DE1038252B - Protective body for rope slings for lifting loads - Google Patents

Description

The invention relates to a protective body for rope slings for lifting loads.

When lifting heavy loads with rope slings, the rope cuts especially at the Corners of the load, which not only damage the load, but also wear it of the rope itself occurs. That is why several protective bodies are arranged at a distance from one another on the rope at. These protective bodies can be moved lengthways on the rope so that they are adapted to the respective load and effectively protect the same from damage.

A well-known protective body of this type consists of two angled pieces of metal which are attached to the rope inserted and held together by the rope itself. They are constructed so that they can be removed from the steel cable are resiliently held by friction and do not move by their own weight can, however, be moved by hand on the rope and adapted to the respective load can. Another known protective body for rope slings consists of a single piece of metal, which has slots into which the rope is inserted so that the rope is resilient to different places of the protective body, whereby the same is secured against slipping. Have these protective bodies the disadvantage that, due to their special shape, they are always exactly at the corners of the lift to be lifted Loaded goods have to be pushed. In addition, these protective bodies are made of metal and are not only expensive to manufacture, but they also have to be made relatively strong, so with less favorable A break of the protective body is avoided when the load is placed. This becomes the protective body relatively difficult. Furthermore, the metal parts can damage the sensitive surface of a load. To avoid such damage To prevent the protective body, the side facing the load is also included in the case of another rope protective body provided with a rubber pad.

Furthermore, a rigid protective body for rope slings is known, which consists of a two-part metal block is held together by screws with the interposition of spring washers and on the rope is pressed. The protective body is expensive to manufacture and has a considerable weight, so that a rope carrying several such protective bodies is difficult to handle. To prevent damage to the To prevent load surface, the metal block is enclosed by a strong rubber strip. It exists the possibility of the rubber pad being torn off the load.

The invention relates to a protective body with an elastic surface, several of which are spaced apart from Sctiutzkörper for rope slings
for lifting loads

Applicant:
Hans Meisen, Augsburg, Kantstrasse. 28

Hans Meisen, Augsburg,
has been named as the inventor

are arranged displaceably on the rope with resilient frictional pressure.

The aforementioned shortcomings of the known protective body are eliminated according to the invention, that as protective elements from one piece profile blocks made of elastic material with one of the Number of rope strands corresponding number of holes are provided in the widened at the ends Metal sleeves are used, the clear width approximately corresponds to the rope diameter and which serve to support a resilient clamping member that is in point contact with the rope and allows the profile block to be moved easily by hand.

These arranged on the cable strands, for. B. made of rubber profile blocks are very simple and cheap to manufacture and just as simple and convenient to use. They are easy to get on move the rope, but an unintentional shift due to the weight of the profile block, which is relatively small, is prevented by a resilient clamping element mounted in the sleeve. The strong profile rubber block has a high degree of elasticity in its entirety and, as a result, adapts itself the load well. Since the profile block is very thick in relation to the rope diameter, it takes time not only for a very long time until it has become unusable due to wear, but it is also sufficient a few profile pieces on a rope loop to prevent the rope from resting on the load comes. The sleeves inserted into the rubber block are only used to attach the resilient clamping element in the rubber block.

In the drawing, protective bodies according to the invention are shown, for example. It shows

Fig. 1 is a partial view of a double rope loop with protective bodies when lifting a box,

2 shows the associated side view,

809 600/134

Claims (2)

3 shows a cross section through a profile block along line III-III of FIG. 1, FIG. 4 shows a partial longitudinal section of the profile block along line IV-IV of FIG. 3, FIG. 5 shows a rope loop with profile blocks according to the invention when lifting a cylindrical load, Fig. 6 shows a further embodiment of a profile block. The rope loop shown in Fig. 1 and 2 consists of two rope strands 1. Using thimbles 2 and pressed-on rope clamps 3, eyelets are formed at the ends of these rope strands with which the Doppdseilsch'Hnge is connected to a steel ring 4, the Hanging in a crane hook or the like. Serves. As can be seen from the drawing, the two rope strands 1 are connected to one another by individual profile blocks 5 made of elastic material such as rubber or plastic that the profile blocks can be pushed at a corresponding distance from each other to the respective pressure points, so that, as both FIGS. 1 and 2 and also FIG. 5 show, the cable pieces la, lh, Ic and It / bis lying between the profile blocks 5 If da. *> Do not touch the load. Thus, according to FIGS. 1 and 2, the crate 6 to be lifted is extremely spared, even with a heavy load, as is the rope strands 1 of the sling Rope sling, while only four profile blocks are sufficient for lifting goods with a round cross-section, for example a roller 7 with a sensitive surface according to FIG. According to FIGS. 3, 4 and 6, metal or steel sleeves 8 are inserted into the profile blocks, the length of which corresponds to that of the profile blocks and the clearance of which corresponds approximately to the rope diameter. As can be seen from FIG. 4, the two sleeve ends are widened at 9 with a circular arc-shaped curvature. The metal sleeves 8 serve to hold a resilient clamping element within the metal sleeve which, in the exemplary embodiment shown, consists of two arcuately curved leaf springs 19 which exert a resilient clamping pressure on the cable 1. This prevents automatic, undesired slipping of the profile block 5 as a result of its own weight and at the same time enables it to be easily moved by hand into the desired position. This shifting is also facilitated by the fact that there is enough play between the rope and the sleeve 8 and only the resilient clamping member 9 presses point-like on the rope. The springs 19 are attached to one end of the metal sleeve 8 by one end which is suitably flanged at 10. This fastening can advantageously take place by spot welding the outer flanged end 10 to the metal sleeve 8. Instead of the two opposite springs 19 shown in FIG. 4, only a single leaf spring can optionally be provided, which presses the rope against the opposite wall of the sleeve 8. The arrangement of these metal sleeves, which consist of smooth pieces of pipe, also reduces wear on the cable strands. The round widenings 9 (cf. also FIG. 2) prevent the cable strands from bending sharply. The widenings 9 also serve to fasten the metal sleeves 8 in the profile blocks. In the double rope loop shown in FIGS. 1 and 2, the profile blocks according to FIG. 3 advantageously have a rectangular cross section with rounded corners. If the rope loop consists of only one rope, profile pieces 5a with a square cross-section and rounded corners are advantageously used according to FIG. 6. In order to be able to manage with relatively few profile blocks on a rope loop, the height /; the profile blocks 5 at least as large as three times the rope diameter. This ensures that when a few profile blocks of a rope loop are used, the pieces of rope according to FIGS. 1 and 2 and 5 do not come into contact with the load. PA TEN T A XSPR ß C FI R: 1. Protective body with elastic surface for ropes for lifting loads, from the several at a distance from one another on the rope so that they can be moved under resilient frictional pressure are characterized by one-piece blocks (5) made of elastic material with a number of bores corresponding to the number of rope strands into which the Ends of expanded metal sleeves (8) are used, the clear width of which is approximately the rope diameter corresponds and in each of which a resilient clamping member (19). that with the rope in point contact stands and allows easy shifting of the block by hand "is stored. 2. Protective body according to claim 1, characterized in that the clamping member consists of an inside the metal sleeve (8) arranged in the longitudinal direction of the arcuate leaf spring (19), which is attached to one end of the metal sleeve with an expediently unflared end is. Considered publications:
Austrian Patent No. 185 955;
French patent specification No. 469 370:
British Patent No. 264 269. 1 sheet of drawings © 809 600/134 9.58