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 |
|---|---|---|---|---|---|---|
| 101 | Device for winding wire spiral | JP18129081 | 1981-11-13 | JPS57107368A | 1982-07-03 | PAURU FUABURITSUHI |
| 102 | Wire binder molding device | JP10348779 | 1979-08-14 | JPS5527500A | 1980-02-27 | ERUNSUTO FUATSUFURU |
| 103 | BASKET HANGER | US16299097 | 2019-03-11 | US20190200786A1 | 2019-07-04 | Brad Johnson |
| A basket hanger attached to a basket. The basket hanger having a hook with a plurality of spring steel wires strands extending from the hook, the spring steel wire strands having a substantially straight downwardly extending portion terminated at a distal end in a clip. Each clip positionable between an open position and a clipped position. In the clipped position, an upwardly extending leg of each of the clips extends through an opening in the peripheral flange of the basket such that the peripheral flange is received in an upward first bend of each of the clips, and a second bend of each of the clips engages a back side of the substantially straight downwardly extending portion such that a short dogleg partially wraps around the substantially straight downwardly extending portion. | ||||||
| 104 | METRIC SELF-TAPPING LOCKING SCREW AND THE MANUFACTURING METHOD THEREOF | US15587436 | 2017-05-05 | US20180223889A1 | 2018-08-09 | Qinfeng Yi; Huiying Wang; Xin'an Li |
| A metric self-tapping locking screw comprises a screw head which is connected to a thread locking body by a screw rod. The thread locking body and the self-tapping tip are provided with a screw thread on the surface. The self-tapping tip is arranged at the root of the thread locking body; the screw thread adopts the basic structure of the standard ordinary triangular thread. The flank angle back to the fastened surface is 15-20° and the flank angle of the screw thread facing the fastened surface is 30°. The metric self-tapping locking screw in the Invention make the installed parts to be fastened have higher axial clamping force and static loosing moment, which solves the attenuation problem of axial clamping force and static moment of fastened parts. | ||||||
| 105 | Enhanced multipurpose twist tie and method of fabrication and operation | US14919651 | 2015-10-21 | US09999915B2 | 2018-06-19 | Kevin Clark |
| An enhanced multipurpose twist tie is formed with two helically disposed wires encased in a sheath having a polygon shaped cross section, a longitudinal ridges, and detachable end caps. The wires are defined by a longitudinal length and a pair of wire termini. The wires intertwine in a helical configuration along the length of the sheath. The helical configuration compresses the wires together and also allows for a greater concentration of wire to be fit into the sheath. The sheath is defined by an outer face having a plurality of longitudinal ridges that extend along the length of the sheath to provide a grip for facilitated twisting and tying of the twist tie. An inner face has a polygon shaped cross section that restricts longitudinal and rotational slippage by the wires. The end caps detachably attach at sheath termini to form a smooth surface over wire termini. | ||||||
| 106 | Steel wire for bolt, bolt, and manufacturing processes therefor | US14349800 | 2012-10-01 | US09835194B2 | 2017-12-05 | Masamichi Chiba; Yousuke Matsumoto; Ichiro Sugita; Masaru Tanimoto |
| A steel wire for high-strength bolts is used for a non heat-treatment bolt with an excellent cold forgeability for which quenching and tempering steps have been omitted after bolt formation, and which has a tensile strength of 1200 MPa or more and an excellent delayed fracture resistance. The steel wire includes C, Si, Mn, P, S, Cr, Al, N, and B, at least one selected from the group consisting of Ti, V, and Nb with the balance consisting of iron and inevitable impurities. The steel wire has a microstructure wherein ferrite and perlite have a total area rate of 98% or more, perlite lamellar spacing is 250 nm or less, and an area rate of the perlite is more than 40%, and 80% or less. The steel wire has a tensile strength of 1300 MPa or less. | ||||||
| 107 | Basket Hanger | US14167606 | 2014-01-29 | US20140208568A1 | 2014-07-31 | Brad Johnson |
| A basket hanger a method of forming a hook for the basket hanger and a method of attaching the basket hanger to a basket. The basket hanger having a hook with a plurality of steel wires strands attached at a proximal end to the hook, the steel wire strands having a substantially straight downwardly extending portion terminated at a distal end in a clip with an upwardly extending leg, the upwardly extending leg canted to one side and having a dogleg. The steel wire strands may be spring steel. | ||||||
| 108 | Method of making wire support | US12455849 | 2009-06-08 | US08429944B2 | 2013-04-30 | John Kevin Liles |
| A wire support and a method of making is disclosed for supporting an object from a base surface. The wire support comprises a plurality of wires with each of the wires having a lower section, an intermediate section and an upper section. The plurality of wires are twisted along the intermediate sections for providing an upright support. The lower sections of the plurality of wires extend outwardly from the upright support for insertion into the base surface to mount the wire support. The upper section of the plurality of wires extends outwardly from the upright support for engaging with the object to support the object relative to the base surface. | ||||||
| 109 | MEANS FOR CLOSING A BAG HAVING A DEGRADABLE, BIODEGRADABLE AND/OR COMPOSTABLE COATING | US12988569 | 2009-04-20 | US20110038565A1 | 2011-02-17 | André Grob; Peter Poelman; Alain Leplae |
