子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | MANUFACTURING METHOD FOR DOUBLE-SIDED ADHESIVE MATERIAL, AND ARTICLE PROVIDED WITH DOUBLE-SIDED ADHESIVE MATERIAL | PCT/US2012067275 | 2012-11-30 | WO2013082416A2 | 2013-06-06 | SHINOZAKI KOTARO |
| To provide a method for manufacturing a double-sided adhesive material suitable for the size and shape of various articles using a simple process without reducing the yield of the adhesive material that is used, and to provide an article with a double-sided adhesive material that uses the double-sided adhesive material obtained by this manufacturing method. [Resolution means] Liquid photo curing adhesive 12 is applied by direct drawing onto a specific region corresponding to the size and shape of an article to be used, on the surface of a first plate 10, using a robot. A sheet shaped second plate 20 is placed on the first plate 10 where the adhesive 12 was applied, such that the adhesive 12 is interposed between both plates. Light for curing the adhesive is then irradiated from both sides of the adhesive 12 so that the light will pass through both the first plate 10 and the second plate 20 and reach the adhesive 12. | ||||||
| 42 | PROCESS FOR PRODUCING AND PREPARING ADHESIVE PRODUCTS | PCT/EP9501354 | 1995-04-12 | WO9529054A2 | 1995-11-02 | LUDWIG VOLKER |
| In a process for producing and preparing adhesive products, especially labels (8), the patterns (2) of which are printed on a substrate which is coated on the back with dots of adhesive (3), there is always to be a dot of adhesive (3) on the front and back beside the label pattern (2). Thereafter the substrate (1) or a strip (9) thereof are folded concertina-fashion to form a set of labels (11) so that a label pattern (2) lies on a dot of adhesive (3). | ||||||
| 43 | Terminal block marker | US15235408 | 2016-08-12 | US10062979B2 | 2018-08-28 | Michael Scott Adams; Zachary Scott Ganster; Jennifer Lynn Schwert |
| A terminal block marker designed to identify a terminal block. The terminal block marker includes a rigid base and a flexible film insert. The rigid base includes a top with a first arm having a first inwardly extending projection and a second arm having a second inwardly extending projection. The rigid base also includes a bottom with legs extending in a direction opposite the arms to hold the terminal block marker in the terminal block. A flexible film insert with identification markings is installed on the rigid base. The flexible film insert is positioned under a first projection of the first arm and rotated downward until the flexible film insert snaps under the second projection of the second arm. The first and second projections retain the flexible film insert on the rigid base to form the terminal block marker. | ||||||
| 44 | Removing unit and removing method | US15229104 | 2016-08-04 | US09937701B2 | 2018-04-10 | Masanori Minato |
| Provided is a removing unit that includes: a first conveying roller, a second conveying roller, a third conveying roller, and a take-up roller. The first conveying roller conveys a stack including first and second base members which are removably stacked with respect to each other. The second conveying roller conveys the second base member from which the first base member has been removed. The third conveying roller conveys the first base member which has been removed from the second base member, along a surface of the first conveying roller. The take-up roller takes up the first base member which has been conveyed by the third conveying roller. The second conveying roller is provided upstream from a first tangent in a conveying direction of the first base member. The third conveying roller is provided to overlap the first tangent or provided downstream from the first tangent, in the conveying direction. | ||||||
| 45 | Apparatus and Method for the Making of a Pressure-Sensitive Construction from a Faceless Material | US15554033 | 2016-02-26 | US20180022054A1 | 2018-01-25 | Frederic LA BRIE |
| It is disclosed a pressure-sensitive faceless material adapted to be wound and form a convertible roll and methods for making the same. It is also disclosed an apparatus and method for the making of a pressure-sensitive material. The present disclosure is an improved, economical, and efficient method for label printer to make their own pressure-sensitive material. It uses a faceless material that is made from a standard release liner that has a low release layer on one side and a high release layer on the other. An adhesive is coated on either side and the product is rewound on itself. The production of the faceless material is manufactured in a centralized location with state of the art coating machines and expert personnel to ensure quality and stability of the product. The faceless material is then used by label printers to make different kind of pressure-sensitive constructions. | ||||||
| 46 | WINDING DEVICE AND CUTOFF DETECTION METHOD | US15384261 | 2016-12-19 | US20170217623A1 | 2017-08-03 | Shunichi KANNO |
