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Patent Searching and Data


Title:
DEVICE AND METHOD FOR SECURING END OF BRAIDED HOISTING ROPE TO LIFTING DEVICE
Document Type and Number:
WIPO Patent Application WO/2018/220276
Kind Code:
A1
Abstract:
A device for securing an end of a braided hoisting rope (1) to a lifting device, the device comprising a tubular fastening frame (2) to be fixed to the lifting device; and a coil spring (3) which is arranged to be installed and fastened over the tubu-5 lar fastening frame (2); whereby when the end of a hoisting rope (1) is fastened in place, the hollow, or workable into hollow, end of the hoisting rope (1) is thread-ed over the windings of the coil spring (3) as the outer surface of the windings and into contact with, or to be brought into contact with the outer periphery of the tubular fastening frame (2). The invention additionally relates to method for 10 securing an end of a braided hoisting rope (1) to a lifting device.

Inventors:
HOOVER JACK (FI)
Application Number:
PCT/FI2018/050405
Publication Date:
December 06, 2018
Filing Date:
May 29, 2018
Export Citation:
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Assignee:
KONECRANES GLOBAL CORP (FI)
International Classes:
F16G11/00; B66B11/00; B66B19/02; B66C1/12; B66D1/34
Domestic Patent References:
WO1994020770A11994-09-15
Foreign References:
JPS5489772U1979-06-25
Other References:
See also references of EP 3635275A4
Attorney, Agent or Firm:
KOLSTER OY AB (FI)
Download PDF:
Claims:
Claims

1. A device for securing an end of braided hoisting rope (1) to a lifting device, characterised in that it comprises

a tubular fastening frame to be fixed to the lifting device (2); a coil spring (3) which is arranged to be installed and fastened over the tubular fastening frame (2);

whereby when an end of the hoisting rope (1) is secured in place, the hollow, or workable into hollow, end of the hoisting rope (1) is threaded over the windings of the coil spring (3) as the outer surface of the windings and into con- tact or to be brought into contact with the surface of the tubular fastening frame (2).

2. A device as claimed in claim 1, characterised in that the tubular fastening frame (2) has a centre hole (6) for attaching the tubular fastening frame (2) to the lifting device.

3. A device as claimed in claim 2, characterised in that the centre hole (6) is angular or grooved in the longitudinal direction.

4. A device as claimed in any one of the preceding claims, character i s e d in that the outer periphery of the tubular fastening frame (2) is provided with a spiral-like grooving, which meshes with the outer surface of the hoisting rope (1) installed over the windings of the coil spring (3).

5. A device as claimed in any one of the preceding claims, character i s e d in that there is a roughening on the outer periphery of the tubular fastening frame (2).

6. A device as claimed in any one of the preceding claims, charac- t e r i s e d in that the coil spring (3) has approximately 2.5 to 3.5 windings over the tubular fastening frame (2).

7. A device as claimed in any one of the preceding claims, character i s e d in that the coil spring (3) is made of spring steel.

8. A device as claimed in any one of the preceding claims, charac- t e r i s e d in that the surface of the coil spring (3) is roughened.

9. A device as claimed in any one of the preceding claims, character i s e d in that a fastening end of the coil spring (3) is bent and fastened to a recess (4) in the periphery of the tubular fastening frame (2) by a screw fastening (5).

10. A device as claimed in any one of claims 1 to 8, character- is e d in that the fastening end of the coil spring (3) is bent and fastened to the tubular fastening frame (2) by form locking.

11. A device as claimed in any one of the preceding claims, c h a r a c - terisedin that the hoisting rope (1) is of a synthetic material.

12. A device as claimed in any one of the preceding claims, character i s e d in that the fastening of the hoisting rope (1) to the tubular fastening frame (2) and/or to the coil spring (3) is additionally ensured by separate mechanical fastening means.

13. A method for securing an end of braided hoisting rope (1) to lifting device, characterised by

arranging a tubular fastening frame to be fixed to a lifting device (2); arranging a coil spring (3) to be installed and fastened over the tubular fastening frame (2);

arranging a braided hoisting rope (1), an end of which is formed hollow or formable hollow;

threading an end of the hoisting rope (1) over the coil spring; and fastening the coil spring (3) over the tubular fastening frame (2) either before threading the end of the hoisting rope (1) over it or after the hoisting rope (1) has been threaded over the coil spring (3).

Description:
Device and method for securing end of braided hoisting rope to lifting device

Background of the invention

The invention relates to a device and method for securing an end of a braided hoisting rope to a lifting device.

In hoisting ropes of a steel material, it is known to use a wedge pocket by means of which the hoisting rope is secured to a lifting device. When it is desired to use a synthetic material, the use of a wedge pocket may damage the hoisting rope even if the fastening were reliable to begin with. A device for securing such a hoisting device is known from publication US 552 6552 A.

It is therefore the object of the present invention to develop a securing method for a hoisting rope of a synthetic material, specifically, which does not damage the hoisting rope but nevertheless guarantees a reliable fastening.

Summary of the invention

The object of the invention is achieved by the inventive device which is characterised in that it comprises a tubular fastening frame to be fixed to the lifting device; and a coil spring which is arranged to be installed and fastened over the tubular fastening frame; whereby when an end of a hoisting rope is fastened in place, the hollow, or workable into hollow, end of the hoisting rope is threaded over the windings of the coil spring as the outer surface of the windings and into contact with, or to be brought into contact with the outer periphery of the tubular fastening frame.

The method according to the invention is in turn characterised by arranging a tubular fastening frame to be fastened to a lifting device; arranging a coil spring installed and fastened over the tubular fastening frame; arranging a braided hoisting rope, an end of which is formed hollow or formable hollow; threading an end of the hoisting rope over the coil spring; and fastening the coil spring over the tubular frame either before threading the hoisting rope over it or after the hoisting rope has been threaded over the coil spring.

