u/3545 六、發明說明: 【發明所屬之技術領域】 本發明係涉及一種運用於路基、陡坡、擋土牆及水土 保持結構體的加勁格網,尤指一種具高強度的加勁格網之 製法。 【先前技術】 對於鐵路或公路的路基、陡坡、擋土牆,以及山坡地 開發之水土保持結構體等營建工程,一般均必須採用加勁 結構,加勁格網是該等加勁結構能夠發揮加勁功能的重要 構件。傳統的加勁格網的製造方法可以參閱申請人先前獲 准取㈣TW公告帛312717號發明專利案,《係將^ 纖維(PET)紗線套設於秒架上,並在調整張力後饋入編織 機中進行編織作業’以經、緯相異方向交叉排列編織成呈 一度空間形態的格網構造,接著將編織機所編成的格網, 導入勝液浸槽中進行浸膠作業或導入淋勝裝置中進行淋膠 作業,讓聚氣乙稀(PVC)勝液能夠渗入聚I纖維 二 内部且於聚I纖維紗線束的表面形成包覆層,再將… 淋膠後的格網以乾燥箱中進行供乾作業,即可製作二或 線束表層及經、緯紗線束交織點均設有膠層的強化型力ζ ‘網’藉以產±提高結構強度及防滑效果等效能。1 傳統以浸膠或淋膠方式於纖維網體表面L 加勁格網,雖然已經具有強化加勁格網 二覆層的 及防滑等優點,…浸膠或淋膠方式產生之=阻抗 度相當肖’難以提供足夠的加勁效果及覆層的厚 3 1373545 汉t或淋膠方式加工所使用的聚氣乙烯(pvc),存在有容 易造成環境污染,以及加王設備清洗不㈣問題。 " 如tw公告第425345號發明專利案係揭露一種合 纖維型的地工格絪生 .之氣ia方法,其製法係將至少一種高炼 點長纖維與至少—種低炫點短纖維以複合纺紗的方式形成 複合紗,並將複合紗編織成格網狀織物,#著加熱該格網 狀織物,使該低炼點短纖維炫化而包覆該高㈣長纖维, 等到冷卻後即製成表面具包覆層的地工格網1方法的優 ::可以省略傳統以聚氯乙稀(pvc)或遞青含浸的步驟, 表造成本較低且符合環保, _ X万法對於稷合紡紗的編 ,‘我要求極高,若編織成型不當! 將會造成熔化的短纖無法 包覆整個地工格網的問題。 為了解決前述加勁格網製法所存在的問題,”人提 二:TW公開第20_5032號發明專利案所揭心保格 以方法,該案主要是利用以靜電吸附的手讓通過 静電離子撒粉裝置的纖維網體的 ,pp:w ^ ^ 的表面吸附撒落的聚乙烯 (pE)粉胆,再將面附著有聚乙烯 •的纖維網體進行烘烤 ,讓附著的聚乙烯粉熔融成包覆 取笮網體的聚乙烯層,待 冷邠定型即製成具高結構強度的 τ. 1示格網。然而該案所揭 路的製造方法,必須使用離子產生 八 王益、電離子勻粉檣及雷 名棒等設備’存在有設備成本高及 门久工序較多等問題。 【發明内容】 為解決現有高強度加勁格網之制 丄. 表法有關於生產設備成 本高或製造困難度高等問題及限制,士技 本發明之主要目的在 4 方式來製造高強度加 生產設備,快速地製 纖維網體饋入一撒粉 於死供一種採用直接粉體附著及烘烤 勁格網之製法,藉以達到利用簡單的 造出具高結構強度的加勁格網者。 於提供一種高強度加勁 本發明所運用的技術手段係在 格網之製法’其步驟係包括: 粉體附著:將具預設網目大小的 I置,將粉體附著於纖維網體的表面 供烤·將表面附著有粉 進行烘烤’讓附著於纖維網 維網體的經向炒束、緯向紗 —包覆膠層; 體的纖維網體饋入一烘烤裝置 體表面的粉體熔融而包覆於纖 束及紗束交織點的表面而形成 一冷卻定型:將經過烘烤步驟而於表面形成包覆膠層的 一加勁格網,施以冷卻手段而定型; 成品··將經過冷卻定型步驟而定型的加勁格網饋出, 即為加勁格網的成品。 則述的製法,其中烘烤步驟的烘烤溫度係設定在】〇〇 C〜1 80°c的溫度範圍,並以1 3〇。匚為最佳。 月’J述的製法,其中的粉體粒徑係在4 76咖~〇 〇37刪 的範圍,並以〇·25刪為最佳。 則述的製法,其中的纖維網體係以聚酯(PE丁)、聚丙 稀(PP)、高密度聚乙烯(HDPE)、尼龍(NYLON)、聚乙烯醇 (P VA)或聚氣乙烯(pvc)的纖維纱線所編織構成,並以聚酯 (P E T)為最佳。 別述的製法’其中的粉體的材質係為聚丙烯(p p )、聚 乙烯(户已)、尼龍(1\|丫1_0问)、聚氯乙稀(户\/〇)、聚乙嫦醇 1373545 (PVA)、環氧樹脂(ΕΡ〇χγ) 阳)或是混合物方式,例如聚::酸乙稀,VA)或聚輯 是聚乙稀(PE)加防火劑,並 (PP)加聚乙稀(pE)或 I乙烯屮已)為最佳。 前述的製法,其中的包覆膠層的重 網體的10%〜500%的範圍内, 里尔為所述纖維 ⑽亚以80〇/。為最佳。 前述的製法’其中的粉體附著步驟係利用粉體的重旦 ,以自重方式將粉體落粉附著於 里 。 ·.减維網體朝上一側的表面 前述的製法’其中係包括兩 的烘烤步驟。 兩-人的粉體附著步驟及兩次 驟之前進行一上膠步 入一膠液槽,讓纖維 前述的製法,其中於粉體附著步 ’,將具。預設網目大小的纖維網體饋 網體的表面附著有粘膠。 前述的製法’其中的粉體附著步驟 嘗v称係利用粘膠將粉體 祐結附著於纖維網體的表面。u/3545 VI. Description of the Invention: [Technical Field] The present invention relates to a stiffening grid applied to a roadbed, a steep slope, a retaining wall and a soil and water conservation structure, especially a high-strength stiffening grid. System of law. [Prior Art] For the construction of railways or highways, steep slopes, retaining walls, and water and soil conservation structures developed on hillsides, it is generally necessary to use stiffening structures. The stiffening grids are capable of exerting stiffening functions. Important components. The manufacturing method of the conventional stiffening grid can be referred to the applicant's previously approved (4) TW Announcement No. 312717 invention patent case, which is to set the fiber (PET) yarn on the second frame and feed the knitting machine after adjusting the tension. In the middle of the weaving operation, the grid structure is woven into a one-dimensional