RU201470U1 - Universal rope sling - Google Patents

Abstract

The utility model relates to lifting and transport engineering, in particular to slings, and can be used in various industries for transport and unloading operations. The technical result is an increase in the bearing capacity (carrying capacity) of the sling and an increase in the useful life of the sling. The technical result of the proposed model is achieved the fact that a universal twisted rope sling is an annular closed segment of a rope of a finite length, obtained by weaving the rope around itself with the formation of at least two branches of a sling and with at least two twists, while the ends of the rope are rigidly fixed to each other, and the safety factor the sling is six times the safety margin of the rope from which it is made, multiplied by the number of branches of the sling. The technical result is also achieved by the fact that the sling is made of round steel rope, steel flat rope, hemp rope or synthetic rope. The result is also achieved by the fact that the diameter of the rope for the manufacture of a sling is determined by the formula where Dst is the diameter of the rope for the manufacture of a universal rope sling of the required carrying capacity, mm; Dgost is the diameter of the rope for the manufacture of a ring sling of the required carrying capacity in accordance with GOST 25573-82, mm. that the ends of the rope are connected by clamping fixed bushings, braiding or stitching. The technical result is also achieved by the fact that the outer surface of the rope is covered with a polymer composition.

Description

The utility model relates to lifting and transport engineering, in particular to slings, and can be used in various industries during transport and unloading operations.

Known sling type SKK (ring rope sling), which is a piece of rope, connected in the form of a ring, thereby forming a lifting loop. The ends of the rope can be connected by braiding or crimping with an aluminum or steel sleeve (GOST 25573-82).

Disadvantages of a well-known sling:

1. The sling has only one branch of the steel rope while maintaining the lifting capacity of the sling as a whole.

2. The sling does not have the ability to choose a smaller diameter of the steel rope during manufacture while maintaining the same lifting capacity of the sling as a whole.

3. The sling does not have an increase in the operational safety of the sling due to the absence of a second backup rope branch.

Known annular lifting sling containing at least one lifting element and at least one spacer element, and at least one lifting element and at least one spacer element are placed in a protective case with the possibility of isolating each other from the other, while at least one spacer element is configured to form a protrusion on the surface of the sling, at least on one side of the sling for contact with the interacting surface. In this case, at least one lifting element is a bundle, or a tape, or a chain, or a rope (RF patent for useful model 89506, IPC B65G 7/12, B66C 1/12, 10.12.2009).

Disadvantages of a well-known sling:

1. The design of the sling contains many additional elements, which complicates the slinging process due to the need to position them before lifting the load.

2. The sling does not have the ability to choose a smaller diameter of the steel rope during manufacture while maintaining the same lifting capacity of the sling as a whole.

3. The sling does not have an increase in the operational safety of the sling due to the absence of a second backup rope branch.

The closest in its technical essence and the achieved results is an annular sling made of a cable of a finite length, forming a core and at least one outer winding, while the core is formed by several cable rings adjacent to one another (USSR Author's certificate No. 314728, IPC B66C1 / 12, 09/29/1972).

Disadvantages of a well-known sling:

1. The sling does not have the ends of the metal rope rigidly fixed to each other, which can cause spontaneous unraveling of the branches of the steel rope under load.

2. In addition, the manufacturing technology is labor-intensive and material-intensive, since first, it requires winding several circular turns of the cable, after which at least one external winding with a certain angle and direction of the lay is required.

The technical result is an increase in the bearing capacity (carrying capacity) of the sling and an increase in the useful life of the sling.

The technical result of the proposed model is achieved by the fact that a universal twisted rope sling is an annular closed segment of a rope of a finite length, obtained by weaving the rope around itself with the formation of at least two branches of the sling and with at least two twists, while the ends of the rope are rigidly fixed to each other , and the safety factor of the sling is six times the safety factor of the rope from which it is made, multiplied by the number of branches of the sling.

The technical result is also achieved by the fact that the sling is made of a round steel rope, steel flat rope, hemp rope or synthetic rope.

The technical result is also achieved by the fact that the diameter of the rope for the manufacture of a sling is determined by the formula

where D _st is the diameter of the rope for the manufacture of a universal rope sling of the required carrying capacity, mm;

D _GOST - the diameter of the rope for the manufacture of an annular sling of the required carrying capacity according to GOST 25573-82, mm.

The technical result is also achieved by the fact that the ends of the rope are interconnected by clamping fixed bushings, braiding or sewing.

The technical result is also achieved by the fact that the outer surface of the rope is coated with a polymer composition.

The essence of the utility model is illustrated by drawings.

FIG. 1 shows a general view of a universal twisted rope sling of the proposed design.

FIG. 2 shows one of the possible ways of using a universal twisted rope sling (conventionally shown in the form of a universal rope sling 2 - according to RD 10-231-98).

