| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 具有索引开口的片材材料和制作及使用方法 | CN200680009692.X | 2006-01-13 | CN101522407A | 2009-09-02 | A·J·鲍尔森; D·J·阿尔维格; M·D·皮卡那 |
| 一种具有索引开口的片材材料,用于卡片打印机。所述片材材料包括基片层和与索引开口交替的记录元件。所述记录元件可以是,例如,卡片大小的覆膜材料贴片或者全息图。所述索引开口用于实现记录元件与卡片的正确对齐。 | ||||||
| 2 | 表示ラベル作成装置 | JP2011083509 | 2011-04-05 | JP5755006B2 | 2015-07-29 | 佐藤 博美 |
| 3 | Displaying label creation apparatus | JP2011083509 | 2011-04-05 | JP2012218203A | 2012-11-12 | SATO HIROMI |
| PROBLEM TO BE SOLVED: To automate display label creation by easily coping with such a situation that a sticking position of a subordinate label to a main label varies depending on the kind of the displaying label.SOLUTION: The display label L is created by sticking a subordinate label Lb smaller than the main label at a predetermined position designated beforehand in the main label La with information displayed on the surface thereof. The display label creation apparatus includes: a main label conveying mechanism 10 for conveying a main label continuous body Ta in which the main labels La are arranged in line on a belt-like mount Da, along its longitudinal direction; and a subordinate label sticking mechanism 20 for conveying a subordinate label continuous body Tb in which the subordinate labels Lb are arranged in line on a belt-like mount Db, along its longitudinal direction, peeling off the subordinate labels Lb, sticking them on the surface of the main labels La, and forming the display labels L on the belt-like mount Db of the main label continuous body Ta. The relative sticking position of the subordinate label sticking mechanism 20 to the main label La is made adjustable so that the subordinate label sticking mechanism 20 can stick the subordinate label Lb at the predetermined position of the main label La. | ||||||
| 4 | METHOD FOR PREPARING A SCORED FLEXIBLE STRUCTURE, AND METHOD FOR MAKING A FLEXIBLE PACKAGING STRUCTURE HAVING A BUILT-IN OPEN AND RECLOSE FEATURE | EP13763362.4 | 2013-08-29 | EP2892716B1 | 2018-02-21 | HUFFER, Scott W.; PETTIS, Rod |
| A method for preparing a scored flexible structure that has utility in the construction of packaging structures, including steps of: (i) providing a structure as a web of flexible material; (ii) enhancing a thickness of the structure in a discrete region thereof by applying a substantially all-solids electron-beam-curable polymer material in fluid form onto the discrete region, the discrete region occupying a minor percentage of a total surface area of the structure; (iii) curing the polymer material by irradiating the polymer material with an electron beam, thereby forming an EB-cured polymer region; and (iv) forming a score line through a thickness of the EB-cured polymer region and through the thickness of the structure. | ||||||
| 5 | DISPLAY LABEL CREATION DEVICE | EP12767576.7 | 2012-03-27 | EP2695730B1 | 2017-09-06 | SATO, Hiromi |
| 6 | Display label manufacturing apparatus | US14003568 | 2012-03-27 | US09327858B2 | 2016-05-03 | Hiromi Sato |
| A label manufacturing apparatus manufactures a label L having a sub-label Lb bonded to a predetermined position on a main label La. A main label conveyance mechanism 10 conveys a main continuous label strip Ta in a first direction Da. A sub-label conveyance mechanism 20 conveys a sub-continuous label strip Tb in a second direction which crosses the first direction. The sub-labels Lb arranged in series on a backing strip Db, are separated from their backing strip and are each bonded to the surface of a respective main label La by a bonding mechanism. The completed display label L is separated from its backing strip Db of the main continuous label strip Ta. The label manufacturing apparatus can adjust the relative bonding position between the sub-label and the main label La so as to allow the sub-label bonding mechanism 20 to bond the sub-label Lb to the main label La at a predetermined position. | ||||||
| 7 | DISPLAY LABEL MANUFACTURING APPARATUS | US14003568 | 2012-03-27 | US20140083618A1 | 2014-03-27 | Hiromi Sato |
| A label manufacturing apparatus manufactures a label L having a sub-label Lb bonded to a predetermined position on a main label La. A main label conveyance mechanism 10 conveys a main continuous label strip Ta in a first direction Da. A sub-label conveyance mechanism 20 conveys a sub-continuous label strip Tb in a second direction which crosses the first direction. The sub-labels Lb arranged in series on a backing strip Db, are separated from their backing strip and are each bonded to the surface of a respective main label La by a bonding mechanism. The completed display label L is separated from its backing strip Db of the main continuous label strip Ta. The label manufacturing apparatus can adjust the relative bonding position between the sub-label and the main label La so as to allow the sub-label bonding mechanism 20 to bond the sub-label Lb to the main label La at a predetermined position. | ||||||
| 8 | Method for Preparing a Scored Flexible Structure, and Method for Making a Flexible Packaging Structure Having A Built-In Open and Reclose Feature | US13608360 | 2012-09-10 | US20140069923A1 | 2014-03-13 | Scott W. Huffer; Rod Pettis |