shape in the cross direction of the warp and weft directions, and then the grid formed by the knitting machine is introduced into the wink dip tank for dipping work or introduction into the shower device. In the middle of the laminating operation, the polyethylene gas (PVC) liquid can be infiltrated into the inside of the poly-I fiber and form a coating on the surface of the poly-I fiber yarn bundle, and then the glued grid is used as a drying oven. In the middle of the dry work, the second or the wire bundle surface layer and the warp and weft yarn bundle interlacing points are provided with a rubber layer of the reinforcing force ζ 'net' to produce ± to improve the structural strength and anti-skid effect equivalent energy. 1 Traditionally, the D-strength grid is applied to the surface of the fiber mesh by dipping or leaching. Although it has the advantages of two layers of reinforced mesh and anti-slip, etc., the dipping or leaching method produces a lower impedance. It is difficult to provide sufficient stiffening effect and the thickness of the coating 3 1373545 Han t or the type of polyethylene (pvc) used in the processing of the laminating method, there is a problem that it is easy to cause environmental pollution, and the cleaning of the King equipment is not (4). " As disclosed in the tw. 425345 invention patent case, a method for fabricating a fiber-type geogrid. The method is to produce at least one high-fiber long fiber and at least a low-short short fiber. The composite spinning method forms a composite yarn, and the composite yarn is woven into a grid-like fabric, and the grid-like fabric is heated to make the low-point short fiber sleek and coat the high (four) long fiber, and then cool. After the method of making the surface with the cladding layer 1 method: You can omit the traditional steps of impregnation with polyvinyl chloride (pvc) or dipth. The table is low and environmentally friendly, _ X million For the knitting of twisted spinning, 'I ask for extremely high, if the weaving is not properly formed! This will cause the problem that the melted staple fiber cannot cover the entire geonet. In order to solve the problems existing in the above-mentioned method of stiffening grid, "People mentions: TW discloses the invention of the invention patent case No. 20_5032. The method mainly uses the electrostatic adsorption hand to let the electrostatic ion dusting. On the surface of the fiber mesh of the device, the surface of pp:w ^ ^ adsorbs the sprinkled polyethylene (pE) powder bile, and then the polyethylene fiber web is adhered to the surface to be baked, so that the adhered polyethylene powder is melted into The polyethylene layer coated with the mesh body is prepared by cold setting, and is made into a τ. 1 grid with high structural strength. However, the manufacturing method of the road disclosed in this case must use ions to produce Bawangyi and ion ions. There are problems such as high equipment cost and many long-term processes. [Inventive content] In order