| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | Half to ford | US272993D | US272993A | 1883-02-27 | ||
| 222 | Machinery for weaving cane | US243012D | US243012A | 1881-06-14 | ||
| 223 | Wire netting and method for producing a helix for a wire netting | US15876257 | 2018-01-22 | US10058909B2 | 2018-08-28 | Corinna Wendeler-Goeggelmann |
| A wire netting, in particular a safety net, with a plurality of helices which are braided with each other, of which at least one helix is bent from at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, in particular comprises a high-tensile steel, the at least one helix having at least one first leg, at least one second leg as well as at least one bending region connecting the first leg and the second leg to each other, wherein the longitudinal element is bent at least substantially torsion-free in itself along a contour of the first leg and/or of the second leg. | ||||||
| 224 | WIRE NETTING AND METHOD FOR PRODUCING A HELIX FOR A WIRE NETTING | US15876257 | 2018-01-22 | US20180214929A1 | 2018-08-02 | Corinna WENDELER-GOEGGELMANN |
| A wire netting, in particular a safety net, with a plurality of helices which are braided with each other, of which at least one helix is bent from at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, in particular comprises a high-tensile steel, the at least one helix having at least one first leg, at least one second leg as well as at least one bending region connecting the first leg and the second leg to each other, wherein the longitudinal element is bent at least substantially torsion-free in itself along a contour of the first leg and/or of the second leg. | ||||||
| 225 | Wire screenings and a method of forming the same | US14886186 | 2015-10-19 | US10029281B2 | 2018-07-24 | Boyd E. Knepp; Myron Henry Wardell; Jeffery L. Beck |
| A wire screening for classifying material. The screening may include a plurality of interwoven warp and weft wires where the weft wires are individually coated with a coating that expands and collapses to enhance performance and longevity of the screen. The coating of one or more weft wires may differ in at least one characteristic from the coating of one or more other weft wires. The warp wires can be individually coated to enhance performance and/or longevity of the screening. Binding blocks can be used in place of weft wires. The coating of one or more warp wires may differ in at least one characteristic from the coating of one or more other warp wires and/or one or more weft wires. The screening can include a plurality of uncoated weft and warp wires where the crimp depth of each wire forming each opening has a different crimp depth. | ||||||
| 226 | LATTICE STRUCTURE AND A DEVICE AND METHOD FOR PRODUCING SAME | US15737462 | 2016-05-25 | US20180195284A1 | 2018-07-12 | Hans-Peter VON ALLMEN |
| A lattice structure is composed of intersecting longitudinal elements and transverse elements, e.g. wires, strands, ropes, rods and/or profiles, with intersection points allocated to the longitudinal elements and transverse elements.The longitudinal elements and transverse elements, extending in unifold and/or multifold fashion, are connected to one another at least in the intersection points, in particular via twisting, passing into one another and/or knotting with one another. | ||||||
| 227 | WIRE MADE OF HIGH STRENGTH STEEL, PARTICULARLY FOR PROTECTING NETS FOR GEOTECHNICAL USE | US15129546 | 2015-03-31 | US20170121919A1 | 2017-05-04 | Paolo ORGNONI |
| A wire for geotechnical use is described, for making protecting nets, made of high strength steel. The wire is at least partially shaped in a waveform and has a plurality of crests and valleys arranged alternately one to another. A protecting net is also described, usable in the geotechnical field, having a wire at least partially shaped in a waveform for making the mesh, and/or as a reinforcing element of the net. An anchoring device, a guywire and an energy dissipating device are also described, each having a plurality of wires at least partially shaped in a waveform. | ||||||
| 228 | METHOD FOR MANUFACTURING THREE-DIMENSIONAL LATTICE TRUSS STRUCTURE USING FLEXIBLE LINEAR BODIES | US15123780 | 2014-06-17 | US20170014895A1 | 2017-01-19 | Ki Ju KANG; Hyun Ji CHOI; Seung Cheul HAN; Hara KIM |
| A method for manufacturing a three-dimensional lattice truss structure using flexible wires, including: arranging a plurality of out-of-plane wires; forming crossing portions between the plurality of out-of-plane wires; inserting a plurality of in-plane wires in the crossing portions; translating the plurality of in-plane wires in the z-direction; and inserting boundary rods in the y- or x-direction inside the plurality of out-of-plane wire groups. | ||||||
| 229 | Woven wire screening and a method of forming the same | US13946207 | 2013-07-19 | US09486837B2 | 2016-11-08 | Myron Henry Wardell; Arthur Lumsden; Jeffery L. Beck; Boyd E. Knepp |
