Draw tape for cables or similar flexible elements

Abstract

Draw tape for cables including an elongated flexible element made of a helical multifilament rope composed of three filaments or strands helically wound about a common longitudinal axis. According to an additional feature, the rope is hammered. Still according to an improvement, the rope is externally covered by a jacket.

Claims

1. A draw tape for cables or for elongated flexible elements, comprising: an elongated flexible element portion made of a helical multifilament rope composed of at least three filaments or strands helically wound about a common longitudinal axis; a jacket wrapping the helical multifilament rope; and an external covering layer made of a plastic material that is attached to an entirety of an outer surface of the jacket, wherein the external covering layer has one or more radial external webs or ribs arranged along a circumference of a section of said external covering layer and oriented parallel to a longitudinal axis of the draw tape or with a helical arrangement about the longitudinal axis of the draw tape.

2. The draw tape according to claim 1, wherein the multifilament rope has four or more strands or filaments.

3. The draw tape according to claim 1, wherein the multifilament rope has a longitudinal core element, about which the strands or filaments are wound.

4. The draw tape according to claim 1, wherein the rope having the at least three helically wound filaments or strands has hammered surfaces, whereby the strands have contact lines and are flattened, both along external edges and along contact edges.

5. The draw tape according to claim 4, wherein an average diameter of the rope after hammering ranges from 80% to 99.9% of an outer diameter of the rope before the hammering.

6. The draw tape according claim 1, wherein the multifilament rope is provided as an armored cable.

7. The draw tape according to claim 6, wherein said rope provided as an armored cable is composed of helically wound strands or filaments and is covered on an outside by a cylindrical jacket or by an armor coating.

8. The draw tape according to claim 7, wherein the helically wound strands or filaments or a material forming the cylindrical jacket or a covering layer are hammered on directly their external peripheral surface toward a center of the rope.

9. The draw tape according to claim 1, further comprising an armor coating interposed between the jacket and the external covering layer, the external covering layer entirely covering an outer surface of the armor coating.

10. The draw tape according to claim 9, wherein the armor coating comprises a plurality of filaments disposed on the jacket.

11. The draw tape according to claim 1, wherein said rope has filaments or strands having a same diameter.

12. The draw tape according to claim 1, wherein the draw tape has three helically wound filaments or strands and respective centers of circumferences of the filaments or strands are, in cross-section, at vertices of an equilateral triangle, a center of gravity of said equilateral triangle corresponding to a longitudinal winding axis of a helicoid composed of the three filaments or strands.

13. The draw tape according to claim 1, wherein at least one of the strands or filaments has a diameter different than the diameter of the remaining two strands or filaments.

14. The draw tape according to claim 1, wherein the rope is composed of metal filaments or strands made of steel.

15. A process of manufacturing a draw tape comprising: providing at least three strands; winding the at least three strands in a helical arrangement about a common longitudinal axis; hammering the three helically wound strands according to two or preferably more than two directions perpendicular to the common longitudinal axis; externally covering the rope with a jacket; attaching an external covering layer made of a plastic material to an entirety of an outer surface of the jacket, the external covering layer having one or more radial external webs or ribs arranged along a circumference of a section of said external covering layer and oriented parallel to a longitudinal axis of the draw tape or with a helical arrangement about the longitudinal axis of the draw tape.

16. The process according to claim 15, further comprising the step of: hammering the rope according to at least four directions perpendicular to the common longitudinal axis by hammering sectors shaped as a circumference sector till reducing an average diameter of the rope after the hammering to a diameter ranging from 99.9% to 80 of the average diameter of the rope before the hammering.

17. The process according to claim 15, wherein, before applying the external covering layer, an armor jacket of the multifilament rope is applied.

18. The process according to claim 15, wherein the jacket is applied by extruding a plastic material or Teflon about the rope using an extruder.