| The application relates to a means for closing a bag, in particular a bag made of bio plastics. The means for closing a bag comprises at least one wire covered at least partially with a coating of a bio plastics. The coating is a closed coating offering the wire corrosion protection when exposed at normal ambient conditions during storage or use of the means and the coating being degradable, biodegradable or compostable once the means is exposed to an environment suitable for decomposition. | ||||||
| 110 | BOOKBINDING WIRE OR PAPERCLIP WIRE WITH DEGRADABLE, BIODEGRADABLE AND/OR COMPOSTABLE COATING | US12988594 | 2009-04-20 | US20110033727A1 | 2011-02-10 | André Grob; Peter Poelman; Alain Leplae |
| This application relates to the use of a wire comprising a coating of a bio plastics material as a bookbinding wire or paperclip. The coating is a closed coating offering the wire a good corrosion protection when exposed at normal ambient conditions during use as bookbinding wire or as paperclip and the coating is degradable, biodegradable or compostable once said wire is exposed to an environment suitable for decomposition of said coating. More particularly, the application relates to the use of and to a bookbinding wire and paperclip with a PLA coating. The application further relates to a method for recycling said bookbinding wires and paperclips. | ||||||
| 111 | Wire support and method of making | US12455849 | 2009-06-08 | US20100307631A1 | 2010-12-09 | John Kevin Liles |
| A wire support and a method of making is disclosed for supporting an object from a base surface. The wire support comprises a plurality of wires with each of the wires having a lower section, an intermediate section and an upper section. The plurality of wires are twisted along the intermediate sections for providing an upright support. The lower sections of the plurality of wires extend outwardly from the upright support for insertion into the base surface to mount the wire support. The upper section of the plurality of wires extends outwardly from the upright support for engaging with the object to support the object relative to the base surface. | ||||||
| 112 | Wire mesh heat shield isolator | US11098822 | 2005-04-05 | US07784585B2 | 2010-08-31 | George Greenwood |
| A substrate such as a heat shield for a vehicle is provided with a unitary compressed wire mesh bushing or isolator formed in place though a bore in the substrate. The bushing is formed by supporting an uncompressed or partially compressed wire mesh sleeve, optionally including a grommet or spacer, on a mandrel positioned within the bore; the mandrel is surrounded on either side of the bore by outer sleeves forming a molding cavity on each side of the substrate, and a slidable tamp is disposed in each outer sleeve and moved towards each other to compress the mesh within the bore and provide the unitary bushing. | ||||||
| 113 | CRIMPER FOR BINDING COIL | US11872681 | 2007-10-15 | US20080142110A1 | 2008-06-19 | THOMAS E. HOLDER |
| A crimper for spiral-binding coil comprises at least one, and preferably multiple, crimping assemblies including crimping elements that move generally parallel to each other to preferably cut, bend and/or reform an end of the coil for retaining the coil in the book or pamphlet. The movement of the crimping elements may be rotational in parallel planes, or translational in parallel lines. Preferably, multiple sets of crimping elements may be interchanged easily and without tools, for example, by being located on rotating members and are circumferentially spaced apart so that one set is used at a time. For each diameter of coil filament within the range of coil diameters for which a particular crimping set is designed, a member of the crimping assembly is adjusted to change the size/dimension(s) of the space into which the newly-cut end of the coil is forced, preferably adjusting that space to be slightly smaller than the diameter of the coil filament. This way, a bending member forces the newly-cut coil end against a bracing member and into the smaller space, and, in doing so, preferably heats, stretches, and generally reforms the end into a new crimped end that stays in that position over the use of the book. | ||||||
| 114 | Wire mesh heat shield isolator | US11098822 | 2005-04-05 | US20060219860A1 | 2006-10-05 | George Greenwood |
| A substrate such as a heat shield for a vehicle is provided with a unitary compressed wire mesh bushing or isolator formed in place though a bore in the substrate. The bushing is formed by supporting an uncompressed or partially compressed wire mesh sleeve, optionally including a grommet or spacer, on a mandrel positioned within the bore; the mandrel is surrounded on either side of the bore by outer sleeves forming a molding cavity on each side of the substrate, and a slidable tamp is disposed in each outer sleeve and moved towards each other to compress the mesh within the bore and provide the unitary bushing. | ||||||
| 115 | Wire comb binding element method and device | US10443521 | 2003-05-22 | US20040052615A1 | 2004-03-18 | Ferdinand Fuchs; Hartmut Reusch; Fritz Witte; Hans-Peter Wurschum |
| The invention relates to a methods and devices for bending wire binding elements that are used in a wire comb binding. According to various aspects of the invention, methods and devices are provided for bending wire binding elements that are adapted in particular to varying thicknesses of stacks of sheet-form printing materials, preferably without retooling. | ||||||
| 116 | Method of manufacturing connecting devices | US10344387 | 2003-05-06 | US20040035177A1 | 2004-02-26 | William Henry Ollis |
