1299482 九、發明說明: 【發明所屬之技術領域】 本發明係關於非破壞式標籤結構及製法,尤指一種於標籤設均勻 或非均勻,且隨意分布之凸紋或凹紋或凸凹紋,將上、下疊置之標籤 以空氣區隔,以去除標籤靜電效應所產生之互相粘著問題,方便自動 化設備進行單張吸取運作。 【先前技術】 •,標籤。該第-種習知之模内成形甩標籤,係在表面經印刷之熱塑性 樹脂基材層膜⑴的背面上,設置融點比該膜之樹脂材料之融點低之 2封性樹脂層(Π) ’且在熱封性樹脂層上施加每2 54公分5〜25條之 洚凸加工,其中該浮凸加工之谷部之深度為卜8_(微米),且侣熱 封性樹脂層厚度的1/3以上。其係以熱封性樹脂層於標藏後表面進行 ’該浮凸加工之目的乃是為了可以產生較為理想之模内成行 、、’狀態,對於上下疊合標籤,因為標籤材㈣素所產生之靜電,造 知目如之模内成形標籤,如台灣專利公告第290674號:模内成形1299482 IX. Description of the Invention: [Technical Field] The present invention relates to a non-destructive label structure and method, and more particularly to a embossed or concave or convex-concave pattern which is uniformly or non-uniformly disposed and randomly distributed. The upper and lower stacked labels are separated by air to remove the mutual adhesion problems caused by the electrostatic effects of the labels, and facilitate the single-drawing operation of the automated equipment. [Prior Art] •, label. The first in-mold forming enamel label of the first type is a two-sealing resin layer having a melting point lower than a melting point of the resin material of the film on the back surface of the surface of the printed thermoplastic resin substrate film (1). And applying a 5 to 25 embossing process every 2 54 cm on the heat-sealable resin layer, wherein the embossed grain has a depth of 8 Å (micrometers) and a thickness of the heat-sealable resin layer More than 1/3. The purpose of the embossing process is to use a heat-sealable resin layer on the surface after the labeling, in order to produce a desired in-mold, in-line state, for the upper and lower superimposed labels, because the label material (four) is produced. Static electricity, making the shape of the in-mold forming label, such as Taiwan Patent Notice No. 290674: In-mold forming
無法為自動化機器順利進行單張吸取之問題 又如第一圖所示為第二種習知之標籤, 工有極細孔,藉以要消除標籤之靜電問題。Unable to smoothly carry out the problem of single-drawing for automated machines. As shown in the first figure, the second-known label has a very fine hole, so as to eliminate the static problem of the label.
,該習知之標籤係於標籤加 。然而確實無法真正解決標The label of this custom is attached to the label. However, it is really impossible to really solve the problem.
、研究與製造 乃發明本案。 為" 1 — · 經驗,Research and manufacturing are the invention of this case. For " 1 — · experience,
【發明π答J 本發明之目的,乃在提供一 貝製成之非破壞式標籤,該種3 疋/、一種可以由任:何適合模内成型之標 該種非破壞式顧具有防止標籤之靜 -標籤材 靜電效 1299482 應,以配合自動化機械設備之運作,使得機械運作更順暢及成品品質 更優良之非破壞式標藏者。 本發明之特點有·· 、1 ·本發明之非破壞式標籤結構及製法,該非破壞式標藏設均句 或非均勻且隨意分布之凸紋、凹紋或凹凸紋,凸紋、凹紋或凹凸紋可 以為任,形狀,且不貫穿標籤,以並利用前述凸紋、凹紋或凹凸纹將 士、下$置之標籤以空氣區隔,以去除標籤靜電效應所產生之互相枯 著問題,方便自動化設備進行單張吸取運作。 、2 ·本發明之非破壞式標籤結構及製法,其中該非破壞式標籤之 製法,乃利職輪解麵籤或献標籤等進行滾壓加卫或壓板對單 張標籤或捲式標籤等進行加壓之加工方式製成。 ,3本發明之非破壞式標籤結構及製法,其中該非破壞式標籤之 衣法乃對單張;^籤或捲式標籤之上面、下面、上及下面同時或先後 等以滾輪滾壓加1或以壓板等加工方式製成凸紋、凹紋或凹凸纹。 【實施方式】 如此,為使貴審查員可充份了解本發明,茲依附圖弍解說如下: 如圖二〜十卿,為本發料張之非破壞式標紅各獅狀之實施 例’第二〜十圖僅提供數種較為常狀標籤形狀,實際上本發明可以 運用意形狀之標籤。及如第九®所示為本發明之捲式標籤,其中 捲式I籤所代表者’乃該標籤尚未被加工成所需之勸賴用形狀。 t不論為單張式標籤或捲式標籤,且賴不論贿獅狀出現,及 論以何種材f製成;或是由複數層結合而成者,均為本發明之 :、圍 非破壞式標籤,包含: 本體1,本體1設均勻或非均勻,且為隨意分布或整體分布或部 1299482 :分部之凸紋、凹紋或凸凹紋i Q (參第三〜九圖),凸紋、凹紋或 么凹紋係對賊之各種方向倾察後之視覺,由正面觀之可能是凸 紋或凸凹紋’凸紋、凹紋或凸凹紋丄Q可為任意形狀,如圓形 同^直條紋或雜赚之條紋或謂㈣^任意之幾何卿紋或文字或 等,最重要者為該凸紋、凹紋或凸凹紋i Q並不貫穿該標藏本體 凸纹、凹紋或凸凹紋1 Q將於標籤之本體丨之上、下表面產生單 向凸或凹狀(參第十二圖或第十四圖)或雙向之凹凸狀(參第十六圖), 如此當為數衫之標駐㈣合時,前述凸紋、贱或凸凹紋丄 〇可=將上、下疊置之標籤以空氣區隔(參第三圖),以使相鄰之上 下標籤不會整面互相貼合’―來減少貼合面積,二來糊前述之空氣 :區隔第三圖)可以去除標籤材質本身所具有之靜電效應,以使相 沾互相豐合之上、下標制之靜賴題被絲,上、下標籤間不會互 相枯著,方便自動化設備進行單張吸取運作。