IPrestressing cable, in particular for static structures

Abstract

The invention relates to a prestressing cable (1), in particular for static structures, said cable being provided with a longitudinal element (1′) and connection elements (2) at the end faces of said element. The longitudinal element (1′) has a plurality of stranded wires, the end faces of which are anchored into the connection elements (2). The prestressing cable (1) is composed of multiple approximately parallel strands (3a, 3b, 3c), each of which comprises multiple stranded wires (7). The wires (7) are spread apart at their end faces in the funnel-shaped opening (5) of the respective connection element (2) and anchored by a casting process, wherein the frustum-shaped funnel widens away from the strands (3a, 3b, 3c). The straight arrangement of multiple strands results in particular in the significant improvement of the properties relating to vibrational loads even with wires of high strength.

Claims

1. A prestressing cable, in particular for static structures, comprising a longitudinal element (1′, 21) and connection elements (2, 22) at the end faces, the longitudinal element (1′, 21) having a plurality of stranded wires, the end faces of which are anchored into the connection elements (2, 22), characterised in that the prestressing cable (1, 20) is composed of multiple approximately parallel strands (3a, 3b, 3c, 23) each with multiple stranded wires (7), the wires (7) at their end faces being anchored in the respective connection element (2, 22).

2. The prestressing cable according to claim 1, characterised in that the end faces of the wires (7) are spread apart in the funnel-shaped opening (5) of the respective connection element (2) and are anchored by a casting process, the frustum-shaped funnel widening away from the strands (3a, 3b, 3c).

3. The prestressing cable according to claim 1, wherein the wires (7) of the strands (3a, 3b, 3c) are pushed apart at their ends like a broom in a funnel-shaped opening (5) of the respective connection element (2).

4. The prestressing cable according to claim 2, wherein the end faces of the wires (7) are compressed individually or a number of them are compressed together in a bulge.

5. The prestressing cable according to claim 1, wherein at least two, preferably seven wires (7) stranded together are assigned to the strands (3a, 3b, 3c).

6. The prestressing cable according to claim 1, wherein the strands (23) are each provided with a plastic coating (24), at least in the cross-over region of the connection element (22).

7. The prestressing cable according to claim 1, wherein the strands (3a, 3b, 3c) in the longitudinal direction of the longitudinal element (1) are bundled with strips (10) of stainless steel or plastic arranged a distance apart from one another.

8. The prestressing cable according to claim 1, wherein the strands (3a, 3b, 3c) are coated over their length and/or have a spiral wire wound around them so as to cover their length.

9. The prestressing cable according to claim 1, wherein the strands (3a, 3b, 3c) are provided with spacers for maintaining the strand geometry.

10. The prestressing cable according to claim 1, wherein they are composed of strands (3a, 3b, 3c) with different numbers of wires (7) and different diameters.

11. The prestressing cable according to claim 2, wherein the wires of the strands are pushed apart at their ends like a broom in a funnel-shaped opening of the respective connection element.

12. The prestressing cable according to claim 11, wherein the end faces of the wires are compressed individually or a number of them are compressed together in a bulge.

13. The prestressing cable according to claim 3, wherein the end faces of the wires are compressed individually or a number of them are compressed together in a bulge.

14. The prestressing cable according to claim 2, wherein at least two wires stranded together are assigned to the strands.

15. The prestressing cable according to claim 2, wherein seven wires stranded together are assigned to the strands.

16. The prestressing cable according to claim 2, wherein the strands are each provided with a plastic coating, at least in the cross-over region of the connection element.

17. The prestressing cable according to claim 2, wherein the strands in the longitudinal direction of the longitudinal element are bundled with strips of stainless steel or plastic arranged a distance apart from one another.

18. The prestressing cable according to claim 2, wherein the strands are coated over their length and/or have a spiral wire wound around them so as to cover their length.

19. The prestressing cable according to claim 2, wherein the strands are provided with spacers for maintaining the strand geometry.

20. The prestressing cable according to claim 2, wherein they are composed of strands with different numbers of wires and different diameters.

