181 |
Lead pin rectifying apparatus and lead pin rectifying method |
US13586539 |
2012-08-15 |
US09352381B2 |
2016-05-31 |
Fumikata Andoh |
A lead pin rectifying apparatus is provided, including a first member which includes a tapered upper face and a cylindrically-shaped side face; a cylindrically-shaped second member which has an inner diameter corresponding to an outer diameter of the first member, wherein the second member covers over the first member therewith while an electronic component having the lead pin is housed inside the second member; and a pressing member which presses the electronic component to the first member from the top side of the second member while housing the electronic component having the lead pin inside the second member to abut the lead pin against an upper face of the first member, wherein the second member is pressed to the first member after pressing the electronic component to the first member with the pressing member to rectify the shape of the lead pin of the electronic component. |
182 |
COIL END SHAPING APPARATUS AND METHOD |
US14408258 |
2013-03-27 |
US20150171716A1 |
2015-06-18 |
Daichi Kurashige; Shingo Hashimoto; Hiroyuki Tanaka; Takanori Ota; Osamu Nakagawa; Daisuke Matsuo; Hirotaka Kawaura; Hiroharu Sugiura; Norihiko Akao |
A coil end shaping apparatus shapes a plurality of edgewise bent portions that are bent in the edgewise direction in a lead wire portion extending from one end of a coil, and includes first and second shaping dies capable of approaching each other to shape the edgewise bent portions provided on the base end side with respect to the edgewise bent portion e4 that is the closest to the free end side among the plurality of edgewise bent portions, and a third shaping die capable of cooperating with the second shaping die to shape the edgewise bent portion that is the closest to the free end side. |
183 |
Method of manufacturing a woodworker's holdfast |
US11502113 |
2006-08-10 |
US20070062242A1 |
2007-03-22 |
Joel Moskowitz; Richard Lombardi; George Nick |
A semi-automated method for manufacturing a woodworker's holdfast tool from an unheated length of mild steel rod includes forging a flattened contact surface at one end of the rod and subsequently bending the rod upwardly away from the contact surface and forming the crook portion in an automated wire forming machine configured to exceed the desired working angle during cold forming of the crook portion to account for the resilience of the rod when the bending force is removed. |
184 |
Method and apparatus for making hollow seamless links for use in jewelry |
US455192 |
1995-05-31 |
US6105357A |
2000-08-22 |
Eitan Weinberg |
Method and apparatus for making hollow links or rings and for making chain made from hollow links by receiving seamless wire which has an inner core and an exterior surface, for example, a gold alloy surface, making a perforation in the wire so as to expose the inner core at the perforation, and forming the wire into an open or closed link such that the perforation is located on a hidden portion of the link. The inner core may then be removed from the open or closed link by dissolving it in acid, wherein the acid contacts the inner core at the perforation thus allowing the acid to dissolve the inner core. A chain may be made by coupling each link with at least one preceding link to produce the chain. |
185 |
Apparatus for bending and holding wire for wire end processing |
US98029 |
1993-07-28 |
US5327628A |
1994-07-12 |
Teruyuki Gouda; Toshihiro Inoue |
A wire guide member is formed with a U-shaped curved guide surface along which a recessed wire guide groove is formed. A wire supplying device is disposed an appropriate distance away from one end of the wire guide groove, and a wire end stopper is disposed another appropriate distance away from the other end of the wire guide groove, respectively. Two wire push-in plates are interposed between the wire guide member and the wire supplying device and between the wire guide member and the wire end stopper, respectively so as to be movable up and down. Further, a wire holding member for clipping the bent wire is arranged at a position lower than the wire travel line determined by the wire supplying device and the wire guide groove, so as to be movable in a direction perpendicular to the wire feed direction. Therefore, the bent wire held by the wire holding member can be shifted to the succeeding process, without moving the wire guide member for bending the wire into U-shape, thus realizing a wire bending and holding apparatus simple in structure and small in size and dimension. |
186 |
Prickle chain device and method of production thereof |
US247932 |
1988-09-22 |
US4893463A |
1990-01-16 |
Lyell J. Woolford |
A prickle chain wherein each link has two side portions which are joined at one end by a curved bridge portion, the side portions terminating in respective outwardly projecting ends which cross each other and extend in opposite directions, the projections being the "prickles" of the chain. Each link is formed by engaging opposite ends of a straight rod in respective brackets which are pivoted by hydraulic piston/cylinder assemblies firstly to form the rod to a "U" shape, and then cause the ends to cross each other and project outwardly in opposite directions. |
187 |
Turret press |
US47368765 |
1965-07-21 |
US3364712A |
1968-01-23 |
PRUTTON DANIEL H |
|
188 |
Cut-off means in wire or strip forming machine |
US42929265 |
1965-02-01 |
US3315512A |
1967-04-25 |
MACIOROWSKI HENRY W |
|
189 |
Wire forming machine |
US28038163 |
1963-05-14 |
US3215168A |
1965-11-02 |
WALTER DIAN; HOFBAUER JOHN J |
|
190 |