再者,本發明之標^與 塑谬品-體成型過程中’經由翻成型過程中所具有之高溫加執及高 壓加壓之結果,將使該標籤喊原來之平整狀態,而與歸製品之間 產生極為緊密之結合狀態,完全看*絲絲之故、凹紋或凸凹紋 (參第十九圖),更增加本發明之實用價值。 又本發明之非破壞式標籤之製法,在此列舉二種較為方便之加工 方式,如第十-〜十七圖所示為滾壓、(植壓)加工方式,本發明乃 設二滾輪2、3,其中-滾輪2表面設有凸紋20,另-滾輪3表面 則不設凸紋(參第十-及十二圖)。或另一滚輪3表面設有凸紋3 〇, -滾輪2表_不設凸紋(參第十三及十四圖)。以對單張標藏或捲 式標籤等進行滾壓(或健)凸紋、凹紋或凸凹紋加工;或於二滾輪 2、3表面均設有凸紋2 0、3 0 (參第十五及十六圖)。或如第無 十七圖所示於滾輪2表面設有凸纹2 Q,及滾輪2下方設底墊4,該 1299482 底墊4以軟性材質製成較理想,如此就可以滾壓( — V4囅壓)方式對標 籤上、下表面進行凸紋、凹紋或凸凹紋加工,以製成有凸紋 *二、 凸凹紋之標籤。若如第十八圖所示則為加壓方式為之,該=加 — 乃設任意形狀之壓板5,壓板5設凸紋5 0,及壓板5下方再設有底 墊51,底墊5 I以軟性材質製成較理想,當壓板5對對單張標籤或 捲式標籤等進行加壓加工時,就可製成具有凸紋、凹紋或凸凹紋之標 籤。 如此,本發明之非破壞式標籤確實可以充分解決標籤之靜電問 0 通’對於模内成型標籤之自動化輸送更快速準確,確保模内成型標籤 製品品質之穩定性,為本案之組成。 【圖式簡單說明】 第一圖:習知之貫穿式標籤之俯視圖。 第二圖:本發明之標籤實施例(一)俯視圖。 第三圖:本發明標籤互相疊合狀之側視放大圖。 第四圖:本發明標籤實施例(二)之俯視圖。 第五圖:本發明標籤實施例(三)之俯視圖。 •第六圖··本發明標籤實施例(四)之俯視圖。 第七圖:本發明標籤實施例(五)之俯視圖。 第八圖:本發明標籤實施例(六)之俯視圖。 第九圖:本發明標籤實施例(七)之俯視圖。 第十圖:本發明標籤實施例(八)之俯視圖。 ’ 第十一圖:本發明製法運用例(一)之側視圖。 第十二圖··如第十一圖之之部分放大視圖。 第十三圖:本發明製法運用例(二)之側視圖。 第十四圖:如第十三圖之之部分放大視圖。 1299482 第十五圖:本發明製法運用例(三)之側視圖。 第十六圖:如第十五圖之之部分放大視圖。 第十七圖:本發明製法運用例(四)之側視圖。 第十八圖··本發明製法運用例(五)之侧視圖。 第十九圖:本發明製成品之視圖。 【主要元件符號說明】 本體1 凸紋、凹紋或凸凹紋10 滾輪2、3 凸紋2 0、3 0[Invention π AJ The purpose of the present invention is to provide a non-destructive label made of a shell, which is 3 疋 /, one can be any: what is suitable for in-mold molding, the non-destructive type has a label prevention The static-label material electrostatic effect 1299482 should be used in conjunction with the operation of automated mechanical equipment to make the mechanical operation smoother and the quality of the finished product is better than non-destructive collectors. The invention has the features of the non-destructive label structure and the manufacturing method of the present invention. The non-destructive label is provided with uniform or non-uniform and randomly distributed ridges, indentations or embossing, embossing and embossing. Or the embossing pattern may be any shape, and does not penetrate the label, and utilizes the aforementioned embossing, concave or embossing, and the label of the underlying and the embossed is separated by air to remove the mutual dry problem caused by the electrostatic effect of the label. It is convenient for automated equipment to perform single-sheet suction operation. 2) The non-destructive label structure and the manufacturing method of the present invention, wherein the method for manufacturing the non-destructive label is performed by rolling a guard or a label for a single label or a roll label. Pressurized processing method. 3, the non-destructive label structure and the manufacturing method of the invention, wherein the non-destructive label coating method is for a single sheet; the top, bottom, top and bottom of the label or roll label are simultaneously or sequentially rolled by a roller and added 1 Or use a platen or the like to form a ridge, a concave or a embossing. [Embodiment] In this way, in order to enable the examiner to fully understand the present invention, the following figures are as follows: Figure 2~10 Qing, the non-destructive red lion-like embodiment of the hair