The invention is based on that the hoisting rope threaded over the coil spring fastened or to be fastened to the fastening frame as a holder in the lifting device will tighten around the coil spring, and the entity formed by the hoisting rope and coil spring in turn around the fastening frame, the hoisting rope stays locked in place mainly by way of friction. When there are enough rope turns of the entity formed by the coil spring and hoisting rope around the fastening frame, for example at least approximately three turns, the fastening friction is spread out on an adequately wide fastening surface area, whereby the hoisting rope will not get damaged. This fas- tening surface area may be widened and thus the fastening friction enhanced by forming a spiral-like grooving on the surface of the tubular fastening frame, which meshes with the outer surface of the rope installed on the windings of the coil spring. Alternatively, instead of the grooving or in addition to the grooving, the outer surface of the fastening frame may have a roughening.

It is easy to install the hoisting rope to the fastening frame as long as the fastening frame is made to be detachable from the lifting device in a simple enough manner, for example by means of an angular or grooved centre hole in the fastening frame, fastenable to a fastening axle of a similar form on the lifting device. In such a case, the detaching of the fastening frame takes place by simply pulling the fastening frame from the fastening axle.

The coil spring is advantageously made of a steel material, most advantageously of spring steel. The fastening end of the coil spring may be bent and fastened to the tubular fastening frame by form locking, or to a recess in the periphery of the fastening frame by a screw fastening. The surface of the coil spring may be roughened, too. So, the surfaces of both the fastening frame and the coil spring may be roughened, or one of them roughened, or no roughening on either one.

The securing of the hoisting rope to the tubular fastening frame and/or coil spring may also be ensured by separate mechanical fastening means. List of figures

The invention is now described in closer detail by means of one preferred embodiment and with reference to the accompanying drawings, in which

Figure 1 shows the device according to the invention without the hoisting rope; and

Figure 2 shows the device according to the invention with the hoisting rope installed.

Detailed description of the invention

With reference to Figure 1, the inventive device for securing an end of a braided hoisting rope 1 of a synthetic material, specifically, to a lifting device comprises as its main components a tubular fastening frame 2 fastened to the lift- ing device, and a coil spring 3 which is arranged to be installed and fastened over the outer periphery of the tubular fastening frame 2. The definition end of hoisting rope 1 must here be interpreted as a particular portion of the hoisting rope, starting from its "end". The lifting device or hoist is not described herein, because it is not essential for the invention.

The coil spring 3 may be fastened over the tubular frame 2 either before the end of the hoisting rope 1 is threaded over it, or after the hoisting rope 1 has been threaded over the coil spring 3. For this, the windings of the coil spring 3 are in such a way at a small distance from the outer periphery of the fastening frame 2 that the hollow, or workable into hollow, end of the hoisting rope 1 may be threaded on the windings even if the coil spring 3 were fastened in place. So, the inner diameter of the coil spring 3 is smaller than the outer diameter of the fastening frame 2. The essential issue is that when the end of the hoisting rope 1 is secured in place, its hollow, or workable into hollow, end is threaded over the windings of the coil springs as the outer surface of the windings and into contact or to be brought into contact with the surface of the tubular fastening frame 2. The bringing of the end of the hoisting rope 1 into a tight or non-slipping contact with the periphery of the fastening frame 2 takes place or must take place at the latest when tensile force F caused by lifting a load is exerted on the hoisting rope 1.

The outer periphery of the tubular fastening frame 2 may be provided with a spiral-like grooving, which meshes with the outer surface of the hoisting rope 1 installed over the windings of the coil spring 3. Alternatively, instead of the grooving or in addition to the grooving, the outer surface of the fastening frame 2 may have a roughening.

The coil spring 3 may have approximately 2.5 to 3,5 windings over the tubular fastening frame 2. The fastening end 3a of the coil spring 3 is advantageously bent and fastened to a recess 4 in the periphery of the tubular fastening frame 2 by a screw fastening 5. The coil spring 3 may be of spring steel, for ex- ample. The surface of the coil spring 2 may be roughened, too.

The tubular fastening frame 2 has a centre hole 6 for attaching the tubular fastening frame 2 to the lifting device. The centre hole 6 may be angular, as shown in Figure 1, or grooved in the longitudinal direction, for example.

The securing of the end of the hoisting rope 1 to the tubular fastening frame and/or coil spring may also be ensured by separate mechanical fastening means, if so required. In a prototype implementation, in which the minimum break force of the hoisting rope was 50 kN, a coil spring with the diameter of 8 mm (SF-TFV 8x80x100 EN 10270-1-SM) was used. The inner diameter of this coil spring was 80 mm, whereby 60 mm was choses as the diameter of the fastening frame. The periphery of the fastening frame was non-grooved. With this implementation, the maximum friction force of 41 kN was reached between the fastening frame and hoisting rope.

In an ideal case, the diameters of the hoisting rope 1 and coil spring 3 are substantially equal. If the coil spring 3 is too thin (so, clearly thinner than the hoisting rope 1), the hoisting rope 1 will not stay in it. If the coil spring 3 is too thick (so, clearly thicker than the hoisting rope 1), the strands of the hoisting rope 1 will cut around the coil spring 3. If the diameter dimension of 8 mm is used for the coil spring and the hoisting rope, it is advantageous to linearly thin the cross- section of the coil spring by approximately 70 % over a distance of 100 mm from the end of the coil spring. If said diameter dimension is larger, thinning by a suitable amount is done over a longer distance.

The above description of the invention is only intended to illustrate the basic idea of the invention. A person skilled in the art may, however, implement its details within the scope of the attached claims.