121 |
Spacer for fence line-wires. |
US1910589797 |
1910-10-29 |
US985993A |
1911-03-07 |
GAMBREL WALTER CALVIN |
|
122 |
Wire-netting stretcher. |
US1909471684 |
1909-01-11 |
US936600A |
1909-10-12 |
BYRNES HENRY J |
|
123 |
Wire-fence machine. |
US1902096991 |
1902-03-06 |
US703804A |
1902-07-01 |
MISHLER PHARES M |
|
124 |
Wire-fence device. |
US1899713987 |
1899-04-21 |
US630653A |
1899-08-08 |
BURNHAM CORNELIUS A |
|
125 |
Wire fence building |
US610489D |
|
US610489A |
1898-09-06 |
|
|
126 |
Wire-fence spacer |
US609523D |
|
US609523A |
1898-08-23 |
|
|
127 |
Tool for making fences |
US606821D |
|
US606821A |
1898-07-05 |
|
|
128 |
Wire-fence machine |
US606120D |
|
US606120A |
1898-06-21 |
|
|
129 |
Device foe |
US588065D |
|
US588065A |
1897-08-10 |
|
|
130 |
Hand-machine for |
US552037D |
|
US552037A |
1895-12-24 |
|
|
131 |
Wire-fence machine |
US519603D |
|
US519603A |
1894-05-08 |
|
|
132 |
Fence-building mechanism |
US414444D |
|
US414444A |
1889-11-05 |
|
|
133 |
Thomas midgley |
US386336D |
|
US386336A |
1888-07-17 |
|
|
134 |
Fence-machine |
US374497D |
|
US374497A |
1887-12-06 |
|
|
135 |
Improvement in machinery for making wire sieves |
US55411D |
|
US55411A |
1866-06-05 |
|
|
136 |
Method and Apparatus For Creating Stacks of Nested Sinuous Springs |
US11969486 |
2008-01-04 |
US20090173125A1 |
2009-07-09 |
Kelly M. Knewtson |
A method and apparatus is disclosed for simultaneously creating a pair of stacks of nested sinuous springs wherein each spring comprises a discrete length of sinuous spring wire having parallel bar wire segments interconnected at their opposite ends by oppositely directed connecting segments. This apparatus includes first and second generally circular forming drums onto which a feeder mechanism is operable to sequentially and alternately pass each of the strips from over a forming mandrel onto the top surface of the first and second generally circular forming drums. A first stripper mechanism is then operable to strip a first one of the arcuate configured strips from over a first one of the forming drums and onto a top surface of a first stacking drum and for stripping a second following one of the arcuate configured strips from over the second forming drum onto a top surface of a second stacking drum. The stripper mechanism is then operable to sequentially and alternately strip following arcuate configured strips from the forming drums onto the first and second stacking drums and over the top of the preceding strips of the stacking drums to create a plurality of arcuately configured springs located on the first and second stacking drums. A second stripper mechanism is then operable after a predetermined number of arcuate strips have been stacked onto each of the first and second stacking drums to strip those stacks from the stacking drums onto a pair of first and second discharge chutes. |
137 |
Method for producing latticed structures and device for carrying out said method |
US10494489 |
2002-06-19 |
US20050000945A1 |
2005-01-06 |
Vladimir Muraviov; Jury Muraviov; Igor Ovchinnikov |
A method of producing grate structures includes forming of a workpiece from elements placed tightly parallel against one another (rods, windings of a spiral or closed rings), their arc winding in a protective atmosphere with seams of a predetermined length locally in predetermined points that determine a character of a pattern of a grate and a strength of connections of elements; a subsequent stretching with a required coefficient. It is possible before stretching to bend the welded wire in a direction which is perpendicular to the placed rods, for example, by rolling and after the stretching to bend the place for obtaining a surface with a double curvature. During stretching it is possible to use auxiliary elements which limit a coefficient of stretching in predetermined regions of the structure for obtaining grate structures of a complicated shape. The device is proposed for automatically producing of flat and volume workpieces of different types of grate structures (FIG. 15) fences, poles, and other small arcitectural forms. The proposed device allows to obtain products in a wound form, which reduces required manufacturing areas, facilitates storage, transportation and allows to irreversibly wind out the structure on situ without a preliminary checking of sizes. The proposed invention allows to exclude the use of transverse connecting elements. |
138 |
Nonwoven metal fabric and method of making same |
US08606060 |
1996-02-23 |
US06249941B1 |
2001-06-26 |
Alexander Krupnik; Terrence P. Kane; Kurt H. Schild |
A nonwoven, metal fabric is formed by providing a mass of loose fibers with sufficient lubricating oil for them to be carded without disintegration of the fiber web. The fiber web is then lapped and needled to form a metal fabric of superior strength, density, and thermal insulation properties. |
139 |
Wire mesh straightening method and apparatus |
US555652 |
1990-07-20 |
US5009545A |
1991-04-23 |
Darold D. Coleman; Raymond P. Nesseth |
An improved automated wire mesh straightening apparatus is described. Wheels, casters and a jack enable ease of mobility, jockeying and leveling respectively of the apparatus at a construction site. Hydraulic operation of moving parts provides general fail-safe operation of the apparatus which is also otherwise designed with operator safety in mind. Rolled wire mesh is automatically straightened by a unique application of drive, nip and reaction forces that can be rapidly adjusted to completely straighten wire mesh of varying gauge and under varied environmental conditions. |
140 |
Method of producing wire mesh |
US619950 |
1975-10-06 |
US4023600A |
1977-05-17 |
Gerhard Ritter; Klaus Ritter |
The invention relates to a method of producing wire mesh having relatively high elongation values and high pliability wherein the wire is not annealed until after having been welded up into the mesh. |