to solve the existing high-strength stiffening grid, the method is related to the high cost of manufacturing equipment or manufacturing. High difficulty and other problems, Shiji The main purpose of the invention is to manufacture high-strength processing equipment in 4 ways, to quickly feed the fiber mesh into a powder for death, and to use a direct powder adhesion and baking Net method In order to achieve the use of simple to create a stiffening grid with high structural strength. To provide a high-strength stiffening The technical means used in the invention is based on the method of the grid's steps include: Powder attachment: will have a preset mesh The size of I is set, the powder is attached to the surface of the fiber mesh body for baking, and the surface is adhered with powder for baking 'to make the warp-wound, weft yarn-coating layer attached to the fiber mesh net body; The powder of the body is fed into the surface of a baking device body and melted to cover the surface of the bundle of fibers and the yarn to form a cooling shape: a baking step is formed on the surface to form a coating layer on the surface. A stiffening grid is shaped by means of cooling; the finished product is fed by a stiffening grid shaped by a cooling setting step, which is the finished product of the stiffening grid. The method of preparation, wherein the baking temperature of the baking step It is set in the temperature range of 〇〇C~1 80°c, and is 1 3〇.匚 is the best. The method of the month 'J described, the powder particle size is in the 4 76 coffee ~ 〇〇 37 The scope of the paragraph, and the best as 〇·25. The fiber web system is a fiber of polyester (PE butyl), polypropylene (PP), high density polyethylene (HDPE), nylon (NYLON), polyvinyl alcohol (P VA) or polyethylene (PVC). The yarn is woven and made of polyester (PET). The preparation method of the powder is made of polypropylene (pp), polyethylene (household), nylon (1\|丫1_0). Q), polyvinyl chloride (household \/〇), polyacetate 1373545 (PVA), epoxy resin (ΕΡ〇χγ) cation) or a mixture of methods, such as poly:: ethion, VA) or poly The series is made of polyethylene (PE) plus fire retardant, and (PP) plus polyethylene (pE) or I vinyl hydrazine has been the best. The above method, 10% of the heavy mesh body of the coated layer In the range of ~500%, Lille is 80 〇/ for the fiber (10). For the best. In the above-mentioned manufacturing method, the powder adhering step utilizes the heavy denier of the powder to adhere the powder falling powder in a self-weight manner. The surface of the upper side of the reduced-dimensional mesh body The above-mentioned manufacturing method includes two baking steps. The two-person powder adhering step and a two-step step are performed by applying a gumming step into a glue tank to allow the fiber to be prepared as described above, wherein the powder is attached to the powder step. The surface of the fiber mesh body of the preset mesh size is adhered to the surface of the mesh body. In the above-mentioned method, the powder adhering step is characterized in that the powder is adhered to the surface of the fibrous web by using a viscose.
