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 |
|---|---|---|---|---|---|---|
| 161 | ADHESIVE FILM HAVING RESILIENT PROPERTIES | US13256796 | 2010-01-18 | US20120040182A1 | 2012-02-16 | Hermann Neuhaus-Steinmetz; Lars Guldbrandsen; Sven König |
| Adhesive film, useful in a punching process, having a support and at least one layer of adhesive substance, the adhesive substance having two or more lower layers at least one of which is in a mechanically tensioned state. | ||||||
| 162 | Apparatus and Process for Cutting Adhesive Labels | US13003771 | 2009-07-14 | US20110132522A1 | 2011-06-09 | Alan Green; Dennis Rene Benoit |
| A method and apparatus are provided for die cutting label stock comprising a facestock, an adhesive and optionally a liner to form labels where a liner of the linered pressure sensitive adhesive label stock may be a thin or ultrathin liner. | ||||||
| 163 | CUTTER AND PRINTER WITH CUTTER | US12716210 | 2010-03-02 | US20100221057A1 | 2010-09-02 | Motoyoshi Shirotori; Kenichi Hirabayashi |
| A cutter and a printer having a cutter prevent the paper pieces cut off by the cutter from collecting at the paper exit from which the cut-off pieces are discharged. A stage surface 40 defines the bottom edge 5a of the paper exit 5. A sloped guide surface 41 is formed sloping down from the downstream side of the stage surface 40. A first side wall 42 determines where one side of the width of the paper passes over the stage surface 40 and the sloped guide surface 41. A second side wall 43 determines where the other side of the width of the paper passes. A protrusion 47 is formed on the first side wall 42 protruding toward the second side wall 43. When label paper 11 is cut, the cut-off portion 11c is deposited on the stage surface 40 covering the top of the protrusion 47. As a result, the cut-off portion 11c is made unstable by the protrusion 47 immediately after being deposited on the stage surface 40, and slides down easily. The cut-off portion 11c slides down from the stage surface 40 along the sloped guide surface 41, and is discharged smoothly from the paper exit 5. | ||||||
| 164 | SHEET CUTTING DEVICE AND IMAGE FORMING SYSTEM PROVIDED THEREWITH | US12620863 | 2009-11-18 | US20100132525A1 | 2010-06-03 | Tsuyoshi SHIOKAWA; Hiroyuki WAKABAYASHI |
| A sheet cutting device includes: an interposing section that interposes a sheet bundle in which a plurality of sheets are bundled; a cutting blade section having a cutting blade that cuts a sheet bundle interposed by the interposing section; a blade receiving member that receives a cutting edge of the cutting blade in the case of cutting; and a controller that controls a stop position of the cutting blade in the case of cutting. The controller controls the cutting blade section so that an amount of movement from a standby position of the cutting blade to the stop position becomes great when the number of times of cutting operations is increased. | ||||||
| 165 | Automated Hole Punch | US12265525 | 2008-11-05 | US20100107844A1 | 2010-05-06 | David Halden; Paul Crane; Jeffrey W. Ryan; Richard Hubbard |
| An automated hole punch including a die plate having a surface including a plurality of spaced apertures extending there through. A plurality of punches, one of the plurality of punches cooperating with each of the apertures. A raised profile extends outwardly from the surface of the die plate and above one or more of the plurality of apertures. A drive mechanism operatively connected to the plurality of punches for moving the plurality of punches toward the plurality of apertures. | ||||||
| 166 | Method and apparatus for fray-free textile cutting | US11398335 | 2006-04-05 | US07615128B2 | 2009-11-10 | Steen B. Mikkelsen |
| A method and apparatus for fray-free cutting at the perimeter of an area of a textile sheet on a textile-receiving surface, including applying an anti-fray substance onto the sheet along a path at the perimeter by an anti-fray substance applicator movable along the surface as directed by a controller based on programmed information regarding the perimeter, and cutting the sheet at the perimeter by a cutter movable along the surface as directed by the controller based on the programmed information. | ||||||
| 167 | Cutter head for a meat cutter | US10552514 | 2004-03-31 | US07614574B2 | 2009-11-10 | Norbert Jakobi; Jurgen Bernhardt |
| The invention relates to a cutter head disk for a meat cutter, on which at least one knife can be mounted by means of eccentric bolts and optional magnets and which is provided with a metallic core for accommodating the drive shaft. Preferably, the core comprises a plastic envelope. The invention further relates to a knife having a geometry that is provided with a great axial load-bearing capability. Also disclosed are a system comprising a cutter head disk and two knives, a cutter head encompassing several systems, and a method for assembling a cutter head. | ||||||
| 168 | Vibration damping apparatus for reciprocating drive and cutting head | US10539829 | 2003-12-03 | US07549361B2 | 2009-06-23 | Kenji Ikoma |
| A vibration damping device is described that dampens vibration produced during the conversion of rotational motion into reciprocal motion. The damping is performed using a simple structure wherein first and second conversion mechanisms are symmetrically arranged with respect to a plane of symmetry, first and second rotating shafts rotate opposite to each other at a constant speed, and the rotational motion is converted into reciprocal motion. The total of mass acting on gravity centers of a first balancer and a second balancer is approximately equal to the total of mass reciprocally driven by a first driving shaft and a second driving shaft. Both gravity centers are positioned 180 degrees to the first driving shaft and second driving shaft across the axes of the first rotating shaft and second rotating shaft. As a consequence, the forces in the direction of an axis can be balanced suppressing vibration. | ||||||