| A method for preparing a scored flexible structure that has utility in the construction of packaging structures, including steps of: (i) providing a structure as a web of flexible material; (ii) enhancing a thickness of the structure in a discrete region thereof by applying a substantially all-solids electron-beam-curable polymer material in fluid form onto the discrete region, the discrete region occupying a minor percentage of a total surface area of the structure; (iii) curing the polymer material by irradiating the polymer material with an electron beam, thereby forming an EB-cured polymer region; and (iv) forming a score line through a thickness of the EB-cured polymer region and through the thickness of the structure. | ||||||
| 9 | Label with electronic components and method of making same | US11736321 | 2007-04-17 | US07843341B2 | 2010-11-30 | Peter Phaneuf; Gary P. Burns |
| A method of making an electronic label, such as an RFID label, includes attaching a circuit, such as an antenna, to a substrate material, applying an adhesive layer to the substrate material over the circuit, adding a release layer over the adhesive layer, forming at least one opening in the release layer to expose at least one portion of the circuit, and connecting a microchip to the at least one portion of the circuit through the at least one opening. The circuit can be an RFID inlay, including an antenna and a microchip, and can be formed of a conductive ink. A portion of the release layer at the at least one microchip has an opening to expose the at least one microchip so that the at least one microchip is free from coverage by the release layer. | ||||||
| 10 | Label with electronic components and method of making same | US11276713 | 2006-03-10 | US07224278B2 | 2007-05-29 | Peter Phaneuf; Gary P. Burns |
| A method of making an electronic label, such as an RFID label, includes attaching a circuit, such as an antenna, to a substrate material, applying an adhesive layer to the substrate material over the circuit, adding a release layer over the adhesive layer, forming at least one opening in the release layer to expose at least one portion of the circuit, and connecting a microchip to the at least one portion of the circuit through the at least one opening. The electronic label includes a substrate having on one surface a circuit including at least one microchip, a layer of adhesive covering the circuit and the one surface of the substrate, and a release layer covering the adhesive layer. The circuit can be an RFID inlay, including an antenna and a microchip, and can be formed of a conductive ink. A portion of the release layer at the at least one microchip has an opening to expose the at least one microchip so that the at least one microchip is free from coverage by the release layer. | ||||||
| 11 | Label having a cavity for receiving a RFID device and an apparatus and method of making and assembling the same | US11319777 | 2005-12-29 | US20060181423A1 | 2006-08-17 | Frederick Bleckmann; Bruce Arey |
| The present invention includes an apparatus for inserting a radio frequency device into a label. A ribbon of labels has a plurality of labels and a cavity formed in each of the labels. A mechanism linearly advances the ribbon of labels. A device inserts at least one radio frequency device into the cavity of a respective label. An upper layer of the ribbon of labels is slit along the channel to form an opening along a top of each of the cavities and at least one RFID device, such as a tag or coin is inserted within at least one of the plurality of cavities. A label for removably holding the RFID device includes an upper and lower layer of material. The cavity is formed between the upper and lower layers. An area of interference is located at a top of the cavity for holding the RFID device within the cavity. | ||||||
| 12 | Tag making and reinforcing machine and method | US18738362 | 1962-04-13 | US3157548A | 1964-11-17 | YOUNG IRVIN L |
| 13 | Apparatus for reinforcing and punching sheets | US43873554 | 1954-06-23 | US2768560A | 1956-10-30 | BENIAMIN HIRSON |
| 14 | Tag making and printing machine | US35874620 | 1920-02-14 | US1487350A | 1924-03-18 | MONSON CARL A; HARRY GEARING |
| 15 | Label having a cavity for receiving a RFID device and an apparatus and method of making and assembling the same | US11319777 | 2005-12-29 | US07724144B2 | 2010-05-25 | Frederick August Bleckmann; Bruce Arey |
| The present invention includes an apparatus for inserting a radio frequency device into a label. A ribbon of labels has a plurality of labels and a cavity formed in each of the labels. A mechanism linearly advances the ribbon of labels. A device inserts at least one radio frequency device into the cavity of a respective label. An upper layer of the ribbon of labels is slit along the channel to form an opening along a top of each of the cavities and at least one RFID device, such as a tag or coin is inserted within at least one of the plurality of cavities. A label for removably holding the RFID device includes an upper and lower layer of material. The cavity is formed between the upper and lower layers. An area of interference is located at a top of the cavity for holding the RFID device within the cavity. | ||||||
| 16 | Surveillance Devices with Multiple Capacitors | US12467121 | 2009-05-15 | US20100123582A1 | 2010-05-20 | Patrick Smith; Criswell Choi; James Montague Cleeves; Vivek Subramanian; Arvind Kamath; Steven Molesa |