Machine for producing roof patching rods |
US14091661 |
1961-09-26 |
US3172449A |
1965-03-09 |
STANTON WILLIAM A |
|
191 |
Wire shaping machine |
US39101653 |
1953-11-09 |
US2873768A |
1959-02-17 |
BRONSTIEN JR EDWARD L; FISHER RICHARD A |
|
192 |
Bending machine to form wire articles containing an offset |
US61985456 |
1956-11-01 |
US2869612A |
1959-01-20 |
BERTRAM JOHN C |
|
193 |
Apparatus adapted for the bending of wire strip material and the like |
US59323856 |
1956-06-22 |
US2869591A |
1959-01-20 |
SAM LARKIN |
|
194 |
Apparatus for making wire-cutting guides |
US67903046 |
1946-06-24 |
US2485495A |
1949-10-18 |
KENNEY THOMAS F; ARTHUR BELLAVANCE |
|
195 |
Wire machine |
US19623127 |
1927-06-03 |
US1729773A |
1929-10-01 |
FRENETTE HARRY E |
|
196 |
Wire bend fixture |
US14410668 |
2013-06-26 |
US09731338B2 |
2017-08-15 |
Lou Guzzo |
A wire bending apparatus and a method for bending a wire and creating a loop in the wire is provided. The wire bending apparatus includes an anvil block that is connectable to a wire bending portion and connectable to a loop bending portion, such that the wire bending portion and the loop bending portion are rotatable. The anvil block includes a gap for holding a wire and the wire bending portion includes a groove for positioning the wire to be parallel to the direction of the wire when the wire bending portion is connected to the anvil block and rotated to form the bend in the wire. The loop bending portion includes a channel for engaging the wire when the loop bending portion is connected to the anvil block and rotated to form a loop in the wire. |
197 |
SELF-FURRING WELDED WIRE MESH |
US14879031 |
2015-10-08 |
US20160030997A1 |
2016-02-04 |
Stephen F. Ogden; Craig A. Davis |
A self-furring welded wire mesh for reinforcing generally planar concrete and stucco structures is formed of a matrix of longitudinally and transversely extending wires disposed about a first common plane and welded together at their intersections. A selected plurality of the longitudinally extending wires each define a plurality of generally V-shaped spacing furrs therein extending generally perpendicular to the first plane with the bottoms of the furrs being disposed in a second plane spaced from the first plane a distance substantially equal to one-half of the predetermined thickness of the concrete panel. The spacing furrs in the selected longitudinally extending wires are located so as to be longitudinally and transversely staggered along the mesh. The spacing furrs are formed by pushing portions of the selected longitudinal wire perpendicular to the axis of the wires while holding an upstream portion thereof in a fixed disposition so as to form these without damaging or thinning the wires along the spacing furrs. |
198 |
Self-furring welded wire mesh |
US14155221 |
2014-01-14 |
US09187901B2 |
2015-11-17 |
Stephen F. Ogden; Craig A. Davis |
A welded wire mesh for reinforcing generally planar concrete and stucco structures. The mesh is formed of a matrix of longitudinal and transverse wires disposed about a first common plane and welded together at their intersections. A selected plurality of the longitudinal wires define a plurality of generally V-shaped spacing furrs therein extending generally perpendicular to the first plane with the bottoms of the furrs being disposed in a second plane spaced from the first plane a distance substantially equal to one-half of the predetermined thickness of the panel. The spacing furrs are positioned so as to be longitudinally and transversely staggered along the mesh and are formed by pushing portions of the selected longitudinal wires perpendicular to the axes of the wires while holding upstream portions thereof in a fixed disposition so as to form the furrs without thinning and weakening the wires along the spacing furrs. |
199 |
SELF-FURRING WELDED WIRE MESH |
US14155221 |
2014-01-14 |
US20150197939A1 |
2015-07-16 |
Stephen F. Ogden; Craig A. Davis |
A welded wire mesh for reinforcing generally planar concrete and stucco structures. The mesh is formed of a matrix of longitudinal and transverse wires disposed about a first common plane and welded together at their intersections. A selected plurality of the longitudinal wires define a plurality of generally V-shaped spacing furrs therein extending generally perpendicular to the first plane with the bottoms of the furrs being disposed in a second plane spaced from the first plane a distance substantially equal to one-half of the predetermined thickness of the panel. The spacing furrs are positioned so as to be longitudinally and transversely staggered along the mesh and are formed by pushing portions of the selected longitudinal wires perpendicular to the axes of the wires while holding upstream portions thereof in a fixed disposition so as to form the furrs without thinning and weakening the wires along the spacing furrs. |
200 |
Jewelry link forming apparatus |
US10662027 |
2003-09-12 |
US20040055269A1 |
2004-03-25 |
Kalman
Strobel; Stanley
Szurlej |
A jewelry link made from square crossectional metal wire has a C-shape when the link is bent within a specially configured clamp over a smooth, uncut mandrel, wherein the formed C-shaped links are diamond shaped in cross section. The links further have an outer circumference at their widest point formed by one of the four corner seams of a hollow or solid square wire, which is rotated 45 degrees onto one of its straight longitudinally extending edges before being bent around a smooth mandrel. In that manner, the link is considerably wider than a link formed from square wire which is wrapped upon one of its surfaces over a mandrel. |