| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Process for manufacturing labels and an arrangement for implementation of said process | US10516669 | 2003-05-28 | US20060118531A1 | 2006-06-08 | Claes-Goran Nilsson |
| The present invention relates to a process for the manufacturing of labels made of textile material and for dividing them from the ribbon form (3-3n) into individual examples. In accordance with the present invention, a ribbon (3-3n) of the intended labels produced in a loom (2) is caused to be fed directly into a cutting device (4). Said ribbon of labels (3-3n) in question is caused to be clamped during the cutting operation, and preferably a laser-cutting device (5) is caused to be conveyed across said ribbon (3-3n) of labels. The cut labels (1-1n; 1A-1nA . . . ) are so arranged as to be collected subsequently in a collecting position intended for this purpose. The invention also relates to an arrangement for the implementation of said process. | ||||||
| 162 | Label-seal manufacturing method and the resulting improved label-seal | US10938858 | 2004-09-09 | US20060051550A1 | 2006-03-09 | Jeffrey Arippol |
| A label-seal and improved label-seal manufacturing method, belonging to the field of labels and similar self-adhesives and that were developed to provide an optimized way to produce this label; such method comprises, essentially, the stages of: A)—Feeding the self-adhesive material tape formed: by a paper, plastic or similar (2) tape; rear adhesive layer (4); and liner (5); B)—First printing performed in the lower region (2)′ of tape (2); C)—Cutting and extraction of the upper tape (2)″ part made of paper, plastic or similar (2) that is not used; D)—Delamination of the self-adhesive material (2)′-(4)-(5) to separate liner (5) of the lower tape (2)′ region; E)—Mounting of the heat-shrinkable plastic film (11) in the lower tape (2)′ region, gluing their overlapped edges; F)—Liner relamination; G) Eventual, printing over the plastic film (11);—H)—Cutting for the formation of label-seals and rewinding of the “skeleton”; and I)—Winding of the label-seal tapes (1)-(10)-(5); label-seal (1)-(10) remains with the plastic film gluing edge (11) under the label body edge (2) and glued to it through its own adhesive (4) of the later and within these solutions of the method and label being foreseen varieties for the label-seal (1)-(10) production with upper film (11) or film upper (11) and lower (11)′ and in such a way that these films are glued under the label (1) with their own rear adhesive (4) or over the label (1) with front glue fillets (100), (100)′ appropriate for this gluing. | ||||||
| 163 | Process for manufacturing multi-ply labels | US10313693 | 2002-12-06 | US06761792B2 | 2004-07-13 | Joseph D. Franko, Sr. |
| An in-line, single pass, multi- or single-web process for producing resealable multi-ply labels is disclosed which includes automation of an inclusion of intermediate label plies having dimensions different from final individual label dimensions. | ||||||
| 164 | PROCESS FOR MANUFACTURING MULTI-PLY LABELS | US10313693 | 2002-12-06 | US20040108055A1 | 2004-06-10 | Joseph D. Franko SR. |
| An in-line, single pass, multi- or single-web process for producing resealable multi-ply labels is disclosed which includes automation of an inclusion of intermediate label plies having dimensions different from final individual label dimensions. | ||||||
| 165 | Adhesive hang tab | US09432267 | 1999-11-02 | US06517038B1 | 2003-02-11 | Carl Pomerantz |
| The present invention is related to n adhesive hang tab for suspension of an object to a support, comprising a main body having two opposite surfaces, which is divided into a non-coated upper portion provided with an aperture adapted for secure suspension of the object onto the support and an adhesive lower portion provided with a pressure-sensitive coating. The adhesive portion is further provided with two legs extending laterally downwardly from the adhesive portion, those legs being also provided with the pressure-sensitive coating. Legs are forming a channel spaced between said legs. The present invention also includes a method of making an adhesive hang tabs, said method comprising applying a liner strip and an adhesive pressure-sensitive coating to designated areas of a tab substrate to form a composite tab substrate and die-cutting a plurality of hang tabs from composite tab substrate in a such manner that tabs are arranged on the substrate in at least two opposing interlocking rows and legs of hang tabs of one row are facing legs of hang tabs of the opposite row. Adjacent legs of two hang tabs of said row are accommodated within a channel formed between legs of one hang tab of the opposing row. | ||||||
| 166 | Automatic waste-area removal method and apparatus | US10094691 | 2002-03-11 | US20020124948A1 | 2002-09-12 | Steen B. Mikkelsen; Sergey Potebnya |
| Method and apparatus for removing at least one waste area of a face layer, which includes graphic or product area(s) and waste area(s), from a laminate composed of a face layer removably adhering to a backing layer, to leave at least one product area of the face layer in place on the backing layer, the method including: applying adhesive on portions of the waste area(s); temporarily adhering the laminate to a carrier surface using the adhesive; and separating the laminate from the carrier surface with the waste area(s) remaining on the carrier surface. One preferred embodiment of the invention includes a carrier web enabling continuous or near continuous operation. | ||||||
| 167 | Method for making labels | US909568 | 1997-08-12 | US5902440A | 1999-05-11 | Peter G. Jenkins |