本發明所提供高強度加勁格網之製法,可以獲得的優 點及功效增進包括: 設備成本低:本發明直接以自重方式或黏著劑將聚 乙稀粉體灑布附著於纖維網體的表面,並經過烘烤及冷卻 定型等步驟,印可製造出具高結構強度的加勁格網,I發 月的整個製造流程簡單快速’並且無須使用昂貴的生產設 備’深具經濟效益。 2.生產速度快且符合環保要求:本發明直接以呈乾燥 形態的聚乙烯粉體附著於纖維網體的表面,可以有效縮短 供烤熔融聚乙烯粉體而形成包覆膠層的時間,能夠有效地 6 ^/3545 温度生2逮度’並且乾粉狀聚乙稀粉體所需的供烤 _ - 4耗的電能較少,在烘烤過程不會 >谷到之揮發,.号a 生有機性 禪發巧染,充分符合環保節能的要求。 3‘提高加勁袼網的結構強度··本 烤熔融而形成包覆膠層之加熱時間短、加= ^少對經向紗束、緯向紗束及交織點之組織破二: 達到提尚加勁格網之結構強度及加勁效能。 ° 【實施方式】 為能绊細瞭解本發明的技術特徵及實用功效,並可依 照說明書的内容來實施,兹進—步以如圖式所示的較佳實、 施例,詳細說明如后: Λ 本發明所提供之高強度加勁格網之製法的第一較佳實 施制如第一圊所示,其製造流程大致係包括織造、粉體 附著、供烤及冷卻定型等步驟;其中: 織造:選用多組高強度的纖維紗線(1 〇)排列套設於紗 架(Α),並在調整張力後饋入編織機(Β)中進行經向紗束編 織及緯向紗束編織之編織作業,製作完成出如第二圖所示 ,以經向紗束(21)及緯向紗束(22)交織構成具預設網目大 小的纖維網體(20),並由編織機(Β)饋出;其中’有關於纖 維紗線(10)的材質可以選用聚酯(PET)、聚丙稀(ρρ)、高密 度聚乙烯(HDPE)、尼龍(NYLON)'聚乙烯醇(pva)及聚氯 乙烯(PVC)等高分子聚合物,本發明選用的纖維紗線(1 〇) 的材質以聚酯(PET)纖維為最佳; 第一次粉體附著:將具預設網目大小的纖維網體(2〇) 7 1373545 饋入:撒粉裝置(c),直接利用粉體的重量,以自重方式將 粉體落粉附著於纖維網體(2〇)朝上—側的表面其中於 體的粒徑範圍原則上為4.76_〇撕_,並且/可以小: 奈未_級’本發明選擇的粉體粒徑以〇2 ;粉體的材質可以選两聚丙綱4乙稀(PE)、尼龍 (3xv!'!^r(PVC)'^ χγ)' L㈣酸乙稀酿(EVA)及聚龍(ΡΕΤ)等高分 合物,或是這些材料的混合物方式 Λ 1夕J如聚丙烯(ρ ρ )力口妒 乙烯(ΡΕ)或是聚乙烯(ΡΕ)加 )力- 為最佳; 工4乙烯(ΡΕ)粉體 第一次烘烤:接著將表面 饋入-烘烤裝置(D)進行供烤作業,=纖維網體(2。) 著於纖維網體(20)表面的粉體予以過私中’將附 體(20)的經向紗束(21)、緯向紗束(^並^覆於纖維網 而形成-包覆膠層,當然部 汐束交織點的表面 内部而形成-體結構;其中,烘烤的溫…上:I: 赋,。。的溫度範圍進行,本二丨上… 1 30°C為最佳; 選用的供烤溫度以 -成Γ::Π:透過滚輪組的輸送及方向變化,將 元成弟一次粉體附著步驟及第— J又化將 _予以反向翻面,將加勁格網;:)=:的加勁格網 (C),第二次將粉體落粉 -入饋入—撒粉裝置 面; 者“勁格網_朝上—側的表 第二次烘烤:接著將表面附著 饋入一烘烤裝置(D)進行烘烤 有粉體的加勁格網(30) 業,將附著於加勁格網(30) 1373545 表面的粉體予以炫融而幻帝 而包覆於加勁格網(30)的表面,如第 三、四圖所示,並〜 一、弟—久步驟所形成的包覆膠層結合 一體結構的包覆膠層(31 ^ 曰(33),其中,包覆膠層(33)的重量比 大致上在纖維網體(2Q)的概〜_%的範圍内’並以包覆 •膠層(33)的重量比為纖維網體(2Q)的嶋為最佳; ^。卩疋5L將义過烘烤步驟而於經向紗束(31 )、緯向 紗束(32)及紗束父織點表面形成包覆膠層⑻)的加勁格網 (30),施以冷卻手段而定型,讓包覆膠層(33)對纖維網體 • (20)的包覆性保持在最佳狀態;本發明的冷卻定型手段, 基本上是採用自然風乾的方式,也可以選用冷卻效率更快 速的冷卻風扇或是表面壓花等機械輔助器具來執行冷卻定 型步驟; 成品:將經過冷卻定型步驟而定型的加勁格網(3〇)予 以饋出,即為本發明所完成的加勁格網(3〇)成品;本發明 對於所製成的加勁格網(30),可以將利用捲綑機予以捲收 ,或直接裁減成預定的長度進行包裝,本發明不作特定的 _ 限制。 請參閱第二至四圖所示,本發明執行前述各步驟的生 產速度大致上在每分鐘〇_5〜5公尺的範圍,並以每分鐘 1.2公尺為最佳,本發明的製造生產速度相當快,並且無 須使用昂責的生產設備,深具經濟效益。再者,本發明也 可以只進行一次的粉體附著步驟及烘烤步驟即可,雖然此 舉會使得加勁格網(30)兩側面的包覆膠層(33)的厚度有所 差異,但是尚不會影響到加勁格網(30)的高結構強度及加 勁效果。 1373545 如第三、四圖所示,本發明所製成的加勁格網(3…係 包括多數條呈縱、橫交織的經向紗束(31)及緯向紗束d) 而形成多數個預設大小的網目,於各經向紗束(3 ])、於。 紗束(32)及紗束交織點的表面包覆設有以聚乙烯(pE)等^ 料構成的包覆膠層(33),並且以本發明所製成的包覆膠層 (33)會填滿相鄰靠的紗束(3132)之間的間隙,讓包覆膠^ (33)的外表面大致形成平面形態。本發明有關於加勁^The invention provides a high-strength stiffening grid manufacturing method, and the advantages and power enhancements that can be obtained include: low equipment cost: the invention directly attaches the polyethylene powder to the surface of the fiber mesh body by self-weight or adhesive. After baking, cooling and shaping, the printing can produce a high-strength stiffening grid. The entire manufacturing process of I is simple and fast, and it does not require the use of expensive production equipment, which is economical. 