1317334 九、發明說明: 【發明所屬之技術領域】 本發明係有關一種無塵式包裝帶,特別是指一種混合 複合材料、抗靜電材料和添加物為原料製作不易生成粉屑 塵垢和改善靜電效應之包裝帶者。 【先前技術】 一般所用之包裝帶係以p p作為主要原料,在壓出高 溫之帶狀物後,經過降溫冷卻、加熱拉伸、再次冷卻、壓 花以及捲收等步驟製作,而廣用於各類物品之捆綁包紮。 P P原料經前述製造方法,因冷、熱過程與拉伸程序 等步驟,使製成之包裝帶帶體本身材料分子鏈結性不佳, 在捆包機進行待捆物之捆綁包紮時,容易生成粉末塵而散 發於作業環境中,對於電子封裝零配件或其它精密儀器設 備組件等捆包作業,容易因塵垢而嚴重影響高無塵要求之 零組件良率。 故而,前述包裝帶有加以改善之必要。 【發明内容】 本發明之主要目的,在於解決上述的問題而提供一種 無塵式包裝帶,係以複合材料和抗靜電材料及添加物,依 比例製作不易致生粉末塵之包裝帶者。 為達成前述之目的,本發明研創之無塵式包裝帶,係 以複合材料和抗靜電材料以及添加物為原料,以熱融壓出 成為一帶狀物,再經由冷卻、拉伸、壓花、先期收縮等流 程,製作出一種不易致生粉末塵之包裝帶者。 1317334 本發明之上述及其他目的與優點,不難從下述所選用 實施例之詳細說明與附圖中,獲得深入了解。 當然,本發明在某些另件上,或另件之安排上容許有 所不同,但所選用之實施例,則於本說明書中,予以詳細 說明,並於附圖中展示其構造。 【實施方式】 以下敘述者為本發明所選用之實施例,僅供說明之用 ,在專利申請上並不受此種構成所限制。 本實施例之無塵式包裝帶,其原料係利用複合材料和 抗靜電材料以及添加物混合融合為一,該複合材料與該抗 靜電材料之比例約為6/3,餘為該添加物。 就整體之混合比例來說,該複合材料約佔該原料的6 0 %,該抗靜電材料約佔該原料的3 0 %,剩餘約1 0 % 為該添加物。 該複合材料包括有P E、P P和橡膠。上述材料整體 混合比例,P E約佔該複合材料之1 8 %,P P約佔該複 合材料之3 6 %,而橡膠約佔該複合材料的6 %,且P E 、P P和橡膠可預先混煉為該複合材料。 至於該添加物可以包括發泡劑、色母、改質劑、偶合 劑等材料之中至少一種,或前述各劑材之部份或全部之混 合融合。其中,該發泡劑約佔該添加物之6 0 %,剩餘4 0%為混合前述之各劑材。依上述整體混合比例換算發泡 劑約佔該原料之6 %,混合之各劑材約佔該原料的4%。 前述原料得以經過下列流程製成本發明之無塵式包裝 1317334 帶,參閱第圖: a )壓出步驟1 :使該原料2經熱熔後以壓出技術( 譬如壓出器械設備)成為一帶狀物2 1。 b) —次冷卻步驟11:使該帶狀物導入於一水槽内 進行冷卻過程。 c) 一次拉伸步驟12:將該帶狀物通過二組輥輪間 所設置之加熱裝置,對該帶狀物加熱且拉伸;拉伸率約在 5〜8倍之範圍内。 d) 二次冷卻步驟1 3 :前述拉伸之該帶狀物,被導 引傳輸在一滾輪組間逐漸冷卻降溫。 e) 壓花步驟14:將該帶狀物導入一組壓花輥輪間 ,進行表面壓出紋路之作業而成型出包裝帶成品。f )預 期收縮步驟15:將該帶狀物通過另二組輥輪間設置之加 熱裝置,對該帶狀物加熱達到預期收縮效果。 g)三次冷卻步驟1 6 :前述拉伸之該帶狀物,被導 引通過冷水槽或氣流強制降溫冷卻。 h )三次碾壓步驟1 7 ··以滾輪碾壓帶狀物成最終預 期尺寸之包裝帶成品。 i )捲收步驟1 8 :利用一捲收器具或設備,使該包 裝帶成品捲繞成捆。 依前述原料2比例製成之包裝帶,具有下列優點: 1 )待捆物進行捆綁包紮時,不易生成粉塵,對於電 子零配件或其它精密儀器設備組件等捆包作業。 2)捆包期間,包裝帶之靜電效應獲得改善,使電子 1317334 其謂絲11設触件轉㈣1度,縣受到靜 以上所述實施例之揭示係用以說明本發明,並非用以 =本發明,故舉凡數值之變更或等效元件之置換仍應隸 屬本發明之範脅。 … 由以上詳細說明,可使熟知本項技藝者明瞭本發明的 =可達成前述目的,實已符合專利法之規定,爰提出 甲請。 【圖式簡單說明】 第1圖係本發明之製作流程示意圖 【主要元件符號說明】 壓出1 一次拉伸12 壓花1 4 三次冷卻16 捲收1 8 一次冷卻11 ~~•次冷卻1 3 預期收縮1 5 'Ξ次碾壓1 7 原料21317334 IX. Description of the invention: [Technical field of the invention] The present invention relates to a dust-free packaging tape, in particular to a mixed composite material, an antistatic material and an additive, which are difficult to generate dust dust and improve electrostatic effect. The packaging belt. [Prior Art] Generally, the packaging tape used is made of pp as the main raw material, and after being extruded from a high-temperature ribbon, it is produced by steps of cooling, cooling, stretching, re-cooling, embossing, and winding. Bundling of all kinds of items. The PP raw material is subjected to the aforementioned manufacturing method, and the molecular properties of the material of the packaged tape itself are not good due to the steps of cold, hot process and stretching process, and are easily generated when the baling machine is bundled and bundled. Powder dust is emitted in the working environment. For the packaging work of electronic package parts or other precision instruments and equipment components, it is easy to seriously affect the component yield of high dust-free requirements due to dust. Therefore, the aforementioned package is required to be improved. SUMMARY OF THE INVENTION The main object of the present invention is to solve the above problems and to provide a dust-free packaging tape, which is a composite material, an antistatic material and an additive, and a packaging tape which is not easy to generate powder dust. In order to achieve the foregoing objectives, the dust-free packaging tape of the present invention is made of a composite material, an antistatic material and an additive, and is extruded into a ribbon by hot melt, and then cooled, stretched, and embossed. , the process of pre-contraction and other processes, to create a packaging tape that is not easy to produce powder dust. The above and other objects and advantages of the present invention will become more apparent from the detailed description of the preferred embodiments illustrated in the appended claims. Of course, the invention may be varied on certain components, or in the arrangement of the components, but the selected embodiments are described in detail in the specification and their construction is shown in the drawings. [Embodiment] The