The present invention relates to an apparatus for manufacturing reinforcement meshes and spinning stations therefor. Reinforcement rods to be joined with the spinning wires are supplied by advancing means from the rear end of the apparatus, and a special mechanism prevents that the wire breaks during its encounter with the reinforcement rod.

A chain link fence with retained slats including a chain link fence with two or more slats inserted into the fence, each slat haVing two opposing apertures bounding an internal channel and at least one band disposed through the internal channels so as to retain the slats within the chain link fence. Apertures may form cutouts in the slats. The band is flexible and inserted into the chain link fence before installation. The entire system is configured to be rolled and unrolled. A method of making the chain link fence with retained slats is also provided.

A chain link fence with retained slats including a chain link fence with two or more slats inserted into the fence, each slat haVing two opposing apertures bounding an internal channel and at least one band disposed through the internal channels so as to retain the slats within the chain link fence. Apertures may form cutouts in the slats. The band is flexible and inserted into the chain link fence before installation. The entire system is configured to be rolled and unrolled. A method of making the chain link fence with retained slats is also provided.

A chain link fence with retained slats having slats inserted into the chain link fence and running between the top of the fence and the bottom of the fence. At least one band (which band may, itself, be a single elongate element or a combination of elongate elements) runs transversely across the interior of each such slat through an internal passage. Each band and each slat is inserted into said chain link fence before installation of said chain link fence. Preferably, when viewed looking at the face of the band, each band is tapered, as also is each band when viewed looking at the side of such band. At least one external opening of each internal passage is beveled, and at least one external opening of each internal passage has a concave shape when seen in a plan view looking at the face of each said slat.

A chain link fence with retained slats having slats inserted into the chain link fence and running between the top of the fence and the bottom of the fence. At least one band (which band may, itself, be a single elongate element or a combination of elongate elements) runs transversely across the interior of each such slat through an internal passage. Each band and each slat is inserted into said chain link fence before installation of said chain link fence. Preferably, when viewed looking at the face of the band, each band is tapered, as also is each band when viewed looking at the side of such band. At least one external opening of each internal passage is beveled, and at least one external opening of each internal passage has a concave shape when seen in a plan view looking at the face of each said slat.

A tensioned barrier, comprising a chain link or mesh fence providing a secure perimeter, is provided. The fence is tensioned by grabbing and holding one end of the mesh link, wrapping the mesh around a perimeter of the fence poles, including wrapping the mesh around the outside of corner poles, pulling the mesh at its distal end to create a tension in the mesh and then grabbing the distal end of the mesh and securing it to the final fence pole. The fence is created using a high strength small weave mesh that resists cutting and climbing. In one embodiment the fence is created adjacent a structure, using the structure as an element of the barrier. In another embodiment, a fully fenced area is created by placing the first fence pole at a small distance apart from the final fence pole, with the other poles forming a perimeter, and tensioning and wrapping the mesh around all of the poles, affixing the ends of the mesh to the first and final poles and providing a gate or door between the first and final poles.

A chain link fence and a method of manufacturing an improved selvage therefore that provides no exposed ends of wires. The chain link fence of the present invention is manufactured from a plurality of wires coupled in a woven format so as to form loops. The chain link fence includes slats woven through the plurality of loops so as to provide privacy subsequent installation. The chain link fence manufacturing method provides for an improved selvage at the top and bottom thereof wherein the selvage has no exposed ends and as such eliminating the deficiencies of traditional selvages. The method of the present invention includes providing a plurality of bends to the exposed ends of the wire comprising the chain link fence. The plurality of bends culminates in the formation of a novel selvage that has the exposed ends of the wire penetrating into the body of the plurality of slats.

A chain link fence and a method of manufacturing an improved selvage therefore that provides no exposed ends of wires. The chain link fence of the present invention is manufactured from a plurality of wires coupled in a woven format so as to form loops. The chain link fence includes slats woven through the plurality of loops so as to provide privacy subsequent installation. The chain link fence manufacturing method provides for an improved selvage at the top and bottom thereof wherein the selvage has no exposed ends and as such eliminating the deficiencies of traditional selvages. The method of the present invention includes providing a plurality of bends to the exposed ends of the wire comprising the chain link fence. The plurality of bends culminates in the formation of a novel selvage that has the exposed ends of the wire penetrating into the body of the plurality of slats.

The present invention relates to an apparatus for manufacturing reinforcement meshes and spinning stations therefor. Reinforcement rods to be joined with the spinning wires are supplied by advancing means from the rear end of the apparatus, and a special mechanism prevents that the wire breaks during its encounter with the reinforcement rod.

The present invention relates to an apparatus for manufacturing reinforcement meshes and spinning stations therefor. Reinforcement rods to be joined with the spinning wires are supplied by advancing means from the rear end of the apparatus, and a special mechanism prevents that the wire breaks during its encounter with the reinforcement rod.