2. The production speed is fast and meets the requirements of environmental protection: the invention directly attaches the polyethylene powder in a dry form to the surface of the fiber mesh body, and can effectively shorten the time for forming the coating rubber layer for baking the molten polyethylene powder, and can Effectively 6 ^ / 3545 temperature 2 catch ' and dry powdered polyethylene powder required for baking _ - 4 less power, not in the baking process > Valley to volatilize, . a raw organic zen hair dyed, fully meet the requirements of environmental protection and energy conservation. 3' Improve the structural strength of the stiffened mesh. · The heating time for forming the coated rubber layer after baking and melting is short, and the addition of ^ = less to the warp beam, the weft yarn bundle and the interlacing point are broken. The structural strength and stiffening efficiency of the stiffening grid. [Embodiment] In order to understand the technical features and practical effects of the present invention, and to implement the contents according to the contents of the specification, the following is a detailed description of the preferred embodiment shown in the following figure. Λ The first preferred embodiment of the method for manufacturing the high-strength stiffening grid provided by the present invention is as shown in the first section, and the manufacturing process thereof generally comprises the steps of weaving, powder adhering, baking and cooling setting; wherein: Weaving: multiple sets of high-strength fiber yarns (1 〇) are arranged on the creel (Α), and after adjusting the tension, feed into the knitting machine (Β) for warp yarn weaving and weft yarn weaving. The knitting operation is completed as shown in the second figure, and the warp yarn bundle (21) and the weft yarn bundle (22) are interlaced to form a fiber mesh body (20) having a predetermined mesh size, and the knitting machine ( Β)Feed out; Among them, the material of the fiber yarn (10) can be polyester (PET), polypropylene (ρρ), high density polyethylene (HDPE), nylon (NYLON) 'polyvinyl alcohol (pva) And a high molecular polymer such as polyvinyl chloride (PVC), the fiber yarn selected in the present invention ( 1 〇) The material is best made of polyester (PET) fiber; the first powder adhesion: the fiber mesh (2〇) 7 1373545 with the preset mesh size is fed: dusting device (c), directly By using the weight of the powder, the powder falling powder is attached to the surface of the fiber web (2〇) upwards by its own weight, wherein the particle size range of the body is in principle 4.76_〇 tearing_, and / can be small:奈未_级' The powder size selected by the present invention is 〇2; the material of the powder can be selected from two kinds of propylene (PE), nylon (3xv! '!