| The present invention relates to surveillance and/or identification devices having capacitors connected in parallel or in series, and methods of making and using such devices. Devices with capacitors connected in parallel, where one capacitor is fabricated with a relatively thick capacitor dielectric and another is fabricated with a relatively thin capacitor dielectric achieve both a high-precision capacitance and a low breakdown voltage for relatively easy surveillance tag deactivation. Devices with capacitors connected in series result in increased lateral dimensions of a small capacitor. This makes the capacitor easier to fabricate using techniques that may have relatively limited resolution capabilities. | ||||||
| 17 | Process for manufacturing RFID label | US11591995 | 2006-11-01 | US20070181247A1 | 2007-08-09 | Matt Adams; Otto Argadine; Doug Taylor; Kevin Conwell; Rick O'Brien; Jim Peternel |
| An automated process for manufacturing smart labels having a radio frequency identification (RFID) transponder. The inventive method accurately and reliably inserts RFID transponders into labels onto tags in one pass on a label press equipped with an in-line insertion station. The transponders may be provided In continuous supply reel and singulated as needed to form discrete terms transponders or single transponders may be provided in the hopper. The label is delaminated and the transponders are individually applied directly to the adhesive side of the labels in the machine direction of the moving web. The label liner is then relaminated back onto the label face stock sandwiching the RFID transponder between the liner and the label stock. | ||||||
| 18 | Reinforced tag and method of manufacturing | US11358199 | 2006-02-20 | US20060204715A1 | 2006-09-14 | F. Valenti; John Garber |
| A method of manufacturing reinforced tags using a press is disclosed which includes providing a continuously moving web of tag material. A web of reinforcing material is also provided and die cut into reinforcing patches. The reinforcing material has a pressure sensitive adhesive thereon. A first portion of the patches is adhered to a first major surface of the continuously moving web of tag material so it extends beyond said first major surface. A second portion of the patches is contacted with a stationary curved surface which folds the patches as they move along the folder so that the second portion is folded around an edge of the tag material and adheres to a second major surface of the web of tag material. A hole is then cut in each tag unit at a location such that it extends through the patch at a point where it is adhered to two major surfaces of each tag unit. The web of tag material is then cut into the individual tag units. The patches and the tags both have a transverse dimension which is smaller for the patches than for the tags. | ||||||
| 19 | Reinforced tag and method of manufacturing | US10209069 | 2002-07-30 | US07005027B2 | 2006-02-28 | F. Paul Valenti; John Garber |
| A method of manufacturing reinforced tags using a press is disclosed which includes providing a continuously moving web of tag material. A web of reinforcing material is also provided and die cut into reinforcing patches. The reinforcing material has a pressure sensitive adhesive thereon. A first portion of the patches is adhered to a first major surface of the continuously moving web of tag material so it extends beyond said first major surface. A second portion of the patches is contacted with a stationary curved surface which folds the patches as they move along the folder so that the second portion is folded around an edge of the tag material and adheres to a second major surface of the web of tag material. A hole is then cut in each tag unit at a location such that it extends through the patch at a point where it is adhered to two major surfaces of each tag unit. The web of tag material is then cut into the individual tag units. The patches and the tags both have a transverse dimension which is smaller for the patches than for the tags. | ||||||
| 20 | Method and apparatus for bonding an additional layer of fabric to a label | US10956100 | 2004-10-04 | US20050061428A1 | 2005-03-24 | Frederick Blackmann |
| The present invention includes a method for producing individual folded labels having an additional layer of material attached thereto. A ribbon of labels is provided along with an additional strip of material. Pieces of information, such as text or a machine readable-code are applied to the strip of material by printing the same at spaced intervals on the material. The ribbon of labels and the strip of material having the printed information thereon are joined together. The ribbon of labels with the strip of material are subdivided into individual folded labels. The invention also includes a label-making apparatus having a mechanism for advancing a ribbon of labels and a strip of material. A print head prints information, such as text or a machine readable-code, on the strip of material at spaced intervals. A mechanism joins the ribbon of labels with the strip of material. A cutting station subdivides an individual label from the ribbon of labels and strip of material. A sensor in communication with the advance mechanism controls the advance of a length of the ribbon of labels and the strip of material. | ||||||
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