PL10832S2 - Pillar rope - Google Patents

Description

The subject of the industrial design is a pillar rope, designed specifically for tying mining support props. Industrial design description No. Rp-6119 describes a mining rope consisting of double-twisted thin steel wires (actually a braid) with a hardened surface, the ends of which have eyelets crimped with sleeves. One end is equipped with a hook, while the other end has (only) an eyelet. A variant of the mining rope is made of four twisted steel wires, with eyelets crimped with sleeves at each end, while one end is equipped with a hook, while the other end has an eyelet. Industrial design description No. Rp-8646 describes a pillar rope. This rope is made of three twisted steel wires with a hardened surface. The rope has an eyelet crimped with a sleeve at one end. In the pillar cable variants, they are made of four, five, six, seven, and eight twisted steel wires with a hardened surface, with an eyelet secured with a ferrule at one end. In the pillar cable variant, they are made of three twisted steel wires and have eyelets secured with ferrules at the end, with one end of the cable fitted with a hook. In the pillar cable variant, they are made of five, six, and seven twisted steel wires, with the other end fitted with a hook. The essence of the industrial design is manifested in the new and unique form of the pillar cable, intended for reproduction in craft and industrial production, distinguished by the shape and structure of its components. The subject of the industrial design is presented in the drawing, in which Fig. 1 shows a pillar cable made of four iron wires of different thickness in a side view, Fig. 2 - a pillar cable made of four iron wires of different thickness in a cross-section along the line A-A shown in Fig. 1, wherein the diameter of the wires in the drawing has been enlarged five times, Fig. 3 - a pillar cable made of five iron wires of different thickness in a side view, Fig. 4 - a pillar cable made of five iron wires of different thickness in a cross-section along the line B-B shown in Fig. 3, wherein the diameter of the wires in the drawing has been enlarged five times, Fig. 5 - a pillar cable made of six iron wires of different thickness in a side view, Fig. 6 - a pillar cable Pillar rope made of six iron wires of different thickness in the cross-section along the line C-C shown in Fig. 5, wherein the diameter of the wires in the drawing has been enlarged five times, Fig. 7 - pillar rope made of four iron wires of different thickness provided with loops at the ends in a side view, Fig. 8 - pillar rope made of four iron wires of different thickness provided with loops at the ends in the cross-section along the line D-D marked in Fig. 7, wherein the diameter of the wires in the drawing has been enlarged five times, Fig. 9 - pillar rope made of five iron wires of different thickness provided with loops at the ends in a side view, Fig. 10 - pillar rope made of five iron wires of different thickness provided with loops at the ends in a side view ends with loops in a cross-section along the line E-E marked in Fig. 9, wherein the diameter of the wires in the drawing has been enlarged five times, Fig. 11 - a pillar cable made of six iron wires of different thicknesses, provided with loops at the ends in a side view, and Fig. 12 - a pillar cable made of six iron wires of different thicknesses, provided with loops at the ends, in a cross-section along the line F-F, marked in Fig. 11, wherein the diameter of the wires in the drawing has been enlarged five times. Variation I The pillar cable shown in Figs. 1 and 2 is a strand I of soft iron wires, composed of two wires of 1.4 mm diameter and two soft iron wires of 1.2 mm diameter. Before making strand I, the wire is machine-selected to eliminate burrs and irregularities. The final strand I of the wires is smooth and unbent. The pillar cable has a loop 2 at one end, approximately 100 mm long, which is made by inserting strand I of the cable into an aluminum pipe connector 3 up to 25 mm long and then inserting the bent end of strand 1 of the cable into the hole of this connector 3. Aluminum pipe connectors 3 are cut from a profile with an outer diameter of 10 mm and a wall thickness of 1 m using a milling cutter to eliminate sharp edges. The strand I of the rope is clamped along its length and at its end by squeezing the connector 3. The length of the pillar rope, including the loop, is 1000 mm, 1200 mm and 1500 mm. Variation n The pillar rope shown in Figs. 3 and 4 has a strand of 4 soft iron wires composed of five wires, including three wires of 1.2 mm thickness and two wires of 1.4 mm thickness. The pillar rope has a loop 5 clamped with an aluminum tubular connector 3. Variation m The pillar rope shown in Figs. 5 and 6 has a strand of 6 soft iron wires composed of six wires, including four wires of 1.2 mm thickness and two wires of 1.4 mm thickness. The pillar cable has a loop 7 at one end, clamped with an aluminum pipe connector 3. Version IV The pillar cable shown in Figs. 7 and 8 has a strand 1 of soft iron wires consisting of two 1.2 mm thick wires, two 1.2 mm thick wires, and two 1.4 mm thick wires. The pillar cable has a loop 2 at one end, clamped with an aluminum pipe connector 3, and similarly, at the other end, a loop 2 clamped with an aluminum pipe connector 1. One loop 2 is provided with a hook 8 made of a steel rod with a diameter of 5.5 mm. Hook 8 is 90 mm long. Variation V The pillar cable shown in Figs. 9 and 10 has a strand of 4 soft iron wires, composed of five wires, including three 1.2 mm thick wires and two 1.4 mm thick wires. At both ends of the pillar cable there are loops 5 tightened with an aluminum tubular connector 3. One loop 5 is provided with a hook 8. Variation VI The pillar cable shown in Figs. 11 and 12 has a strand of 6 soft iron wires, composed of six wires, including four 1.2 mm thick wires and two 1.4 mm thick wires. At both ends, the pillar rope has loops crimped with an aluminum tubular connector 3. One loop 7 of the pillar rope is equipped with a hook 8. Essential features of the industrial design: The pillar rope, composed of wires and provided with a crimped eyelet at the end, is distinguished by the fact that it is a smooth weave of soft iron wires of varying thicknesses and has a loop crimped with an aluminum tubular connector at at least one end. The pillar rope with a loop at one end is distinguished by the fact that the weave of soft iron wires is composed of two wires with a diameter of 1.4 mm and two wires with a diameter of 1.2 mm, and the loop is approximately 100 mm long. The pillar rope with a loop at one end is distinguished by its strand of soft iron wires consisting of three 1.2 mm thick wires and two 1.4 mm thick wires. The pillar rope with a loop at one end is distinguished by its strand of soft iron wires consisting of six wires, including four 1.2 mm thick wires and two 1.4 mm thick wires. The pillar rope with loops at both ends is distinguished by its strand of soft iron wires consisting of two 1.4 mm diameter wires and two 1.2 mm diameter wires, and one loop is equipped with a hook made of a steel rod. The pillar rope with loops at both ends is distinguished by the fact that the strand of soft iron wires has three wires of 1.2 mm thickness and two wires of 1.4 mm thickness, and one loop is provided with a hook made of a steel rod. The pillar rope with loops at both ends is distinguished by the fact that the strand of soft iron wires has six wires, including four wires of 1.2 mm thickness and two wires of 1.4 mm thickness, and one loop is provided with a hook made of a steel rod. Fig.1 Fig.2 Fig.3 Fig.4 Fig.5 Fig.6 Fig.7 Fig.8 Fig.9 Fig.10 Fig.11 Fig.12Fig.1 Fig.2 Fig.3 Fig.4 Fig.5 Fig.6 Fig.7 Fig.8 Fig.9 Fig.10 Fig.11 Fig.12 PL PL