^r(PVC)'^ χ γ)' L (tetra) acid High-blends such as EVA and Julong, or a mixture of these materials, such as polypropylene (ρ ρ ), ethylene (ΡΕ) or polyethylene (ΡΕ) Add) force - for the best; work 4 ethylene (ΡΕ) powder for the first baking: then the surface feed-bake device (D) for the baking operation, = fiber mesh (2.) on the fiber The powder on the surface of the net body (20) is subjected to a private process of 'the warp yarn bundle (21) of the attached body (20) and the weft yarn bundle (which is formed by covering the fiber web to form a coating layer, of course Formed inside the surface of the interlaced point - Body structure; among them, the temperature of baking...I: The temperature range of Fu:, is carried out, the second is on the top... 1 30 °C is the best; the temperature for the baking is selected to be - into: Π: through The conveyance and direction change of the roller group will be the first step of the powder attachment process of Yuan Chengdi and the first step of the J-turning will be reversed, which will stiffen the grid;:) =: the stiffening grid (C), the second The powder is powdered into the feeding-spraying device surface; the second step of the "Jingge _ 上上-side table: then the surface is attached to a baking device (D) for baking In the case of a powdered stiffening grid (30), the powder adhering to the surface of the stiffening grid (30) 1373545 is fused to the surface of the stiffening grid (30), such as the third and fourth. As shown in the figure, and ~ a, the long-term step formed by the coating layer combined with the integral structure of the coating layer (31 ^ 曰 (33), wherein the weight ratio of the coating layer (33) is roughly The fiber mesh body (2Q) is within the range of ~_% and the weight ratio of the coating layer (33) is the optimum for the fiber mesh body (2Q);卩疋5L applies a stiffening grid (30) of the warp yarn bundle (31), the weft yarn bundle (32) and the surface of the yarn bundle father woven dot to form a coating layer (8). The cooling means is shaped to keep the coating property of the fiber covering layer (33) in an optimal state; the cooling setting method of the present invention is basically a natural air drying method, and may also be selected. Cooling fan with faster cooling efficiency or mechanical auxiliary device such as surface embossing to perform the cooling setting step; Finished product: feeding the stiffening grid (3〇) shaped by the cooling setting step, which is completed by the invention A stiffening grid (3〇) finished product; the invention can be used for the produced reinforcing grid (30), which can be wound up by a baler or directly cut into a predetermined length, and the invention does not make a specific limitation. . Referring to Figures 2 to 4, the production speed of the present invention for performing the foregoing steps is substantially in the range of 〇 5 to 5 meters per minute, and is preferably 1.2 meters per minute, and the manufacturing process of the present invention is produced. It is very fast and does not require the use of production equipment, which is economical. Furthermore, the present invention may be performed only once for the powder adhering step and the baking step, although this may cause the thickness of the clad layer (33) on both sides of the stiffening grid (30) to differ, but It does not affect the high structural strength and stiffening effect of the stiffening grid (30). 