| The invention relates to a method of manufacturing a connecting device having common axial core material and a plurality of helical fins, flanges or ridges that extend outwards from the core. The method uses an elongate preform member, and comprises forcing the preform member in the axial direction of its core through a helical deformation arrangement (22) in order to deform the preform member helically. | ||||||
| 117 | Wire feed device | US10079690 | 2002-02-20 | US20020139159A1 | 2002-10-03 | Bruno Munster |
| The present invention provides a wire feed device for guiding and straightening a wire which is comprised of a wire infeed unit and a self-cleaning deflection head which are connected together by a flexible guide hose. The wire infeed unit has a guide passage therethrough whose inlet and outlet are offset so the wire will remain in contact with a contact element within the passage to generate a signal when the wire is in the passage. The deflection head has a guide arc-shaped guide passage therethrough which, in turn, have outwardly radiating pockets spaced along the outer side thereof which remove debris (e.g. the material abraded from the wire and wire shavings) transport it out of the deflection head. Dimpled guide points are formed on the other side of the arc-shaped guide passage opposite the pockets to facilitate the self-cleaning of the wire. A wire straightening sleeve is positioned downstream of the deflection head, which can generate a control/monitoring signal is positioned downstream of the head. | ||||||
| 118 | Slotted clip and method | US39079 | 1998-03-10 | US6044530A | 2000-04-04 | David Room; Matthew Graszer; Paul Lackler |
| A clip and collected assembly thereof are provided and including a method of forming the clip and clip assembly. The clip is formed with at least one slot that has at least one projection for keeping a resilient cord press fit in the slot therein against forces tending to shift it out therefrom. Preferably, two parallel slots are provided for receiving two cords therein with there being two opposing projections extending into the slot opening from either side of the slot. The slot projections provide an attendant manufacturing benefit as the punches of the die press apparatus that punch slugs from the blank fed thereto will not suffer from slug pulling problems because of the presence of corresponding projections extending into the die cavity openings from either side thereof. In addition, while the clearances between the projection of the die cavity and the punches are at normal tight tolerances, the clearance between the cavity sides and ends and the punches are oversized so that burrs are formed on the corresponding clip slot sides and ends for gripping the cord and providing additional resistance to shifting in the slot. Improved configurations for the cords are also provided to meet the tolerances required for the press fit in the slots and to be readily severed by an application tool. Special shapes for the slot ends can be provided so that as the cords are press fit therein, areas of weakness will be created in the cords to assist in the severing thereof. Preferred cord materials include those that will not bead when run through spring tempering heat treat ovens, such as nylon and PBT. | ||||||
| 119 | Severing continuous-length wire | US762542 | 1991-09-18 | US5207084A | 1993-05-04 | H. William West; Millard F. Vannoy, Jr. |
| Continuous length wire is segmented into predetermined lengths having desired die-coined configurations at severed longitudinal ends in a wire-working machine of the invention. In a single step operation, such wire is simultaneously die-coined and severed to form a longitudinally contiguous pair of wire ends in order to produce such predetermined lengths with desired tapered convex shapes at each longitudinal end ready for use as shaped and severed so as to eliminate subsequent metal-forming steps and certain problems associated with severing practices of the prior art. In a specific embodiment of the fabrication process, coiled wire is straightened and then simultaneously die-coined and severed to form rigid rods with tapered end configurations which facilitate use as a connecting rod during assembly operations, e.g. in the assembly of a metal wire belt. The application also discloses specific embodiments of dies for such process, methods of producing such dies, and die-drive apparatus for moving such dies together for such single step operation and then apart for a subsequent operation. | ||||||
| 120 | Pre-assembled, two-part merchandise display hook | US513568 | 1990-04-24 | US5035388A | 1991-07-30 | Thomas O. Nagel |
| An improved two-part merchandise display hook is disclosed, including new design features of the hook enabling two-part hooks to be manufactured and assembled at extremely low cost. The construction of the hook and its base is such that wire from a continuous length can be gripped and bent to form the outer portion of the hook. The wire can then be severed and bent in a single operation to form a hook-mounting portion. While the severed wire remains gripped by its shaped outer end, a preoriented and guided base member, constructed and configured according to the invention, is applied over the just-formed mounting portion of the wire. A retractable bend-forming member is withdrawn before the base member is applied to the wire, to enable the bent portion of the wire hook to be fully received within the plastic base. Major manufacturing economies are realized. | ||||||
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