Description

[0015] In the following the invention will be described in more detail by means of exemplary embodiments with reference to the drawings. These show as follows:

[0016] FIG. 1 is a view with a section through a connection element of a prestressing cable according to the invention; and

[0017] FIG. 2 is a perspective view of a prestressing cable according to the invention with cut strands.

[0018] FIG. 1 shows a prestressing cable 1 in a partial view in which the connection of the longitudinal element 1′ to one of the connection elements 2 of the prestressing cable 1 is shown. These connection elements 2 are made in the form of forked sleeves 4, as shown. Depending on the application, these could also be made in the form of eye sleeves or the like.

[0019] According to the invention the longitudinal element 1′ consists of multiple individual approximately parallel strands of which the strands 3a, 3b and 3c which are anchored in the connection element 2 can be seen.

[0020] The connection element 2 has a funnel-shaped opening 5 for receiving the strands 3a, 3b, 3c and a transverse round hole 6 for receiving an anchor bolt or a similar component.

[0021] The strands 3a, 3b, 3c are composed of a number of stranded wires 7 which are stranded together in each strand and are pushed apart like a broom at their end faces in the region of the funnel-shaped opening 5 and so are spread towards their end, the frustum-shaped funnel of this opening 5 widening away from the strands 3a, 3b, 3c. The angle of this widening relative to the longitudinal axis of the prestressing cable is approximately 10°. It could of course also be chosen to be different.

[0022] The number of wires of the individual strands depends upon the respective constructional and mechanical requirements. There are at least two wires per strand. In practice strands each having seven wires are preferred. The straight arrangement of a number of prestressing cables instead of a single, multi-layered stranded spiral wire cable offers the advantage that the elasticity modulus is increased, and that in particular the vibrational load properties are considerably better, even with wires of high strength.

[0023] The wire ends 7 projecting into the frustum-shaped opening 5 are cast in the latter with a casting compound 9, for example with a two-component synthetic resin when cold casting or with a zinc or lead alloy with a relatively low melting point when hot casting. After the casting compound has hardened a deep connection is produced between the wires 7 and the forked sleeve 4 and therefore high resistance to the cable wires being pulled out. In order to increase this resistance the wires 7 of the strands can be compressed at their end faces individually or in groups in a bulge.

[0024] The strands 3a, 3b, 3c are bundled in the longitudinal direction with strips 10 of stainless steel or plastic arranged a distance apart from one another, which strips hold the strands together over the entire length. The individual strands of the bending prestressing cables are thus prevented from being able to curve to different degrees.

[0025] The same effect can be achieved if the strands 3a, 3b, 3c are coated over their entire length or are enclosed by a spiral wire wrapped around them.

[0026] In the exemplary embodiment described the strands 3a, 3b, 3c are identical as regards construction and diameter. Depending on the application it may, however, be advantageous to use strands with different constructions and/or diameters. They may be provided with correspondingly formed spacers for maintaining the strand geometry over the entire length.

[0027] The pre-fabricated strands 3a, 3b, 3c are already cut to length in the factory and anchored in the forked sleeves 4 by the latter first of all being placed over the cable wires 7, the wire ends then being stretched and being pressed apart from one another like a broom by hand or by means of a compressing device in the funnel-shaped opening 5 of the forked sleeve, and the casting compound 9 then being poured into the funnel. After the casting compound has hardened after a short time, the strands 3a, 3b, 3c are securely anchored in the connection elements 2 and the prestressing cable is thus ready for transportation and fitting.

[0028] FIG. 2 shows an existing prestressing cable 20 with a connection element 22 and strands 23 of a longitudinal element 21 which is formed in the same way as that of FIG. 1, and so only the differences will be explained in the following. In the cross-over region between the longitudinal element 21 and the connection elements 22 which are particularly subjected to friction and pressure the strands 23 are each provided with a plastic coating 24 which in each case projects into the funnel-shaped opening 25 of the connection element 22, preferably to a depth of one to two times the strand diameter.

[0029] These plastic coatings 24 of the strands 23 can be formed only in this cross-over region or also over the entire length of the strands, and so offer an aesthetic function or corrosion protection. Another possibility is for only the outside strands 23 to be provided with a plastic coating.