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 |
|---|---|---|---|---|---|---|
| 201 | Seed labels and manufacturing method thereof | US12801582 | 2010-06-15 | US08726566B2 | 2014-05-20 | Thomas D. Ray, III; Robert J. Alden; Tommy Wayne Gill; Steve Posey; James J. Carides |
| A seed label which can be removably affixed to a package includes a label layer removably attached to a clear film layer by an adhesive layer, and at least one seed disposed between the label layer and the clear film layer. The label layer may be made of biodegradable material and may include water-based ink printing thereon. The adhesive layer may be a dry release-clean release adhesive layer can be formed of a water-based adhesive. The seed label can be placed in a container for germinating the seeds. A method of manufacturing a seed label includes providing a label layer, automatically placing at least one seed on one side of the label layer, and automatically attaching the label layer to a clear film layer by an adhesive layer, with the seed disposed between the label layer and the clear film layer. | ||||||
| 202 | APPARATUS AND METHOD FOR CUTTING WITH A LASER ARRAY | US14071850 | 2013-11-05 | US20140124490A1 | 2014-05-08 | DIETER BANGEL |
| An apparatus and a method are provided for cutting, cutting-out and perforating web or sheet substrates. The apparatus has a laser cutting device disposed above or below a transport plane for processing a substrate. The laser cutting device includes at least one laser array extending over the width of the substrate and having individually drivable lasers. The laser array is composed, in particular, of a plurality of individual arrays. The lasers are, in particular, constructed as vertical-cavity surface-emitting lasers. In this way, processing of the substrate at high transport speeds is made possible. | ||||||
| 203 | METHOD OF HALF-CUT CUTOUT PROCESSING OF LABEL PAPER | US13946515 | 2013-07-19 | US20140031189A1 | 2014-01-30 | Hideo Izawa; Reishi Fujiwara; Akira Ishikawa |
| A method of half-cut cutout processing of label paper 1 is disclosed that allows laser beam 11 to cut a label sheet 3 of the label paper 1 into a given cutout shape without damaging a supporting sheet 2. In the method, a cutting locus 30 along contours of the cutout shape is printed on a surface of the label sheet 3 in a single color which is darker than or equal in darkness to a color that is the darkest of colors in portions to be cut, and then the cutting locus 30 printed is irradiated with the laser beam, thereby cutting the label sheet 3 selectively into the cutout shape. | ||||||
| 204 | PAPER, LABELS MADE THEREFROM AND METHODS OF MAKING PAPER AND LABELS | US13794641 | 2013-03-11 | US20130260991A1 | 2013-10-03 | 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. | ||||||
| 205 | LABEL PRODUCING APPARATUS | US13848807 | 2013-03-22 | US20130209154A1 | 2013-08-15 | 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. | ||||||
| 206 | Seed labels and manufacturing method thereof | US12801582 | 2010-06-15 | US20110302835A1 | 2011-12-15 | Thomas D. Ray, III; Robert J. Alden; Tommy Wayne Gill; Steve Posey; James J. Carides |
| A seed label including a label layer removably attached to a clear film layer by an adhesive layer, and at least one seed disposed between the label layer and clear film layer. The label layer may be made of a biodegradable material. The adhesive layer may be a dry release-clean release adhesive layer. The label layer may include water-based ink printing thereon. The adhesive layer may be a water-based adhesive. The seed label may be removably affixed to a package. The seed label may be disposable in a container for germinating the seeds. A method of manufacturing a seed label, includes providing a label layer, automatically placing at least one seed on one side of the label layer, and automatically attaching the label layer to a clear film layer by an adhesive layer, with the seed disposed between the label layer and clear film layer. | ||||||
| 207 | Manufacture of environmentally safe cards | US12291099 | 2008-11-05 | US20090065138A1 | 2009-03-12 | David Engel; William J. Garland |
| Methods and systems for manufacturing environmentally-safe cardstock for cards are provided. An environmentally safe core material may be printed with content using environmentally safe ink. Further, a layer of environmentally safe laminate material and annotation material may be applied to the core material. The layer is adhered to the core material by activating an environmentally safe adhesive associated with the laminate material through application of pressure without requiring application of heat. | ||||||
| 208 | Pressure sensitive label without pressure sensitive carrier | US10457583 | 2003-06-09 | US06821374B2 | 2004-11-23 | Kenneth Ian Greenhill |
| A label product such as a coupon is adhered to a release liner using a temporary adhesive. A layer of pressure sensitive laminate film, preferably transparent, is applied over the coupon, extending beyond the outer edges of the coupon so that the laminate is also adhered to the release liner. When the release liner is removed, the laminate can be applied directly to a product, without the base label common in conventional label products. | ||||||