piece is the second The ~10 figure only provides several relatively regular label shapes, and in fact the present invention can use the label of the intended shape. And as shown in the ninth®, the roll label of the present invention, wherein the representative of the roll type I sign is that the label has not been processed into the desired shape for persuasion. t Whether it is a single-sheet label or a roll label, and it does not matter whether it is a lion or a lion, or a material f, or a combination of multiple layers, is the invention: The label includes: the body 1, the body 1 is uniformly or non-uniform, and is randomly distributed or integrally distributed or part 1929482: the embossing, concave or convex indentation i Q (refer to the third to the ninth figure), convex The pattern of the grain, the concave pattern, or the concave pattern is observed in various directions of the thief. The front view may be a embossed or convex-concave pattern. The embossed, concave or convex-concave 丄Q may be any shape, such as a circle. With the straight stripes or miscellaneous earning stripes or the (four) ^ arbitrary geometric embossing or text or the like, the most important is that the embossing, concave or convex indentation i Q does not penetrate the embossed body convex, concave Or the convex and concave 1 Q will produce a unidirectional convex or concave shape (refer to the twelfth or fourteenth figure) or a two-way concave shape (refer to the sixteenth figure) above the body 丨 of the label, and thus For the number of shirts (4), the aforementioned embossing, 贱 or embossing can be used to separate the upper and lower labels by air (see the third ), so that the adjacent upper and lower labels do not fit together to each other 'to reduce the fit area, and the other to paste the air: the third picture) can remove the electrostatic effect of the label material itself, so that The two sides of each other are rich in each other, and the subscript system is swayed by the silk. The upper and lower labels are not dry with each other, which is convenient for the automation equipment to perform the single sheet suction operation. Furthermore, the result of the high temperature addition and high pressure pressurization in the molding process of the present invention and the plastic molding process will cause the label to be called the original flat state, and the returned product. There is a very close joint state between them, and the appearance of the wire, the concave pattern or the convex and concave pattern (refer to the nineteenth figure) is completely increased, and the practical value of the invention is further increased. In addition, the method for manufacturing the non-destructive label of the present invention is exemplified by two convenient processing methods, such as the tenth-th-17th drawing, which is a rolling and (physing) processing method, and the present invention is provided with two rollers 2 3, wherein the surface of the roller 2 is provided with a ridge 20, and the surface of the roller-roller 3 is not provided with a ridge (refer to the tenth-th-thth and twelveth drawings). Or the other roller 3 surface is provided with a ridge 3 〇, - the roller 2 table _ no embossing (refer to the thirteenth and fourteenth drawings). Rolling (or strong) embossing, concave or convex and concave processing on a single label or a roll label; or embossing 2 0, 3 0 on the surfaces of the two rollers 2 and 3 (refer to the tenth Five and sixteen)). Or, as shown in the seventeenth figure, the ridge 2 Q is provided on the surface of the roller 2, and the bottom pad 4 is provided under the roller 2. The 1929482 bottom pad 4 is preferably made of a soft material, so that it can be rolled (-V4 The pressing method is used to process the upper and lower surfaces of the label by embossing, concave or convex and concave printing to form a label having a embossed*2 and a convex-concave pattern. If the pressure is as shown in the eighteenth figure, the = plus - is set to the pressure plate 5 of any shape, the pressure plate 5 is provided with the relief 50, and the bottom plate 51 is provided below the pressure plate 5, the bottom pad 5 I is preferably made of a soft material, and when the press plate 5 pressurizes a single label or a roll label, it can be made into a label having a ridge, a concave or a convex or concave. Thus, the non-destructive label of the present invention can fully solve the electrostatic problem of the label. The automatic delivery of the in-mold label is faster and more accurate, and the stability of the quality of the in-mold label product is ensured. [Simple description of the diagram] The first picture: a top view of a conventional through label. Second Figure: A top view of a label embodiment (a) of the present invention. Fig. 3 is a side elevational view showing the labels of the present invention superimposed on each other. Figure 4: Top view of the label embodiment (II) of the present invention. Figure 5: Top view of the label embodiment (3) of the present invention. • Fig. 6 is a plan view of the label embodiment (4) of the present invention. Figure 7 is a plan view of the label embodiment (V) of the present invention. Figure 8 is a plan view of the label embodiment (vi) of the present invention. Figure 9 is a plan view of the label embodiment (7) of the present invention. Figure 11 is a plan view of the label embodiment (VIII) of the present invention. </ RTI> Figure 11: Side view of the application example (1) of the manufacturing method of the present invention. Twelfth image · A partial enlarged view of the eleventh figure. Thirteenth Diagram: Side view of the application example (2) of the manufacturing method of the present invention. Figure 14: A partial enlarged view of the thirteenth figure. 1299482 Fig. 15: Side view of the application example (3) of the manufacturing method of the present invention. Figure 16: A partial enlarged view of the fifteenth figure. Figure 17: Side view of the application example (4) of the manufacturing method of the present invention. Fig. 18 is a side view of the application example (5) of the method of the present invention. Figure 19: A view of the finished product of the present invention. [Description of main component symbols] Body 1 embossed, concave or convex and concave 10 Roller 2, 3 embossing 2 0, 3 0
底墊4 壓板5 凸紋5 0 底墊5 1Bottom pad 4 platen 5 embossing 5 0 bottom pad 5 1