A wire forming apparatus 1 comprises a rotary table 22 that is rotatably supported by a table body 21, a slide tool unit 100A that is attached to the rotary table 22 and supports a slide tool T1 capable of sliding toward a wire guide, and a tool slide mechanism 60 that is supported by the table body 21 and transmits a driving force for sliding the slide tool T1 to the slide tool unit 100A. The tool slide mechanism 60 has a single motive power transmission member 61 that is rotatably supported by the table body 21, and a driving force generated by a rotation of the motive power transmission member 61 is transmitted, in common, to a plurality of slide tools T1 attached to the rotary table 22.

A wire forming apparatus 1 comprises a rotary table 22 that is rotatably supported by a table body 21, a slide tool unit 100A that is attached to the rotary table 22 and supports a slide tool T1 capable of sliding toward a wire guide, and a tool slide mechanism 60 that is supported by the table body 21 and transmits a driving force for sliding the slide tool T1 to the slide tool unit 100A. The tool slide mechanism 60 has a single motive power transmission member 61 that is rotatably supported by the table body 21, and a driving force generated by a rotation of the motive power transmission member 61 is transmitted, in common, to a plurality of slide tools T1 attached to the rotary table 22.

A method for producing helices for a chain-link net, said helices for forming the chain-link net being interconnected, and rotated into one another, wherein the helices are produced from at least one longitudinal element, in particular a single wire, a wire bundle, a wire strand, and/or a wire rope, with at least one wire being partially implemented from a high-tensile steel, and wherein the helices are bent so that they include a plurality of first legs, a plurality of second legs, and a plurality of bending regions that interconnect a first leg and a neighboring second leg, wherein the helices are bent, by a braiding knife assembly comprising at least one braiding knife, in such a manner that at least the center points of the first legs and/or at least the center points of the second legs of a completely bent helix each lie substantially in one plane respectively.

A method for producing helices for a chain-link net, said helices for forming the chain-link net being interconnected, and rotated into one another, wherein the helices are produced from at least one longitudinal element, in particular a single wire, a wire bundle, a wire strand, and/or a wire rope, with at least one wire being partially implemented from a high-tensile steel, and wherein the helices are bent so that they include a plurality of first legs, a plurality of second legs, and a plurality of bending regions that interconnect a first leg and a neighboring second leg, wherein the helices are bent, by a braiding knife assembly comprising at least one braiding knife, in such a manner that at least the center points of the first legs and/or at least the center points of the second legs of a completely bent helix each lie substantially in one plane respectively.

A wire forming apparatus 1 comprises a rotary table 22 that is rotatably supported by a table body 21, a slide tool unit 100A that is attached to the rotary table 22 and supports a slide tool T1 capable of sliding toward a wire guide, and a tool slide mechanism 60 that is supported by the table body 21 and transmits a driving force for sliding the slide tool T1 to the slide tool unit 100A. The tool slide mechanism 60 has a single motive power transmission member 61 that is rotatably supported by the table body 21, and a driving force generated by a rotation of the motive power transmission member 61 is transmitted, in common, to a plurality of slide tools T1 attached to the rotary table 22.

A bending device for producing a wire netting, in particular a safety net, includes a plurality of helices, which are braided with one another, and of which at least one helix is made from at least one single wire, a wire bundle, a wire strand, a wire rope, and/or another longitudinal element having at least one wire that comprises high-tensile steel, having at least one bending unit which, for producing a helix blank having at least two curved legs and having at least one bend point that connects the curved legs by a bending of the longitudinal element, has at least one guide worm and at least one braiding knife that is rotatable relative to the guide worm about a rotation axis, and having a braiding unit which is configured for braiding the helix blank into a pre-netting of the wire netting, and the bending device has a straightening unit which is configured for an at least partial straightening of the curved legs.

A bending device for producing a wire netting, in particular a safety net, includes a plurality of helices, which are braided with one another, and of which at least one helix is made from at least one single wire, a wire bundle, a wire strand, a wire rope, and/or another longitudinal element having at least one wire that comprises high-tensile steel, having at least one bending unit which, for producing a helix blank having at least two curved legs and having at least one bend point that connects the curved legs by a bending of the longitudinal element, has at least one guide worm and at least one braiding knife that is rotatable relative to the guide worm about a rotation axis, and having a braiding unit which is configured for braiding the helix blank into a pre-netting of the wire netting, and the bending device has a straightening unit which is configured for an at least partial straightening of the curved legs.

A wire netting, in particular a safety net, includes a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, and which includes at least one first leg, at least one second leg and at least one bending region connecting the first leg and the second leg to one another. In a longitudinal view in parallel to a longitudinal direction of the helix, the bending region includes at least one bending zone with a bending curvature and at least one first transition zone which is connected to the first leg and has a first transition curvature that differs from the bending curvature.

A wire netting, in particular a safety net, includes a plurality of helices which are braided with one another and at least one of which is manufactured of at least one single wire, a wire bundle, a wire strand, a wire rope and/or another longitudinal element with at least one wire, and which includes at least one first leg, at least one second leg and at least one bending region connecting the first leg and the second leg to one another. In a longitudinal view in parallel to a longitudinal direction of the helix, the bending region includes at least one bending zone with a bending curvature and at least one first transition zone which is connected to the first leg and has a first transition curvature that differs from the bending curvature.

A bending device for producing a wire netting, in particular a safety net, includes a plurality of helices, which are braided with one another, and of which at least one helix is made from at least one single wire, a wire bundle, a wire strand, a wire rope, and/or another longitudinal element having at least one wire that comprises high-tensile steel, having at least one bending unit which, for producing a helix blank having at least two curved legs and having at least one bend point that connects the curved legs by a bending of the longitudinal element, has at least one guide worm and at least one braiding knife that is rotatable relative to the guide worm about a rotation axis, and having a braiding unit which is configured for braiding the helix blank into a pre-netting of the wire netting, and the bending device has a straightening unit which is configured for an at least partial straightening of the curved legs.