A universal twisted rope sling is a closed ring formed by weaving (twisting) a rope of a finite length 1 around itself. As a result of this interlacing, a closed ring is obtained, consisting of at least two rope branches of the sling 2 and 3 (Fig. 1). The number of branches of the sling, entwined relative to each other, and the diameter of the rope 1 are selected based on the calculated lifting capacity of the sling. It has been experimentally established that when using a rope with at least twofold interlacing (entwining) of the rope branches relative to each other, the breaking load of the sling is doubled in comparison with the breaking load of the sling with one rope branch with an increased diameter of the rope. An increase in the number of branches of the sling 2 and 3, as well as weaves (twists) of the rope 1 more than 8 will significantly increase the material consumption, and also complicate the process of manufacturing the sling.

The diameter of the steel rope 1 for the manufacture of a sling D _{Art is} selected based on the overall dimensions of the cargo. It was found that for the manufacture of a universal rope sling of the proposed design, the diameter of the steel rope D _{st is} chosen at least 1.3 times less than the diameter of the steel rope D _GOST , used in the manufacture of a known ring rope sling with one rope branch and a similar carrying capacity (according to GOST 25573-82).

The ends of the rope 1 can be connected by fixed bushings 4, either by braiding or by stitching.

The twisted rope branches 2 and 3 increase the useful life of the sling by reducing the wear of the rope body, provided by the alternating contact of the protruding and concave twisted sections of the sling with the lifted (transported) load 4.

In addition, in the presence of at least one additional rope branch of the sling, the operational safety of the universal twisted rope sling increases, due to the sixfold safety factor of each individual rope branch.

The presence of an external protective coating tightly adhering to the rope branch of the sling increases the service life of the universal twisted rope sling by reducing the wear of the rope body 1 upon contact between the branches of the sling 2 and 3, as well as upon contact with the surface of the lifted (transported) load. In addition, in the presence of an external protective covering of the rope branch, the operational safety of the universal rope twisted sling increases for the employee, as well as for the lifted (transported) load 4. Polypropylene, polyethylene, polystyrene, urethane thermoplastic elastomers, polyester thermoplastic elastomers, polyolefin and dienvinylaromatic thermoplastic elastomers, as well as polyester-polyamide and other plastics.

The universal twisted rope sling is used as follows.

Slings are made in the form of a closed ring directly at the manufacturer's plant. In this case, the ends of the rope are already clamped by fixed bushings 1, or braided, or sewn. The required number of manufactured slings is placed on the load package 4 (Fig. 2). The loop 5 is put on the hook of the crane 6 and a force is applied to it for lifting, while the loop 7 is tightened around the package of cargo 4, and the lifting force allows the twisted sections of the rope to slide relative to each other. In this case, a parallel movement of the intertwined rope branches occurs and the diameter of the tightening loop 4 decreases, creating a force sufficient to exclude the loosening of the tightening of the sling around the load 4 during its lifting and movement. After moving and storing the package of cargo 4 at the destination, the sling can be easily removed from the package of cargo 4 by loosening the tightening loop 7 by removing the tightening loop 7 from the crane hook 6. In general, the declared universal twisted rope sling is characterized by high reliability and ease of use. 4 slings (slings) fixed at the beginning of transportation on the package of cargo allows you to carry out all the logistics cycles of loading / unloading all the way to the destination.

Claims (13)

1. Universal rope sling twisted, which is a circular closed segment of a rope of a finite length, obtained by weaving the rope around itself with the formation of at least two branches of the sling and with at least two twists, while the ends of the rope are rigidly fixed to each other, and the safety factor the sling is six times the safety margin of the rope from which it is made, multiplied by the number of sling branches. 2. A sling according to claim 1, characterized in that it is made of a round steel rope. 3. A sling according to claim 1, characterized in that it is made of a steel flat rope. 4. A sling according to claim 1, characterized in that it is made of a hemp rope. 5. A sling according to claim 1, characterized in that it is made of a synthetic rope. 6. A sling according to any one of claims 1 to 3, characterized in that the ends of the rope are interconnected by clamping fixed sleeves. 7. A sling according to any one of claims 1 to 3, characterized in that the ends of the rope are tied together by a braid. 8. A sling according to any one of claims 1 to 3, characterized in that the diameter of the rope for the manufacture of the sling is determined by the formula

where D _st is the diameter of the rope for the manufacture of a universal rope sling of the required carrying capacity, mm; D _GOST - the diameter of the rope for the manufacture of an annular sling of the required carrying capacity according to GOST 25573-82, mm. 9. Lanyard according to PP. 1-5, characterized in that the outer surface of the rope is coated with a polymer composition. 10. A sling according to any one of claims 4, 5, characterized in that the ends of the rope are linked together by stitching.

Images