19. A method of drawing a flexible longitudinal element along a tubular passage duct, comprising: providing a draw tape having, an elongated flexible element portion made of a helical multifilament rope composed of at least three filaments or strands helically wound about a common longitudinal axis, a jacket wrapping the helical multifilament rope, and an external covering layer made of a plastic material that entirely covers an outer surface of the jacket, wherein the external covering layer has one or more radial external webs or ribs arranged along a circumference of a section of said external covering layer and oriented parallel to a longitudinal axis of the draw tape or with a helical arrangement about the longitudinal axis of the draw tape; attaching the flexible longitudinal element to the draw tape; and drawing the draw tape with the flexible longitudinal element attached thereto along the tubular passage duct.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Characteristics of the invention and advantages deriving therefrom will be more clear from the following detailed description of annexed drawings, wherein:

(2) FIG. 1 is the section of the strands of the rope forming the flexible element of the draw tape according to the present invention before hammering.

(3) FIG. 2 is the section of the strands of the rope forming the flexible element of the draw tape according to the present invention after hammering.

(4) FIG. 3 is a perspective view of the rope according to the present invention and of the covering.

(5) FIG. 4 is a plan view of the rope according to the present invention and of the covering.

(6) FIG. 5 is the hammering areas for producing a rope according to the present invention.

(7) FIGS. 6 to 8 are a further variant embodiment where the multifilament rope has seven strands and further a hammered armor external jacket.

(8) FIGS. 9 and 10 are two further variant embodiments where the rope is provided with several strands and the external covering made of plastic material is directly applied on the helically wound strands.

(9) FIGS. 11 and 12 are still a variant embodiment not providing a multifilament rope, but providing a rounded section elongated core that can also be made of non-metal material, such as plastic material or the like.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

(10) The draw tape for cables according to the present invention, as all the draw tapes for cables, comprises an elongated flexible element intended for being inserted in the cable duct or in a passage, a tube, a sheath or the like and at the rear end thereof with reference to the insertion direction, the cable or cables or any other elongated flexible elements are removably attached which are intended to be inserted in the cable duct, tube, or sheath provided for their installation.

(11) The elongated flexible element of the draw tape for cables according to the present invention is composed of a multifilament rope comprising three helically wound filaments or strands.

(12) The rope composing the flexible element of the draw tape for cables according to the present invention is produced by winding three filaments or strands 101, 102, 103 that compose the rope 1 with a helical shape around a common longitudinal axis denoted by A. Then the rope, that is the three helically wound strands or filaments 101, 102, 103 is hammered according to two or more directions perpendicular to the longitudinal axis A and then said assembly is covered by a jacket 2.

(13) Particularly according to a preferred manufacturing process shown in FIG. 5 it provides the strands 101, 102, 103 in their helically wound condition, to be hammered according to four directions perpendicular to the longitudinal axis at hammering sectors 61, 62, 63, 64 having the shape of sectors of a circumference that cover 90, until the average diameter of the assembly of helically wound strands 101, 102, 103 after hammering is reduced to the final diameter of the rope. The final diameter of the rope after peripheral hammering process is reduced to a diameter equal about to 80% to 99.9% of the average diameter of the rope before the hammering process.

(14) In particular it is possible to provide said diameter reduction due to the hammering action to be such to bring the average diameter of the rope after the hammering process to a diameter ranging from 85% to 95% of the average diameter of the rope before the hammering process. In a preferred embodiment the diameter reduction is such to bring the average diameter of the rope after the hammering to a diameter equal about to 92% of the average diameter of the rope before the hammering process.

(15) The application of the outer jacket, in a particular embodiment made of plastic material, is carried out, according to a preferred process, by passing the rope into an extruder, supplied with plastic material and/or Teflon. Thus the three filaments or strands 101, 102, 103 are covered by the jacket 2.

(16) It has to be noted how, due to the hammering effect, the section of the strands is flattened, passing substantially from a section shown in FIG. 1 where the strands 101, 102, 103 are simply side by side with each other to a section as in FIG. 2 where the three strands have contact lines and are flattened, both along the external edges and along the contact edges.

(17) Generally the hammering process occurs by two or more concave surfaces forming a sector of a circle acting in a radial direction and which surfaces complete with one another such to form a substantially circular surface.