| A method for making paper labels having a protective covering where a paper sheet, adhesively supported on a first release backing sheet, is first die cut to form an array of labels. A second release backing sheet is provided having adhesively attached thereto, by an adhesive, an array of transparent cover strips. The second release backing sheet is divided into first and second portions. The second release backing sheet is then placed on the die cut paper sheet where the second release backing sheet is between the cover strips and the labels. The first portion of the second release backing sheet is then removed from the cover strips to expose a portion of the cover strips, and the exposed portion of the cover strips are then adhered to corresponding portions of the labels using the adhesive. The second portion of the second release backing sheet is then removed from the cover strips to expose a remaining portion of the cover strips, and the remaining portion of the cover strips are then adhered to corresponding portions of the labels using the adhesive. During removal of the first portion of the second release backing sheet, the second portion of the second release backing sheet is secured with the die cut paper sheet. | ||||||
| 168 | Perforating and slitting die sheet, methods of constructing same and paper product produced therefrom | US862279 | 1997-05-23 | US5789050A | 1998-08-04 | Pierson S. Kang |
| A paper product has a first sheet with a pattern of spaced openings permitting separation into sections and a second sheet releasably attached to the first sheet with a pattern of continuous curvilinear openings dividing the sheet into sections and being aligned with the openings of the first sheet. A die sheet for a die for cutting material includes a die sheet surface with a die pattern extending outwardly from the die sheet surface. The die pattern has slitting sections providing curvilinear, continuous openings through a second sheet of the material and spaced perforating sections extending above the slitting sections providing a pattern of spaced openings in the first sheet adjacent to the openings through the second sheet. A first method of constructing a die sheet includes covering a die surface with a first, spaced pattern of a first photo-resist material and then covering the first pattern with a second, continuous pattern of a second photo-resist material. A chemical removes material from sections not covered by the second pattern and the second pattern is then removed. A chemical removes material from die surface sections not covered by the first pattern. A second method of constructing a die sheet includes covering sections of a die surface with a pattern of photo-resist material having alternating slitting segments and wider perforating segments. A chemical removes material from uncovered sections and completely undercuts the slitting segments to form slitting sections and undercuts the perforating segments to form higher extending perforating sections. | ||||||
| 169 | Process for the machining of stamping parts photochemically etched out of a carrier base, and stamping webs obtained therefrom | US671811 | 1996-06-25 | US5687622A | 1997-11-18 | Joergen Gerhardt |
| The invention relates to the machining of cutting (stamping) edges which are etched photochemically out of a carrier base and by means of which labels consisting of label material adhering releasably to a supporting web are to be cut (stamped) as a result of the rolling of the cutting edges of the label material, wherein the cutting edges are given a triangular cross-section having fluted sides by milling by means of a frustoconical milling cutter engaging the longitudinal sides of the cutting edges and rotating about its axis. The invention also relates to cutting edges obtained by the process. | ||||||
| 170 | Rotary cutting die | US124247 | 1993-09-20 | US5488889A | 1996-02-06 | Pierson S. Kang |
| A cutting die for cutting materials is provided. A die sheet having opposing front and back die sheet surfaces is provided. At least one cutting edge defining a die pattern is formed extending outwardly from a portion of the front sheet surface. A spacer abutment extending outwardly from a portion of the back surface of the die sheet is also provided. The spacer abutment is disposed in alignment with the cutting edge. A pressure surface is provided for applying the die sheet to the materials. An abutment surface of the spacer is abutted directly against the carrier surface in order to dispose the cutting edge a predetermined distance from the pressure surface. Cavities formed between adjacent abutments may be filled with an adhesive material in order to secure the cutting die to the pressure surface. The cutting die may be flexible and may be adhesively secured to a cylindrical die carrier. | ||||||
| 171 | Apparatus and method for manufacture of adhesive label | US310291 | 1989-02-13 | US4960482A | 1990-10-02 | John S. Crane; Dean A. Strauss |
| An apparatus and method for producing a label which includes the use of an infrared dryer operating at 1200.degree.-1500.degree. F. to cure the adhesive before the underlying ink is re-wetted and runs. | ||||||
| 172 | Pad forming method | US274988 | 1988-11-22 | US4883553A | 1989-11-28 | John R. David; Daniel P. Pohl |