following description of the embodiments used in the present invention is for illustrative purposes only and is not limited by the scope of the patent application. In the dust-free packaging tape of the embodiment, the raw material is mixed and fused by the composite material and the antistatic material and the additive, and the ratio of the composite material to the antistatic material is about 6/3, and the remainder is the additive. In terms of the overall mixing ratio, the composite material accounts for about 60% of the raw material, the antistatic material accounts for about 30% of the raw material, and about 10% of the remaining material is the additive. The composite material includes P E, P P and rubber. The overall mixing ratio of the above materials, PE accounts for about 18% of the composite material, PP accounts for about 36% of the composite material, and rubber accounts for about 6% of the composite material, and PE, PP and rubber can be pre-mixed into The composite material. The additive may include at least one of a foaming agent, a color masterbatch, a modifier, a coupling agent, and the like, or a mixture or a mixture of some or all of the foregoing. Wherein, the foaming agent accounts for about 60% of the additive, and the remaining 40% is a mixture of the above-mentioned respective materials. The foaming agent is about 6% of the raw material in terms of the above overall mixing ratio, and each of the mixed materials accounts for about 4% of the raw material. The foregoing raw materials can be made into the dust-free packaging 1317334 belt of the present invention by the following procedure, referring to the drawings: a) extrusion step 1: the raw material 2 is hot-melted and extruded to extrude technology (such as extrusion equipment) into a zone. 2 1 . b) - Secondary cooling step 11: The strip is introduced into a water bath for cooling. c) One-time stretching step 12: The belt is passed through a heating device disposed between the two sets of rolls, and the strip is heated and stretched; the stretch ratio is in the range of about 5 to 8 times. d) Secondary cooling step 13: The previously stretched ribbon is guided and transported to cool down and cool down between a group of rollers. e) Embossing step 14: The strip is introduced into a set of embossing rolls, and the surface is pressed out to form a finished strip. f) Pre-contraction step 15: The strip is passed through a heating device disposed between the other two sets of rolls to heat the strip to achieve the desired shrinkage effect. g) Three cooling steps 16. The previously stretched ribbon is directed to cool down by a cold water bath or air flow. h) Three rolling steps 1 7 · Roll the belt into a finished strip of the final expected size. i) Rewinding step 18: The packaged product is wound into a bundle using a retractor or equipment. The packaging tape made according to the ratio of the raw material 2 mentioned above has the following advantages: 1) When the bundle is bundled and bundled, dust is not easily generated, and the electronic components or other precision instruments and equipment components are bundled. 2) During the packing period, the electrostatic effect of the packaging tape is improved, so that the electron 1317334 is said to be connected to the wire 11 by four (4) degrees, and the county is exposed. The above description of the embodiment is used to illustrate the present invention, and is not used for the present invention. Modifications of the numerical values or substitutions of equivalent elements are still subject to the scope of the invention. From the above detailed description, those skilled in the art can understand that the present invention can achieve the above-mentioned objectives, and has already met the requirements of the Patent Law. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic diagram of the production process of the present invention [Description of main components] Pressing 1 Once stretching 12 Embossing 1 4 Cooling 16 Rolling 1 8 Cooling 11 ~~• Cooling 1 3 Expected shrinkage 1 5 'Ξ次压压1 7 Ingredients 2