1373545 As shown in the third and fourth figures, the stiffening grid (3 of the present invention comprises a plurality of longitudinally and transversely interlaced warp yarn bundles (31) and weft yarn bundles d) to form a plurality of The mesh of the preset size is in each warp yarn bundle (3]). The surface of the yarn bundle (32) and the yarn bundle interlacing point is covered with a coating layer (33) composed of polyethylene (pE) and the like, and the coating layer (33) made by the invention is provided. The gap between the adjacent yarn bundles (3132) is filled, so that the outer surface of the coating (33) is substantially planar. The invention relates to stiffening ^
(30)的網目設置形態可以如第三圖或第五圖或第六圖所示 的各種實施形態,本發明不作特定的限制。 如第七圖所示為本發明所提供之高強度加勁格網之製 法的第二較佳實施例,#製造流程大致係包括織造、上膠 、粉體附著、烘烤及冷卻定型等步驟;其中: 力口織造:選用多組高強度的纖維紗線(1〇)排列套設於紗 架㈧’並在調整張力後饋入編織機(B)中進行經向紗束編 織及緯向紗束編織之編織作t ’製作完成出如第二圖所示 ’以經向紗束(21)及緯向紗束(22)交織構成具預設網目大 小的纖維網體(20),並由編織機(B)饋出; 、/'預設網目大小的纖維網體(20)饋入一膠 讓纖維網體(20)的表面附著有㈣,藉以提高粉 附者步鉍的粉體附著效果: 粉體附菩.從—_j_、 ,疋成上膠步輝的纖維網體(20)饋入一主 物我置(C) ’利用粘膠 面; 切組枯結附者於纖維網體(20)的j 烘烤:接&肢± 烘烤:、面附著有粉體的纖维網體(20)饋A ” .)進行烘烤作業,在供烤的過程中,將附著於 10 1373545 維網體(2 Ο)表面的决八μ工 杨肢予以熔融,並包覆於纖維網體 的經向紗束(21)、嗜尚么丨、击] 4向^束(22)及紗束交織點的表面而 成一包覆膠層,當铁邱八h 田.、、、口P刀熔融的粉體會滲入纖維紗線 而形成一體結構; 1 冷部疋型:將經過烘烤步驟而於經向紗The mesh arrangement of (30) may be in various embodiments as shown in the third or fifth or sixth embodiment, and the present invention is not particularly limited. As shown in the seventh figure, a second preferred embodiment of the method for manufacturing a high-strength stiffening grid provided by the present invention, the manufacturing process generally comprises the steps of weaving, sizing, powder adhering, baking, and cooling setting; Among them: Likou weaving: multiple sets of high-strength fiber yarns (1〇) are arranged in the creel (8)' and fed into the knitting machine (B) after adjusting the tension for warp yarn weaving and weft yarns. The weaving of the bundle weave is finished as shown in the second figure, and the warp yarn bundle (21) and the weft yarn bundle (22) are interlaced to form a fiber mesh body (20) having a predetermined mesh size, and The braiding machine (B) feeds out; / / 'pre-mesh size of the fiber mesh body (20) feeds a glue to attach the surface of the fiber mesh body (20) (4), thereby improving the powder adhesion of the powder-attached step Effect: Powder attached to Bod. From -_j_, , 疋 into the rubber fiber mesh (20) feeding a main object I set (C) 'Using the adhesive surface; cutting the group attached to the fiber network J (b) of the body (20): joint & limbs ± baking: a fibrous web (20) with a powder attached to the surface is fed A".) baking operation, for baking In the process, the dams of the dams attached to the surface of the 10 1373545 mesh (2 Ο) are melted and coated on the warp yarn bundles (21) of the fiber mesh body. A coating layer is formed on the surface of the bundle (22) and the yarn bundle interlacing point, and the powder melted by the iron, the mouth, and the mouth P knife will penetrate into the fiber yarn to form an integral structure; Type: will pass the baking step and the warp yarn