(18) Then due to the application of the plastic material and/or Teflon the three filaments or strands 101, 102, 103 are covered by the jacket 2 such as shown in FIGS. 3 and 4.

(19) The figures show a preferred embodiment, where said filaments or strands are three and have the same diameter and are helically wound to form said rope, however the diameters of the strands can be all different from one another or only one strand can have a diameter different from the diameters of the other two strands that on the contrary are identical to each other.

(20) In FIG. 1 it is possible to note that the respective centers of the circumferences of the filaments or strands 101, 102, 103 are at the vertices of an equilateral triangle shown by dashed line, the center of gravity of such equilateral triangle corresponding to the longitudinal winding axis of the helicoid composed of the three filaments or strands.

(21) As regards the front and rear ends, not shown, they can be composed as in known draw tapes of separate constructional parts fastened to one of the two ends of the rope 1.

(22) Such ends can be coupled by mechanically securing deformable seats against end portions of the rope and/or can be also covered by the material of the jacket 2 at least partially or completely.

(23) A variant embodiment that can be provided as an alternative or in combination for making only one of the two ends or both said ends provides them to be formed as one piece with the rope by shaping the end portions of the strands forming the rope.

(24) Also in this case the ends can be at least partially covered by the jacket 2.

(25) With reference to the embodiment of FIGS. 6 to 8, the elongated flexible element of a draw tape is composed of a multifilament rope 10 comprising seven strands 110 the peripheral strands are helically wound about the central strand. The external surface of the multifilament rope 10 is wound in an armor jacket 11 composed of at least one strip of material, preferably metal material, such as for example steel, which strip has a predetermined thickness and a predetermined width and it is helically wound along the external surface of the rope 10. Moreover in the shown embodiment in order to seal possible slots 211 the strip 111 is further hammered for example by a technique and by devices similar to those of FIG. 5.

(26) The hammering of the armor jacket provides to improve the mechanical characteristics of the cable; however it is not an essentially necessary step for a solution having satisfying characteristics even if not the best characteristics.

(27) A process for making an armored cable is known from the patent application SV2005A000022.

(28) On the hammered or eventually not hammered armor layer 11 an outer covering layer 22 of plastic material is applied preferably by extrusion or even by injection molding, similar to that denoted by 2 in the previous example which however has along the perimeter of the cross section, essentially circular one, a plurality of longitudinal ribs 122. They can be spaced from each other according to various different or identical sizes and can have a rectilinear arrangement, that is parallel to the axis of the rope 10 or can be helically wound about the longitudinal central axis of the rope 10.

(29) The embodiment of FIG. 9 is different from the one of FIGS. 6 to 8, in the fact that the rope has a central core which is not composed of filaments or strands, but of a core with a substantially cylindrical section, made even of a non-metal material, as plastic material or the like. This core 220 is wound by filaments or strands, preferably metal ones 120 that are helically wound about said core 220.

(30) The external jacket 22 also in this case is similar to that of the embodiment according to FIGS. 6 to 8.

(31) Likewise the example of FIGS. 6 to 8 it is possible to provide also in this case of the variant of FIG. 9 an armor covering that would cover the assembly of strands 1220 winding the core 220.

(32) The example of FIG. 10 is similar to the example of FIGS. 1 to 5. The rope has a high number of strands 120, the jacket 22 is directly applied about the multifilament rope 20 and it is similar to that of the example of FIG. 10.

(33) FIGS. 11 and 12 show still a variant embodiment, where the multifilament rope always present in the previous embodiments is completely replaced by a flexible longitudinal element 220 made of non-metal material wound by a armor jacket 11 that can be hammered or not and that in turn is covered by an external jacket 22 completely identical to that of the examples of previous FIGS. 9 to 10.

(34) From the above it is clear how the different combinations of characteristics of the shown examples can be interchangeable such to optimize the shape and mechanical characteristics of the flexible elongated element of the draw tape.

(35) As regards the ends, they can be made and applied according to one or more of the characteristics described with reference to the embodiment of FIGS. 1 to 5.