| A winding device includes a first roller that winds label roll paper that is composed with a continues base sheet, a plurality of labels and a marginal portion, a second roller that winds the marginal portion peeled off the label roll paper, a drive part that generates a driving force for the second roller to rotate, a drive transmission control part that is provided between the drive part and the second roller such that the driving force is transmitted to the second roller from the driving part, and stops transmitting the driving force to the second roller if a load placed on the second roller exceeds a prescribed load, a detection part that detects a rotation of the second roller, and a control part that determines a cutoff of the marginal portion based on the rotation of the second roller detected by the detection part. | ||||||
| 47 | Paper, labels made therefrom and methods of making paper and labels | US14578261 | 2014-12-19 | US09437122B2 | 2016-09-06 | Joel Van Boom; William R. Krahl; Jeff Ehrmann |
| Paper is disclosed for use in making repositionable or removable adhesive labels. The adhesive can be applied in patches or discrete areas to the paper or to a layer of material that cleans rollers in the manufacturing line and/or in printers. The adhesive can be applied in single or multiple layers. The paper is light weight paper and preferably thermal paper for use in POS printers. | ||||||
| 48 | BOTTLE INTERFACING GREETING CARDS, METHODS OF MANUFACTURE AND METHODS OF USE | US14712789 | 2015-05-14 | US20150336415A1 | 2015-11-26 | John Fetters; Kathleen Fetters |
| Bottle interfacing greeting cards and methods of use and manufacture are provided herein. An example greeting card includes a folded substrate forming a front section and a back section, the front section having a front surface and the back section having a rear surface, and an interface tab configured to slip over a neck of a bottle, the interface tab extending from either the front section or the back section wherein a perforated line separates the interface tab from the folded substrate such that the folded substrate is detachable from the interface tab to form a greeting card. | ||||||
| 49 | Label formation base material pair and tack labeler | US13389542 | 2009-09-01 | US08986803B2 | 2015-03-24 | Yasushi Yoshida; Masahide Ikeda; Akihiko Fujihira |
| A tack labeler includes a reeling-out unit for reeling out a label formation base material pair from a base material pair roll set on a roll holder; a base material pair accumulation unit for accumulating the label formation base material pair; a separating-delivering unit for pulling out the label formation base material pair from the base material pair accumulation unit, separating the label formation base material pair into respective label formation base materials, and delivering the respective label formation base materials; cutting units for successively cutting connection portions of cut lines formed on each of the label formation base materials; adhering units for adhering the tack labels cut off from each of the label formation base materials onto containers conveyed to adherence positions; and base material collecting units for winding up and collecting each of the label formation base materials. | ||||||
| 50 | Label producing apparatus | US13848807 | 2013-03-22 | US08979406B2 | 2015-03-17 | Atsushi Kasugai; Akira Sago; Toshiyuki Ohmori |
| The disclosure discloses a label producing apparatus. The label producing apparatus includes a cartridge holder, a feeder, a movable blade, a driving roller configured to contact and discharge the label tape, a driven roller provided so that it can advance and retreat between a contact position and a separated position, a motor configured to rotate in a single direction only and generate a driving force of the movable blade, and a rotational movement of the driving roller, a gear mechanism configured to transmit the driving force to the driving roller, and an advancing and retreating adjustment device configured to adjust an movement of the driven roller and the movable blade, associated with a rotation of the motor, the adjustment device advancing and retreating the driven roller and the movable blade so that the driven roller is in the contact position for a predetermined time period after cutting. | ||||||
| 51 | LABEL PRODUCTION METHOD | US14381346 | 2012-03-02 | US20150020962A1 | 2015-01-22 | Hiroshi Nakamura |
| Provided is a label production method capable of significantly reducing production costs by producing many single labels using one member. A label substrate that an adhesive and a release agent are applied to is passed through a laminating device twice, first label substrate passed for the first time and second label substrate passed for the second time are pseudo-adhered by joining the release agent of the first label substrate passed for the first time to the adhesive of the second label substrate passed for the second time, and single labels are punched out from the second label substrate by a cutting tooth of a punching device at a position on the downstream side after the label substrate is passed through the laminating device for the second time. The first label substrate passed for the first time is used as a seat for the cutting tooth of the punching device. | ||||||