紗束(32)及紗束;〇:钟科主π R , 乂為』表面形成包覆膠層(33)的加勁格網 (3 0 ),施以冷卻手與而々圳 ^ 又而疋型,讓包覆膠層(33)對纖維網體 (20)的包覆性保持在最佳狀態; 成…將座過冷卻定型步驟而定型的加勁格網(30)予 以饋出’即為本發明所完成的加勁格網(3〇)成品。 你以上所述’僅是本發明的較佳實施例,並非對本發明 者任㈣式上的限制,任何所屬技術領域中具有通常知識 f,右在不脫離本發明讲担 Η所&技術方案的範圍内’利用本發 月戶斤.揭示技術内容所作屮a加a * 、, 乍出局。15更動或修飾的等效實施例, 1且未脱離本發明的枯彳片^ 發月叫方案内容,均仍屬於本發明技術 々茱的辄圍内。 【圖式簡單說明】 !一圖係本發明第-較佳實施例之製造流程示意圖。 圖 的加勁格網第一實施例之結構 =一圖係本發明所採用的纖維網體之結構示意 第三圖係本發明所製成 示意圖。 第四圖係本發明所舉』+ 意圖 所i成的加勁格網之局部結構剖面示 構 第五圖係本發明所製成的加勁格網第二實施例之結 11 1373545 示意圖。 第六圖係本發明所製成的加勁格網第三實施例之結構 示意圖。 第七圖係本發明第二較佳實施例之製造流程示意圖。 【主要元件符號說明】 (10)纖維紗線 (20)纖維網體 (22)緯向紗束 (30)加勁格網 (32)緯向紗束 (A)紗架 (C)撒粉裝置 (E)膠液槽 (2 1)經向紗束 (31)經向紗束 (33)包覆膠層 (B)編織機 、 (D)烘烤裝置Yarn bundle (32) and yarn bundle; 〇: main π R of the clock family, 加 is a stiffening grid (30) that forms a coating layer (33) on the surface, and is applied to cool the hand and the ^zhen ^ Type, so that the coating layer (33) maintains the coating property of the fiber mesh body (20) in an optimal state; the stiffening grid (30) which is shaped by the cooling and setting step is fed out" The finished product of the stiffening grid (3〇) completed by the invention. The above description is merely a preferred embodiment of the present invention, and is not intended to be a limitation of the present invention. Any of the technical fields in the art may be used without departing from the scope of the present invention. Within the scope of 'using this month's household jin. Reveal the technical content made 屮 a plus a *,, 乍 out. The equivalent embodiment of the modification or modification of the present invention, 1 and without departing from the contents of the dry film of the present invention, are still within the scope of the technique of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the manufacturing process of the first preferred embodiment of the present invention. The structure of the first embodiment of the stiffening grid of the drawing is shown in Fig. 1. Fig. 3 is a schematic view showing the structure of the fibrous web used in the present invention. The fourth drawing is a schematic view of a partial structure of a stiffening grid formed by the present invention. The fifth drawing is a schematic view of a knot 11 1373545 of a second embodiment of the stiffening grid made by the present invention. Fig. 6 is a schematic view showing the structure of a third embodiment of the stiffening grid produced by the present invention. Figure 7 is a schematic view showing the manufacturing process of the second preferred embodiment of the present invention. [Description of main component symbols] (10) Fiber yarn (20) Fiber mesh body (22) Weft yarn bundle (30) Stiffening grid (32) Weft yarn bundle (A) Creel (C) dusting device ( E) glue tank (2 1) warp yarn bundle (31) warp yarn bundle (33) coated with rubber layer (B) braiding machine, (D) baking device
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