| 209 | Peelable label | US09477327 | 2000-01-04 | US06709726B1 | 2004-03-23 | Peter J. Dronzek, Jr.; David P. Carnahan; David F. Gagala; Dennis T. Moore |
| A peelable or couponable label adapted to be releasably attached to a secondary or base label which is adhered to a labeled article. | ||||||
| 210 | RF tag application system | US09942206 | 2001-08-28 | US06645327B2 | 2003-11-11 | 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. | ||||||
| 211 | Peelable label | US10278149 | 2002-10-22 | US20030034645A1 | 2003-02-20 | Peter J. Dronzek JR.; David P. Carnahan; David F. Gagala; Dennis T. Moore |
| A peelable or couponable label adapted to be releasably attached to a secondary or base label which is adhered to a labeled article. | ||||||
| 212 | Label with applied handle | US09904108 | 2001-07-12 | US20020050084A1 | 2002-05-02 | Hratch Satamian |
| A label with applied handle comprises a liner material, a label and a handle. The label has an upper surface and lower surface and is secured to the liner by an adhesive layer on its lower surface. The adhesive layer allows the label to be peeled off the liner with the adhesive remaining on the lower surface of the label. The handle is affixed to the upper surface of the label, and comprises an elongate strip and a hanger. The elongate strip has an upper and a lower surface extending continuously across an entire length of the label. The lower surface of the elongate strip is firmly secured to the upper surface of the label by a strong bonding material and a hanger portion integrally connected to the elongate strip and extending therefrom. The hanger portion has an upper surface and a lower surface with no adhesive thereon, and is pivotable relative to the elongate strip so as to be movable between a first position wherein the hanger portion is adjacent the label portion, and a second position wherein the hanger portion is pivoted through substantially 180 degrees from the first position. | ||||||
| 213 | Refinements in method and apparatus for manufacturing linerless labels | US775397 | 1996-12-31 | US5792296A | 1998-08-11 | 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. | ||||||
| 214 | Labelling system and method | US650259 | 1996-05-22 | US5741381A | 1998-04-21 | Dale E. Dolence; Roger Williams, Sr. |
| The present invention discloses a labelling system and process. A continuous single-ply film is provided with a reverse printed image on an inside surface thereof with opaque coating substantially covering the inside surface. The film preferably is very thin, less than about 1.7 mils. The film is applied with a system using registration control based on two sources of input data, registration indicia and cutter position. The system self corrects for variations in true label length. An adhesive applicator is provided, such as a laser jet spray adhesive or alternatively a rotating cylinder having a cam surface which contacts the label with adhesive utilizing a perfectly cylindrical vacuum drum to avoid container/label slippage. A controlled motor drive on the supply roll to reduce web tension is provided. | ||||||
| 215 | In-mold label film and method | US446899 | 1995-05-17 | US5733615A | 1998-03-31 | Mitchell J. Rackovan; Kushalkumar M. Baid; Gerald G. Popely; Ronald V. Lloyd |
| An oriented polymeric in-mold label film comprises a hot-stretched, annealed, linerless self-wound film lamina and has a face layer for printing and a base layer which includes a heat-activatable adhesive. The heat-shrinkability of the film is balanced thickness-wise to minimize curl and allow the film to be printed in conventional label-printing presses. An antistat may be included only in the charge for the base layer which includes the heat-activatable adhesive. In the manufacture of labelled blow-molded containers, sheets and labels formed from the film may be handled at high speeds while maintaining accurate registration and dimensional and positional integrity even in the absence of any reinforcing backing, yet the labels perform well on deformable containers such as shampoo bottles. | ||||||
| 216 | Apparatus for tagging plants | US232768 | 1994-04-25 | US5467524A | 1995-11-21 | Gordon J. Diemer |
| An apparatus for tagging plants includes a frame attached to a stand, and jaws operably mounted on the frame for receiving a plant branch. The apparatus includes a strip advancing mechanism, a tag advancing mechanism, a fastening mechanism, and a programmable controller for controlling the actuation of each of these mechanisms. The strip advancing mechanism is configured to advance a section of flexible strip onto the jaws in a loop around the plant branch from a continuous supply of strip material, and includes a cutter for cutting the section from the continuous supply of strip material once it is advanced. The tag advancing mechanism is configured to advance a tag to a position proximate the jaws from a continuous supply of interconnected tags, and includes a cutter for cutting the tag from the supply of tags. The fastening mechanism includes a stapler for stapling a staple to the tag to hold the tag to the section of strip and to hold the ends of the section together in the loop around the plant branch. An embossing die is located adjacent the jaws for embossing the tags with indicia immediately prior to stapling. | ||||||