| 52 | Method of fabricating ink jet label stock | US12468639 | 2009-05-19 | US08133342B2 | 2012-03-13 | Aharon A. Karan |
| A method is provided of fabricating ink jet labels. The method includes the step of providing a web of tag stock paper. The web has first and second sides. A web of ink jet stock paper is provided. The ink jet stock paper has a first side coated with an ink jet coating and a second side. The second side of the ink jet stock paper is laminated to the first side of the tag stock paper to provide a web of label stock. | ||||||
| 53 | Label feeder | US11070257 | 2005-03-03 | US20050199344A1 | 2005-09-15 | Kent Lord |
| A label feeder which applies labels with electromagnetic wave information thereon to a linerless label material or liner label material having graphic information thereon is disclosed. The label feeder provides information to and retrieves information from the labels with electromagnetic wave information before the graphic label is applied on the product. The linerless label material or liner label material can be covered with adhesive on one side and with a low adhesion substrate on the other side or be partly covered on both sides, both longitudinally or transversely. By using a label feeder using a label material, it is possible to print graphic information on an even label material, application of a label with electromagnetic wave information providing or receiving information, and inline control before application. A method for making labels is also disclosed. | ||||||
| 54 | RF tag application system | US09942206 | 2001-08-28 | US20020062898A1 | 2002-05-30 | Pixie A. Austin; Duane M. Fox; David N. Bledsoe |
| Linerless label stock 102 is fed to a printer that prints on the front face 104 of the label stock 102 and then to a media cutter 224. The cutter 224 cuts the strip into discrete labels, which are fed to a tag application station 226. A strip of electronic tags is fed through an encoder that detects defective tags and then to a tag cutter 246 that cuts the strip into discrete tags. Defective tags exiting the cutter 246 are diverted away from the tag application station. Non-defective tags are conveyed to the tag application station 226 where they are secured to the back face of labels. | ||||||
| 55 | Labelling system | US09125352 | 1998-10-14 | US06271932B1 | 2001-08-07 | Ulrich Liedtke |
| The present invention relates to a labelling system installable on a user's premises and comprising a product label having several fields, of which at least one is provided as a basic field (3) for holding basic information relating to the product to be labelled, at least one as a freely inscribable field (4) for holding variable information and at least one for holding an image which is directly related to the basic information a computer with a database having a first area (12) which in principle can be changed only by the system manufacturer or product manufacturer and in which product data relating to the product can be stored, and having a second area (15) which is also accessible to the user and in which specific user data relating to the product and the user can be stored, and with a printer (26) for the printing of labels (2) with the data mentioned an input unit for inputting the user data and controlling the computer and the printer (26), wherein the image data associated with software can also be stored in the first area (12) and wherein the software associates specific image data and a limited—optionally freely definable—selection of specific user data with the specific product data and makes it possible to print them out together on the printer, and wherein the label material or the material of the label sheet has the following specifications: Color: initially colorless, white after laser-sensitizing coating Thickness: 100 um Surface resistance: 1012 Tensile Force: Machine direction: MD 15.5 kg/mm2 Diagonal: TD 17.5 kg/mm2 Elongation at break: MD 120% TD 120% Shrinkage: MD 3% (after 5 min at 190) TD 2%. | ||||||
| 56 | Apparatus for manufacturing linerless labels | US449327 | 1995-05-24 | US06153045A | 2000-11-28 | John R. Soltysiak; John C. Bane; Frank L. Benchik; Paul M. Cumming; Jimme A. Harrod; Dennis D. Hubbell; Khaled M. Khatib; Joseph W. Langan; Nancy G. Mitchell; Daniel P. Ratka; Timothy J. Russ; Francis R. Smith |
