The key strip in the manufacturing apparatus of the biaxial composite elastic cloth of the present invention further comprises a chain body and a clamping mechanism provided on the chain body. Please refer to (4) Figures 4A to 4B, which are schematic cross-sectional views showing two aspects of the clamping mechanism of the manufacturing apparatus of the biaxial composite elastic cloth of the present invention. As shown in Fig. 4A, the first aspect of the clamping mechanism 42A has a storage platform 45/, a fixed pin 43G and a --clamping wheel 421. The fixing needle is used to penetrate the elastic cloth 410 to firmly place the elastic cloth 41 on the storage platform 450, and the fixing wheel 421 is pressed on the elastic cloth 410 from above in a mechanical operation; the elastic cloth The 410 is fixedly placed on the placement platform 45 by the action of the fixed pin 43 and the securing wheel 421. Referring to FIG. 4B , the second aspect of the clamping mechanism 42 〇 includes a clamping arm and a placement platform 450 . The elastic cloth 410 is placed on the placement platform 45 , and then is fixed to the elastic body via the fastening arm 440 . On the cloth 41, the elastic cloth 41〇13 1361849 is stably placed on the placement platform 450. Taishen #在丨和amp;山山 The chain state cited in this example is the chain structure of the 14th page of the product ship of the Fufu Industrial, but it is only an example, and is not limited to this. The foregoing embodiments may also be modified slightly based on the spirit of the present invention, for example, by using any of the elements to pull or stretch the elastic cloth, and to change the ratio of the stretch of the elastic cloth or the manner in which the elastic cloth and the non-elastic cloth are bonded. However, the subtle modifications of the spirit of the present invention are not to be construed as departing from the spirit and scope of the invention. Therefore, the above-listed embodiments should be considered in all respects as being indefinite and not limiting, and all changes should be included in this issue as long as they conform to the meaning and scope of the patent application or its equivalent. Within the domain. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1A is a plan view showing a first embodiment of a manufacturing apparatus for a biaxial composite elastic cloth of the present invention. Fig. 1B is a plan view showing a second embodiment of the apparatus for manufacturing a biaxial composite elastic cloth of the present invention. Fig. 2 is a side elevational view showing the first and first embodiment of the apparatus for manufacturing a biaxial composite elastic cloth of the present invention. The 3A to 3B drawings are schematic cross-sectional views of two kinds of finished products of the composite elastic cloth of the present invention, respectively. 4A to 4B are schematic cross-sectional views showing two aspects of the clamping mechanism of the manufacturing apparatus of the biaxial composite elastic cloth of the present invention, respectively. 1361849 [Main component symbol description]
100 : 第一承載滾轴 101 : 彈性布 110 : 收納滚軸 111 : 複合彈性布 112 : 第一轴向 113 : 第二轴向 114 : 第一預設位置 115 : 第二預設位置 120 : 第一轴向拉伸模組 121 : 第一夾固鏈條導軌 122 : 第一活動鏈條導執 123 : 第一鍵條 124 : 第一夾固機構 125 : 第一活動關節 126 : 第一感應器 127 : 第二感應器 130 : 第二軸向拉伸壓合模組 131 : 壓合滾輪 140 : 第二承載滚轴 141 : 非彈性布 151 : 第二夾固鏈條導執 152 : 第二活動鏈條導軌 153 : 第二鏈條 154 : 第二夾固機構 15 1361849 155 :第二活動關節 156 :第三感應器 157 :第四感應器 160:具第一軸向彈性之彈性布 170 :具第一轴向彈性及第二軸向彈性之彈性布 180 :第三夾固鏈條導軌 181 :第四夾固鏈條導執 190 :第三活動關節 191 :第四活動關節 310 :結合點 320 :非彈性布 330:彈性布 400 :鏈條本體 410 :彈性布 420 :夾固機構 421 :卡固輪 430 :固定針 440 :卡固臂 450 :置放平台100 : First carrying roller 101 : elastic cloth 110 : storage roller 111 : composite elastic cloth 112 : first axial direction 113 : second axial direction 114 : first preset position 115 : second preset position 120 : An axial stretching module 121: first clamping chain guide 122: first movable chain guide 123: first key bar 124: first clamping mechanism 125: first movable joint 126: first sensor 127: The second inductor 130: the second axial stretching and pressing module 131: the pressing roller 140: the second carrying roller 141: the non-elastic cloth 151: the second clamping chain guide 152: the second movable chain guide 153 : second chain 154 : second clamping mechanism 15 1361849 155 : second movable joint 156 : third inductor 157 : fourth inductor 160 : elastic cloth 170 with first axial elasticity: first axial elasticity And a second axial elastic elastic cloth 180: a third clamped chain guide 181: a fourth clamped chain guide 190: a third movable joint 191: a fourth movable joint 310: a joint point 320: a non-elastic cloth 330: elastic Cloth 400: Chain body 4 10 : elastic cloth 420 : clamping mechanism 421 : fastening wheel 430 : fixing needle 440 : clamping arm 450 : placing platform