| 169 | APPARATUS FOR CUTTING TEXTURE, METHOD FOR CUTTING TEXTURE AND METHOD FOR CUTTING AND STACKING TEXTURE | US12063383 | 2006-08-08 | US20090107314A1 | 2009-04-30 | Nobuo Nasu |
| [Problems] In a conventional texture cutting, little attention was paid to the accuracy of the angled or the curved texture cutting, and the accurate cutting could not be conducted. [Mean of Solving Problems] A contact point between the top edge of a lower blade 75 and a rotation blade 67 is made to intersect with a center axis C with an error range of ±3 mm. Thereby, the accuracy of the angled or curved cutting is improved. Especially, the center of the rotation blade is significantly desirable to be positioned ahead of the center axis in the traveling direction, thereby enabling the smoother cutting. | ||||||
| 170 | BOOK TRIMMING APPARATUS | US12090532 | 2006-10-10 | US20090049965A1 | 2009-02-26 | John Cracknell; Mark Firth; John O'Brien; Martin Brewster |
| The book trimming apparatus comprises guides (4) which direct a collated and, optionally, bound book (1) to a fore-edge trimming station (3). The book trimming apparatus further includes a transfer station (5) and a side-edge trimming station (7). For both the fore-edge trimming station (3) and the side-edge trimming station (7) in each case the book is orientated so that the edge to be trimmed is arranged substantially parallel to the direction of motion of the book. The automated book trimming apparatus is particularly suited for use in combination with collation and binding stations in in-line book manufacture. | ||||||
| 171 | Chopper and method of chopping unwound items | US11588984 | 2006-10-27 | US20080098865A1 | 2008-05-01 | Miroslav Magula |
| A method and apparatus for separating long, unwound items like fiber, fiber strands, yarn, etc. into short lengths is disclosed. The apparatus has a backup roll, a blade roll that uses novel dummy blade slot fillers between each pair of chopping blades on the blade roll to eliminate or substantially reduce vibration normally encountered when making longer chopped lengths of chopped product. | ||||||
| 172 | METHOD FOR CUTTING A TUBE SECTION INTO LENGTHS AS WELL AS TUBE SECTION | US11775890 | 2007-07-11 | US20080016936A1 | 2008-01-24 | Roger Schlitter |
| The invention relates to a method for sizing a tube section (5) of a tube (1), with the tube (1) including an inner tube (2) and an outer tube (3) covering the inner tube (2). The tube section (5) is separated with the help of a cutting tool (6) at a cutting site (8) in a cutting plane aligned perpendicular to a longitudinal extension of the tube (1). For the method according to the invention, the tube cover (3) of the tube (1) is wrapped by a tube fixation (4), for example an adhesive tape, which covers the intended cutting site, before the tube section (5) is separated from the tube (1) at the cutting site (8) with the help of a cutting tool (6). The tube fixation (4) does not only mark the intended cutting site but also counteracts a fraying of the tube cover (3) at the cutting site (8), comprising a metal and/or plastic web. | ||||||
| 173 | Cross cutting device and method for operating such a cross cutting device | US11723669 | 2007-03-21 | US20070234863A1 | 2007-10-11 | Thomas Schurch; Bruno Wallimann |
| The invention relates to a cross cutting device and a corresponding operating method for manufacturing cut-out portions from a flat material web which is moved in a direction of transportation. The device has two cross cutting units which each have a fixed blade and a rotating blade arranged on a rotational element, and said cross cutting units are spaced apart from one another in the direction of transportation. The second rotational element can be connected to a suction device in such a way that in a case of application the cut-out portion is at least temporarily secured on the second rotational element. According to the invention, the second rotational element has, along its circumferential face, a plurality of zones, to which suction air can be applied individually and/or in combination, in order to secure cut-out portions of different formats. | ||||||
| 174 | Method and Apparatus for Fray-Free Cutting with Laser Anti-Fray Inducement | US11697051 | 2007-04-05 | US20070234862A1 | 2007-10-11 | Steen B. Mikkelsen |
| A method and apparatus for fray-free cutting at the perimeter of an area of a textile sheet on a textile-receiving surface, including creating an anti-fray condition in the sheet along a path at the perimeter by an anti-fray instrument movable along the surface as directed by a controller based on programmed information regarding the perimeter, and cutting the sheet at the perimeter by a cutter movable along the surface as directed by the controller based on the programmed information. The anti-fray instrument is preferably an anti-fray substance applicator or, if the textile is a thermoplastic textile, a laser device configured and arranged to induce an anti-fray state therein. | ||||||
| 175 | Boring device and boring method | US10575550 | 2004-10-14 | US20070069003A1 | 2007-03-29 | Teruie Takemasu; Ichiki Terashima |