| An apparatus and method provide for the alternate manufacture of permanent adhesive or repositional linerless labels utilizing the same equipment. Indicia is applied such as by using an intelligent imaging system by at least one print station. With repositional labels, a tie coat is applied and dried, whereas with permanent labels a barrier coating is applied. Coating stations apply a repositional adhesive and release coat in the construction of repositional adhesive labels. The coating station is followed by a dryer and chill rolls. In the construction of permanent adhesive labels a coating station for applying a release coat and a release coat curing station, as well as permanent adhesive application station, are also provided. Changeover time from the manufacture of one type of label to the other is short. | ||||||
| 57 | Method of forming rolls of ribbons including peelable lid shapes with bent-back lift tabs | US46330 | 1998-03-23 | US5976294A | 1999-11-02 | Anthony G. Fagnant; Ralph D. Sagel |
| A method of producing rolls of ribbons including printing indica at a plurality of locations on at least one of two webs; applying peelable adhesive at a plurality of locations on at least one of the two webs; bonding the two webs together using the adhesive where the indicia and the adhesive are registered with each other; die cutting only one of the webs after bonding to form a plurality of peelable lid shapes, having lift tabs for each peelable lid shape, on the other web; die cutting the other non-cut web to form a plurality of parallel ribbons of interconnected lid shapes with each one of the interconnected lid shapes associated with one of the peelable lid shapes; bending the lift tabs onto their respective peelable lid shape; and winding each of the ribbons into a roll on a central core. | ||||||
| 58 | Refinements in method and apparatus for manufacturing linerless labels | US399629 | 1995-03-07 | US5656116A | 1997-08-12 | John R. Soltysiak |
| An apparatus and method provide for the alternate manufacture of permanent adhesive or repositional linerless labels utilizing the same equipment. Indicia is applied such as by using a flexographic unit in which the print cylinders are immediately thrown-off the web when the unit is turned off. Coating stations apply a repositional adhesive and release coat in the construction of repositional adhesive labels, for example, using a flexo unit in which the print cylinder stays in contact with the web after the unit is turned off to wipe excess adhesive from the print cylinder. In the construction of permanent adhesive labels a coating station for applying a release coat and a release coat curing station, as well as a hot melt permanent adhesive application station, are also provided. The permanent adhesive is applied with a slotted die head having a heat uniformity of .+-. five degrees F across its length, and applies an even adhesive coat thickness of about 0.0005-0.001 inches to .+-. about 0.0001 inches. | ||||||
| 59 | Multiple-ply label and method for producing a multiple-ply label | US134390 | 1993-10-12 | US5571358A | 1996-11-05 | William F. Napier; Gerald T. Szymczak |
| A multiple-ply article includes a lower ply and an upper ply with printed matter on each of the plies. The plies are adhered together with an adhesive so that they can be separated from each other without damage to either of the plies, and so that printed matter on the lower ply becomes visible when the upper ply is removed. The multiple-ply article may be attached to a container to serve as a label. A method for producing such a multiple-ply article includes the steps of applying printed matter to a web of stock material, applying adhesive to the web, manipulating the web to form multiple plies, releasably adhering the multiple plies together, and cutting the multiple plies to form the multiple-ply article. The method thus produces in a single process a multiple-ply article which may serve both as a primary label for a product and as a promotion or additional information carrier. | ||||||
| 60 | Method and apparatus for manufacturing linerless labels | US253787 | 1994-06-03 | US5518762A | 1996-05-21 | John R. Soltysiak; John C. Bane; Frank L. Benchik; Paul M. Cumming; Jimme A. Harrod; Dennis D. Hubbell; Khaled M. Khatib; Joseph W. Langan; Nancy G. Mitchell; Daniel P. Ratka; Timothy J. Russ; Francis R. Smith |
| An apparatus and method provide for the alternate manufacture of permanent adhesive or repositional linerless labels utilizing the same equipment. Indicia is applied such as by using an intelligent imaging system by at least one print station. With repositional labels, a tie coat is applied and dried, whereas with permanent labels a barrier coating is applied. Coating stations apply a repositional adhesive and release coat in the construction of repositional adhesive labels. The coating station is followed by a dryer and chill rolls. In the construction of permanent adhesive labels a coating station for applying a release coat and a release coat curing station, as well as permanent adhesive application station, are also provided. Changeover time from the manufacture of one type of label to the other is short. | ||||||
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