| A method for forming pads of pressure sensitive adhesive coated sheets with similar discontinuities (e.g., printed indicia or openings) on the sheets substantially aligned. A strip of pressure sensitive adhesive coated material is helically wound around the periphery of a roller to form a roll comprising a multiplicity of overlying layers of the strip by rotating the roller about its axis to pull the strip along a predetermined path onto the roller. Discontinuities are formed on the strip along the predetermined path at locations that are progressively increasingly spaced apart to compensate for the increasing circumference of the roll and which result in at least one set of discontinuities being located along the periphery of the roller in substantial alignment radially outwardly of the roller; and pads containing such aligned discontinuities are then cut from the roll. | ||||||
| 173 | Method of manufacturing a tape having a series of surface-type fastener pieces | US884900 | 1986-07-14 | US4732631A | 1988-03-22 | Kozo Shimizu |
| A tape having a series of surface-type fastener pieces is manufactured by intermittently feeding a surface-type fastener tape blank composed of a release sheet of paper and a surface-type fastener of synthetic resin attached by an adhesive layer to the release sheet and comprising a base strip and a plurality of fastening elements, and fusing the surface-type fastener in a predetermined pattern by ultrasonic or high-frequency welding to produce gaps which define a series of surface-type fastener pieces on the release sheet. The release sheet with the series of surface-type fastener pieces attached thereto by the adhesive layer is then separated from a scrap composed of a surface-type fastener web from which the surface-type fastener pieces have been blanked out. Each of the surface-type fastener pieces is fused along its peripheral edge to prevent the fastening elements thereon from unraveling. | ||||||
| 174 | Combination laminator and separator | US90318 | 1979-11-01 | US4273606A | 1981-06-16 | Pasquale Trilli |
| A composite laminate sheet material consists of a metallic foil positioned on a congruent thick sheet of paper by means of an adhesive which can be heat cured. The composite laminate is directed via a series of rollers through a printer and a rotary die cutter where suitable geometrical sections are cut in the laminate. After the cutting operation, the sheet is directed to a series of rollers having their axes of rotation parallel to and beneath a main roller. One series of rollers directs the foil material to a first collection site, while another series of rollers directs the paper waste material to a second collection site. The rollers are so positioned that the foil material is directed to its site in a direction transverse to that of the waste material. The sections are automatically removed from the composite material unto a conveyor belt where they are directed to a heat tunnel to permanently affix the foil to the paper backing. | ||||||
| 175 | Label matrix stripping | US850236 | 1977-11-10 | US4150183A | 1979-04-17 | Charles F. Reed |
| A series of labels remain supported on a liner after a matrix of waste label material has been stripped from the liner. The adhesion of the matrix to the liner is weakened prior to stripping of the matrix by mechanically disturbing without severing, as by embossing, areas of the construction where the matrix overlies the liner. Areas where the leading ends of labels overlie the liner may also be similarly disturbed to make eventual peeling of the liner from the labels easier. In another aspect, the construction may be precrushed with a blunt die prior to die-cutting of the labels to eliminate "halo" effect upon stripping of the matrix. | ||||||
| 176 | Apparatus for manufacturing and wrapping labels | US782086 | 1977-03-28 | US4077185A | 1978-03-07 | Simon Bleich |
| Apparatus for manufacturing and wrapping labels comprises a table, feeding means which are intermittently operable to move a stack of sheets on said table in two directions that are at right angles to each other to blanking means comprising a blanking for severing a stack of blanks from the stack of sheets, whereafter labels can be punched out of the stack of blanks by means of a punching tool and when taken from a stack can be wrapped by wrapping means. The blanking knife of the blanking means is outwardly spaced from a punching plate and together with the latter is recessed in a portion of the table which succeeds the portion for guiding the stack of sheets. The blanking knife is moved against the stack of sheets from underneath. A blanking die and pressure plate and a guide for the material which has been blanked and punched are arranged one over the other and over the blanking knife. Said guide consists of a punching knife, which cooperates with the punching plate. | ||||||
| 177 | Label web and die making methods | US42836273 | 1973-12-26 | US3920122A | 1975-11-18 | KOEHLINGER ALLEN W; RECE JR WESLEY J |
| An improved label web includes an elongated web remnant having a plurality of partially precut labels supported therein by bridges of material which taper from one width near the remnant to a smaller width near the label. Depressions receiving the bridges are formed in the labels, when they are partially precut, but their dimension and configuration is selected so that when the labels are removed from the web and placed on a product, the depressions are visually insignificant. The major portions of the bridges remain with the remnant and any portion remaining with the label tends to fill the depression enhancing the label''s appearance. Improved die structure and methods for making die structure to preferentially form labels are included. In one method, the desired curved die cutting edge is formed by displacing and nicking a straight die cutting edge, from one side and at an angle to the general perpendicular projection of the edge above the die surface.