| A woven wire screening for use in classifying material flowing therethrough and a method of forming the same. The woven wire screening includes a plurality of warp wires and a plurality of weft wires. The plurality of warp wires and the plurality of weft wires are interwoven to form an integral wire cloth having a plurality of openings for permitting material to be classified to flow through the openings. The integral wire cloth includes an upper screening surface configured to enhance the tumbling action of product impacting the upper screening surface to improve throughput of the woven wire screening. | ||||||
| 230 | Method for producing a net, in particular for a basket for pisciculture | US13940420 | 2013-07-12 | US09452467B2 | 2016-09-27 | Jürg Atz; Stephan Wartmann |
| A net is particularly suitable for a basket for pisciculture, which may be placed in sea or fresh water. The net is made of a wire material, producible from individual spiral or similarly bent longitudinal elements, wherein adjacent threads are woven together. The net is simple and economical to produce, for example, by threading each longitudinal element into engagement with another longitudinal element while it has a shape of a spiral or screw to thereby provide it with a cylindrical form, and compressing each longitudinal element, when having the cylindrical form and after being threaded into engagement with the another longitudinal element, to provide the longitudinal element with substantially straight wire sections. The threading and compression steps are repeated to form a net after compression of several longitudinal elements threaded to one another. | ||||||
| 231 | Net, in particular for protection, safety, water-rearing or architectural purposes, and an apparatus for producing the net | US14380303 | 2013-02-22 | US09333553B2 | 2016-05-10 | Stephan Wartmann |
| A net, in particular for protection, safety, water-rearing or architectural purposes, is braided together from individual helically curved longitudinal elements (3) to form a braided structure. Individual longitudinal elements (3) curved into a cylinder or screw shape are twisted one inside the other with adjacent ones and compressed such that the braided structure is in more or less planar sheet-like form and the longitudinal elements (3) here each form more or less rectilinear limbs (8a, 8b; 9a, 9b) and curves (10a, 10b; 11a, 11b) therebetween. The curves (10a, 10b; 11a, 1b) between elongate limbs (8a, 8b; 9a, 9b) are inflected in kink form. This gives a net design with unexpectedly high strength values. | ||||||
| 232 | Optical fiber cable net and method for producing the same | US13865548 | 2013-04-18 | US09002153B2 | 2015-04-07 | Hong Gi Chun |
| The present invention relates to an optical fiber cable net including: one elongated optical fiber cable having a front end portion repeatedly moved upward and downward from the lower end portion of the left side of a bee hive-like section along a line forming the bee hive-like section, the optical fiber cable being wound by a plurality of times onto pre-disposed portions where it meets the pre-disposed portions and being moved upward or downward, so that if the front end portion of the optical fiber cable reaches the lower end portion of the right side of the bee hive-like section, the front end portion of the optical fiber cable is sequentially passed through the respective net eyes of the right side of the bee hive-like section, the respective net eyes of the upper side thereof and the respective net eyes of the left side thereof. | ||||||
| 233 | WOVEN WIRE SCREENING AND A METHOD OF FORMING THE SAME | US13946207 | 2013-07-19 | US20150021240A1 | 2015-01-22 | Myron Henry Wardell; Arthur Lumsden; Jeffery L. Beck; Boyd E. Knepp |
| A woven wire screening for use in classifying material flowing therethrough and a method of forming the same. The woven wire screening includes a plurality of warp wires and a plurality of weft wires. The plurality of warp wires and the plurality of weft wires are interwoven to form an integral wire cloth having a plurality of openings for permitting material to be classified to flow through the openings. The integral wire cloth includes an upper screening surface configured to enhance the tumbling action of product impacting the upper screening surface to improve throughput of the woven wire screening. | ||||||
| 234 | AQUACULTURE NET WITH ISOTROPIC BOTTOM MESH | US14351031 | 2012-09-27 | US20140251226A1 | 2014-09-11 | Alejandro Suazo Luengo |
| Aquaculture net (30) having a bottom net (31) and side walls (32), said bottom net (31) configured of four or more mesh parts (34) of a chain link fence, said chain link fence comprising a wire direction (33) and a flexible direction, wherein the wire direction of each mesh part (34) is perpendicular to the outer side (36) of said mesh part, said outer side corresponding to the circumference of said bottom net, and wherein the outer sides of said mesh parts are knotted. The invention also provides a method for manufacturing such an aquaculture net. | ||||||