| 217 | In-mold labelling a coextruded, stretched and annealed label | US942511 | 1992-09-09 | US5435963A | 1995-07-25 | Mitchell J. Rackovan; Kushalkumar M. Baid; Gerald G. Popely; Ronald V. Lloyd |
| An oriented polymeric in-mold label film includes a hot-stretched, annealed, linerless self-wound film lamina and has a face layer for printing and a base layer which includes a heat-activatable adhesive. The film may be hot-stretched and annealed at softening and annealing temperatures exceeding the temperature at which the adhesive is activated by passing the film across rolls for imparting heat to and removing heat from the film under controlled time-temperature-direction conditions to heat at least the majority of the thickness of the film to such softening and annealing temperatures without sticking of the adhesive to the rolls. The heat-shrinkability of the film is balanced thickness-wise to minimize curl and allow the film to be printed in conventional label-printing presses. An antistat may be included only in the charge for the base layer which includes the heat-activatable adhesive. In the manufacture of labelled blow-molded containers, sheets and labels formed from the film may be handled at high speeds while maintaining accurate registration and dimensional and positional integrity even in the absence of any reinforcing backing, yet the labels perform well on deformable containers such as shampoo bottles. | ||||||
| 218 | Plant tagging apparatus | US46031 | 1993-04-12 | US5339517A | 1994-08-23 | Gordon J. Diemer |
| A tagging apparatus for attaching tags to plants includes a frame member, a holding/clamping member operably connected to the frame member for holding a tag, and a first jaw movably mounted on the frame member. The first jaw is adapted to close against a second jaw on the frame member, with the jaws including surfaces forming an opening adapted to enclose a plant stem/branch when closed. A pneumatically driven mechanism is attached to the frame member and is adapted to grip and advance a strip of flexible material onto the surfaces so that the surfaces direct the strip of flexible material around the opening means to form a loop around the plant stem/branch. The apparatus also includes a pneumatically powered cutter and stapler mechanism attached to the frame member for cutting the strip from a roll of strip material and then for stapling the strip of flexible material in the loop around the stem/branch and to the tag to thus permanently retain the tag to the stem/branch. In the preferred form, the apparatus is a portable, hand-held unit. | ||||||
| 219 | In-mold labelling a coextruded, stretched and annealed label | US756556 | 1991-09-09 | US5242650A | 1993-09-07 | Mitchell J. Rackovan; Kushalkumar M. Baid; Gerald G. Popely; Ronald V. Lloyd |
| A uniaxially oriented coextruded polymeric in-mold label film includes a uniaxially hot-stretched, annealed, linerless self-wound film having a face layer for printing and a base layer which includes a heat-activatable adhesive. The heat-shrinkability of the film is balanced thickness-wise to minimize curl and allow the film to be printed in conventional label-printing presses. An antistat is included only in the charge for the base layer which includes the heat-activatable adhesive. In the manufacture of labelled blow-molded containers, sheets and labels formed from the film may be handled at high speeds while maintaining accurate registration and dimensional and positional integrity even in the absence of any reinforcing backing, yet the labels perform well on deformable containers such as shampoo bottles. | ||||||
| 220 | Microlabelling system and method of making thin labels | US572151 | 1990-08-23 | US5129974A | 1992-07-14 | Carl A. D. Aurenius |
| A method is disclosed for providing labelling of small items through the use of microlabels having colored bar codes with the microlabel being on the order of 1 mm.times.1 mm in overall size. In one embodiment, the label consists of a number of colored lines or bars similar to a black/white bar code, with each bar having a distinct color or hue, the width of the bars being in the 5-120 micron range in terms of width, the bars being either contiguous or separated by a thin bar of distinct color. One method of making ultra thin labels includes cutting or skiving an edge of a layered sheet, with different layers carrying different colors, and with the cut layers having a thickness on the order of 0.1 mm. | ||||||
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