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| 178 | Hydraulic label die cutting machine | US3741057D | 1970-06-17 | US3741057A | 1973-06-26 | MASCHINOT H |
| A simple hydraulically operated label die cutting machine wherein the ram which forces a stack of labels through the cutting die, and a shuttle which moves a stack of labels into position over the ram, are both hydraulically operated. The shuttle and ram operate in timed relation to each other automatically. Provision is made for jogging either the ram or the shuttle independently of each other. A safety switch is provided to stop the machine if the operator''s hand is still on a stack of labels being moved into position by the shuttle when the stack of labels is about to enter into position over the ram. Additional safety for the operator is provided by relatively low pressure operation of the piston which actuates the shuttle, so that the shuttle can be held manually without great exertion. The cutting die is held by two pairs of mutually opposed chuck jaws whereby the die may be adjusted linearly in two directions at right angles to each other, and the chuck jaws are mounted on a plate which may be rotated and clamped in the desired position for the rotational alignment with the stack. The die holding portion of the machine is anchored to the main machine frame which carries the ram cylinder by means of corner posts, which thus take the strain of the die cutting operation.
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| 179 | Cutting means | US3732770D | 1970-06-15 | US3732770A | 1973-05-15 | OTTAVAN G |
| A cutter for cutting labels as they move off a printing press without using shear. The cutter includes means for operating the cutter bar to separate labels singly or into groups. The cutter includes a movable die which is moved into and out of cutting relation with the label paper by means of a pair of eccentrically actuated links in order to apply uniform cutting pressure over the entire head of the movable die.
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| 180 | Method and apparatus for fabricating label stock | US3574026D | 1966-08-23 | US3574026A | 1971-04-06 | KUCHECK LEO |
| THIS INVENTION RELATES TO AN APPARATUS AND A METHOD FOR MANUFACTURING LABEL STOCK OF THE TYPE INCLUDING A BACKING STRIP HAVING SEPARATED LONGITUDINALLY SPACED PRINTED LABELS THEREON SECURED TO THE BACKING STIP BY A LAYER OF PRESSURE SENSITIVE ADHESIVE COATING ON THE INNER UNPRINTED SIDE OF THE LABELS. THE COMPLETED LABEL STOCK IS USUALLY WOUND INTO ROLLS FOR CONVENIENCE IN HANDLING, STORAGE AND SHIPMENT TO THE ULTIMATE USER. THE USER PLACES THE ROLLS OF LABEL STOCK ON A LABEL APPLYING MACHINE AND THREADS AN UNWOUND END OF THE ROLL THROUGH A LEBEL APPLYING HEAD OF THE MACHINE. THE LABEL APPLYING MACHINE DISPENSES LABELS AUTOMATICALLY ONE AT A TIME FROM THE BACKING STRIP AS AN ARTICLE IS MOVED TO A LABELING STATION OF THE MACHINE. THE LABELS READILY PEEL FROM THE BACKING STRIP BY PASSING THE BACKING STRIP AROUND A SHARPLY ANGLED PLATE CALLED A PEELER PLATE. THE RIGIDITY OF THE LABELS CAUSES THE LABELS TO PEEL FROM THE BACKING STRIP AT THE POINT WHERE THE BACKING STRIP BENDS SHARPLY BACK AT THE TIP OF THE PEELER PLATE. THE PEELED LABELS ARE RECEIVED ONE AT A TIME BY THE LABEL APPLYING HEAD OF THE LABEL APPLYING MACHINE WITH THE PRESSURE SENSITIVE ADHESIVE COATED SIDES THEREOF FACING AWAY FROM THE HEAD WHICH THEN APPLIES EACH LABEL TO AN ARTICLE DELIVERED TO THE LABELING STATION OF THE MACHINE.
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