| 235 | SAFETY NET | US13783957 | 2013-03-04 | US20130251461A1 | 2013-09-26 | Marcel FULDE |
| A method for producing a safety net, to a safety net, and to the use of such a safety net for protection from avalanches, falling rock or timber, mudslides, earth flows, or for slope protection. In the inventive method, firstly at least a first net element and at least a second net element are individually produced, self-contained, from respectively at least one rope, and are arranged parallel to each other and at a distance apart in a longitudinal direction of the safety net to be formed. Then the two net elements are connected to each other with the aid of at least one connecting rope, wherein the connecting rope is guided between the first and the second net element such that a self-contained connecting net element is obtained. | ||||||
| 236 | Apparatus and method for making an improved chain link fabric | US11131771 | 2005-05-17 | US07493924B2 | 2009-02-24 | Jose G. Garcia; Scott C. Barsotti |
| An apparatus for processing chain link fabric including a welding assembly and/or a compressing assembly. The welding assembly is configured to weld together wire-end portions of the chain link fabric. The welding assembly includes a guiding assembly having a finger and a cam, which are configured to restrict the movement of the wire-end portions while the welding assembly welds them together. The finger and the cam are configured to move relative to the wire-end portions both before and after the wire-end portions are welded together. The compressing assembly is configured to compress the wire-end portions after they are welded together. The compressing assembly includes a stabilizing assembly having a stabilizing die, which is configured to interface with the chain link fabric and to restrict the movement of the welded wire-end portions while the compressing assembly compresses the welded wire-end portions. | ||||||
| 237 | Method, An Apparatus and A Means For Making A Reinforcement Mesh | US11815998 | 2006-02-17 | US20080276564A1 | 2008-11-13 | Kurt Offersen; Claus Brask |
| Production of a reinforcement mesh comprising reinforcement bars (3), which are tied together by means of twisted wires (1, 2), may take place according to the invention by a method wherein two wires (1, 2) are rolled up on their respective wire coils (4, 5), which are mounted opposite each other on a rotatable shaft (12), and wherein each of the wires is guided by a wire guide element (6) downwards in a direction toward the common twisting point of the wires (1, 2). Meshes of surface-treated, coated, wires and bars may be made in this manner, there being no external impact that can damage the surface. | ||||||
| 238 | WIRE FABRIC LATHS | US11955211 | 2007-12-12 | US20080148680A1 | 2008-06-26 | Howard W. Jaenson; Robert E. Actis; Bradley P. Actis |
| Furred woven wire fabric lathing is provided which incorporates a plurality of wires twisted together forming a wire mesh with a major portion of the wire in a plane with a portion of the mesh comprising furr portions extending out of the plane of the mesh and configured for embedment in plaster upon application of plaster to the wire mesh. | ||||||
| 239 | Woven fabric comprising leno weave bound metal | US11400796 | 2006-04-10 | US07341076B2 | 2008-03-11 | Geert Braekevelt; Jeroen Gallens; Lode Puype |
| A woven fabric in which warp elements are provided out of metal. The fabric further comprising at least a first set of substantially parallel binding elements present in warp direction of the fabric. This first set of binding elements bind the warp elements to the weft elements by means of a leon weave at at least a part of the intersection points of warp and weft elements. The fabric as subject of the invention is characterized in that each binding element of the first set of binding elements crosses more than one warp element between consecutive intersection points bound by this binding element. | ||||||
| 240 | Woven fabric comprising leno weave bound metal | US11400796 | 2006-04-10 | US20070235595A1 | 2007-10-11 | Geert Braekevelt; Jeroen Gallens; Lode Puype |
| A woven fabric in which warp elements are provided out of metal. The fabric further comprising at least a first set of substantially parallel binding elements present in warp direction of the fabric. This first set of binding elements bind the warp elements to the weft elements by means of a leno weave at at least a part of the intersection points of warp and weft elements. The fabric as subject of the invention is characterized in that each binding element of the first set of binding elements crosses more than one warp element between consecutive intersection points bound by this binding element. | ||||||
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