| A boring such as a high accuracy boring is performed by inputting vibration only in the moving direction of a tool. The device comprises an ultrasonic horn (1) functioning as a vibrator, a punch (2) functioning as a boring tool for boring a work (W) which is an object to be bored, a guide bush (3) guiding the punch (2) in the moving direction, an elastic body (4) for retaining the punch (2) in a floating state on the guide bush (3), and a die (5) functioning as the boring tool formed in pairs with the punch (2). The punch (2) is floatingly retained by the elastic body (4) inside the guide bush (5), and vibration is applied to the punch (2) by the ultrasonic horn (1) to make the punch (2) jump toward the work (W) to strike the work (W) for boring the work (W). | ||||||
| 176 | Efficient food slicer | US10979893 | 2004-11-02 | US07174822B2 | 2007-02-13 | Daniel D. Friel, Sr. |
| A food slicer comprises a fan-cooled electrically powered motor driving a slicer blade. The motor is mounted within an enclosure which comprises at least one air intake port and at least one exhaust port on opposite sides of one nominally air-tight first partitioning wall within the enclosure to confine the flow of cooling air from the air intake port through the enclosure, then into intimate contact with the electrical windings and components within the frame of the motor. The motor frame is sealed into a closely conforming contacting aperture in the first partitioning wall. The fan is mounted immediately adjacent to a non-contacting aperture in a second partitioning wall within the enclosure juxtaposed the exhaust port. | ||||||
| 177 | Fluid jet cutting process | US11452802 | 2006-06-14 | US20070006699A1 | 2007-01-11 | Amit Kumar; Scott Misenar |
| A fluid jet cutting process for fibrous materials, such as inorganic fibrous material articles is provided. A fluid composition for use in the fluid jet cutting process is also provided. The cutting fluid composition contains a carrier fluid and coating composition for the cut surfaces of the fibrous material. An apparatus for carrying out the fluid jet cutting process of fibrous materials is also provided. | ||||||
| 178 | Fabric pads with a printed design and a method of making fabric pads with a printed design | US10662014 | 2003-09-12 | US20040171320A1 | 2004-09-02 | Dean R. Shacklett; Neil G. Sellars; Richard Snyder; David Wallace; James Mundy; Gabriel Imhof |
| The present invention is directed to a pad for carrying liquid having a piece of non-woven material wherein the piece of material is capable of absorbing an amount of the liquid at least about 1.5 times the weight of the piece of material, a first printed ink on a first surface of the material, and a second printed ink on either the first or a second surface of the material, and wherein the first ink is substantially in register with the second ink. The present invention is also directed to a method for making a printed pad for carrying a liquid including the steps of feeding a web of non-woven material into a rotogravure press, wherein the material is capable of absorbing at least about 1.5 times its own weight of the liquid, printing a first ink with the press on a first surface of the web, printing a second ink with the press substantially in register-with the first ink on the first surface or a second surface of the web. The present invention is also directed to a system for cutting printed designs from a web of elastic material to form printed pads wherein the printed designs are printed on the web at a, repeat length having: a braked unwind station having a variable braking tension; an infeed station having an adjustable speed; a diecutter having a diecutting cylinder and a cylinder correction gearbox capable of correcting the position of the diecutting cylinder in a positive or negative rotational direction, wherein the circumference of the diecutting cylinder is greater than the repeat length; a first sensor for sensing the position of the printed designs on the web; a second sensor for sensing the position of the diecutting cylinder; a processor electronically coupled to the first sensor, the second sensor, the infeed station and the diecutter for controlling the infeed station and the diecutter in response to signals received from the sensors, wherein the processor sends a correction signal to the diecutting cylinder in response to signals from the sensors, the processor comprises a first counter for counting the number of consecutive corrections of the diecutting cylinder in the same direction and sending a correction signal to the infeed station when a predetermined number of consecutive corrections of the diecutting cylinder is reached. | ||||||
| 179 | Punch actuator monitoring system and method | US09792011 | 2001-02-23 | US06598505B2 | 2003-07-29 | Donald W. Henderson; Edward F. Helinski |
| A method and apparatus for detecting performance of an apparatus for punching holes in a substrate, ensuring hole quality and/or minimizing or eliminating damage to the films during the hole punching process. | ||||||
| 180 | Producing pressure-sensitively adhesive punched products | US10219513 | 2002-08-15 | US20030136237A1 | 2003-07-24 | Reinhard Storbeck; Marc Husemann; Claus Meyer; Jurgen Sievers |
| A process for producing pressure-sensitively adhesive punched products from backing material coated with pressure sensitive adhesive, wherein said pressure sensitive adhesive is oriented such that it possesses a preferential direction and, the punching process is carried out batchwise. | ||||||
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