FLEXIBLE MULTI-WIRE POWER SUPPLY CABLE WITH LINEAR CURRENT RECEPTION

Abstract

A flexible multi-wire power supply cable with linear current reception, provided with a flexible screen (1) made of an elastomer with properties typical for an electric insulator and with at least two conductor wires (2) made of electric conductor, preferably a flexible conductor, characterised in that the conductor wires (2) are partially, that is, at parts of the circumference of the cross-section, moulded inside the flexible screen (1), with an inner separating strip (3) comprising an integral part of the flexible screen (1) between them, the outer surface of which transitions into symmetrical screen strips (4), which together with the inner separating strip (3) form guiding grooves (5) open at the bottom, providing space for uninsulated parts of conductor wires (2).

Claims

1. A flexible multi-wire power supply cable with linear current reception, provided with a flexible screen (1) made of an elastomer with properties typical for an electric insulator and with at least two conductor wires (2) made of electric conductor, preferably a flexible conductor, the conductor wires (2) are partially, that is, at parts of the circumference of the cross-section, moulded inside the flexible screen (1), with an inner separating strip (3) comprising an integral part of the flexible screen (1) between them, the outer surface of which transitions into symmetrical screen strips (4), which together with the inner separating strip (3) form guiding grooves (5) open at the bottom, providing space for uninsulated parts of conductor wires (2), characterised in that the screen strips (4) have edges of its cross-section longer than the height of the separating strip (3), with said edges are touching without being fixed, along the longitudinal axis of the cable, thus creating a pocket insulating the conductor wires (2).

2. A flexible multi-wire power supply cable with linear current reception according to claim 1, characterised in that the flexible electric conductor used to make the conductor wires (2) is in the form of a twisted rope made of many small wires, preferably wrapped inside a conductor tape.

3-4. (canceled)

5. A flexible multi-wire power supply cable with linear current reception according to claim 1, characterised in that a carrier rope (6) made of steel or of other metals or of polymer fibres or of a mixture thereof with metals or of natural fibres or of a mixture thereof with polymer fibres is preferably moulded inside the flexible screen (1), above the conductor wires (2).

6. A flexible multi-wire power supply cable with linear current reception according to claim 1, characterised in that a carrier strip (7) made of steel tapes or of other metals or of polymer tapes or of a mixture thereof with metal tapes or of natural fibres or of a mixture thereof with polymer fibres is preferably moulded inside the flexible screen (1), above the conductor wires (2).

7. A flexible multi-wire power supply cable with linear current reception provided with a flexible screen (1) made of an elastomer with properties typical for an electric insulator and with at least two conductor wires (2) made of electric conductor, preferably a flexible conductor, the conductor wires (2) are partially, that is, at parts of the circumference of the cross-section, moulded inside the flexible screen (1), with an inner separating strip (3) comprising an integral part of the flexible screen (1) between them, the outer surface of which transitions into symmetrical screen strips (4), which together with the inner separating strip (3) form guiding grooves (5) open at the bottom, providing space for uninsulated parts of conductor wires (2), characterised in that the flexible screen (1) is formed as a strip with top (8) and bottom (9) surfaces, which smoothly transition into the screen strips (4), the outer edges of which touch without being fixed, along the lines parallel to the longitudinal axis of the cable, while longitudinal guiding grooves (5) are formed as pockets insulating conductor wires (2) between the screen strips (4) and the conductor wires (2).

8. A flexible multi-wire power supply cable with linear current reception according to claim 7, characterised in that non-through depressions (10) are provided in the bottom surface (9) of the flexible screen (1), along the longitudinal axis of the cable, placed evenly or unevenly, wherein the distance between such depression is preferably in the range between 5 and 300 mm.

9. A flexible multi-wire power supply cable with linear current reception according to claim 7, characterised in that non-through depressions (11) are provided in the top surface (8) of the flexible screen (1), along the longitudinal axis of the cable, placed evenly or unevenly, wherein the distance between such depression is preferably in the range between 5 and 300 mm.

10. A flexible multi-wire power supply cable with linear current reception according to claim 1, characterised in that the conductor wires (2) are formed as a conductor tape bundle (12).

11. A flexible multi-wire power supply cable with linear current reception according to claim 1, characterised in that the flexible screen (1) is preferably provided in its top part with a fixing strip (13, 14), the width of the top base B of which is equal to or greater than the width of the bottom base b of the strip (13, 14).

12. A flexible multi-wire power supply cable with linear current reception according to claim 11, characterised in that a carrier rope (6) made of steel or of other metals or of polymer fibres or of a mixture thereof with metals or of natural fibres or of a mixture thereof with polymer fibres is moulded inside the fixing strip (13, 14) of the flexible screen (1).

13. A flexible multi-wire power supply cable with linear current reception according to claim 11, characterised in that the flexible screen (1) is provided with a fixing strip (13, 14) in its top part, with openings (15) provided in the strip, in surfaces lateral to the longitudinal axis of the cable, with the openings (15) formed as through or non-through openings.

14. A flexible multi-wire power supply cable with linear current reception according to claim 7, characterised in that through openings (16, 17) are provided in the flexible screen (1), between the top (8) and the bottom (9) surfaces, at equal or different distances from each other.

15. A flexible multi-wire power supply cable with linear current reception according to claim 14, characterised in that the surface area of the cross-section of through openings (16, 17) is larger on the side of the bottom surface (9) than on the side of the top surface (8).

16. A flexible multi-wire power supply cable with linear current reception according to claim 7, characterised in that a toothed comb (18) is provided in the top part of the flexible screen (1), along the longitudinal axis of the cable.

17. A flexible multi-wire power supply cable with linear current reception according to claim 7, characterised in that a fixing groove is provided in the top part of the flexible screen (1), along the longitudinal axis of the cable, the open, outlet edges of the cross-section of which are more narrow than groove edges (19) located deeper in the flexible screen (1).

18. A flexible multi-wire power supply cable with linear current reception, provided with a flexible screen (1) made of an elastomer with properties typical for an electric insulator and with at least two conductor wires (2) made of electric conductor, preferably a flexible conductor, the conductor wires (2) are partially, that is, at parts of the circumference of the cross-section, moulded inside the flexible screen (1), with an inner separating strip (3) comprising an integral part of the flexible screen (1) between them, the outer surface of which transitions into symmetrical screen strips (4), which together with the inner separating strip (3) form guiding grooves (5) open at the bottom, providing space for uninsulated parts of conductor wires (2), characterised in that that the separating strip (3) is split along the longitudinal axis into at least two inner screen strips (4) touching at the edges of the outer screen strips (4) without being fixed, along the longitudinal axis of the cable, forming two pockets insulating the conductor wires (2), wherein the outer screen strips (4) swing outwards thus forming outwardly directed pockets to isolate the conductor wires (2) to ensure a side access for the conductor wires (2).

Description

[0033] The subject of the invention is presented in embodiments in the figures, in which:

[0034] FIG. 1 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with two conductor wires and guiding grooves open at the bottom;

[0035] FIG. 2 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with three conductor wires;

[0036] FIG. 3 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with screen strips touching at their outer edges;

[0037] FIG. 4 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which the outer edges of the split inner separating strip and of the screen strips touch each other;

[0038] FIG. 5 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a carrier rope;

[0039] FIG. 6 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a carrier strip;

[0040] FIG. 7 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception provided in the form of a flat strip with monolithic top and bottom surfaces of the flexible screen and side access to conductor wires in the guiding grooves covered by the screen strips;

[0041] FIG. 8 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a carrier rope and with depressions in the bottom screen surface;

[0042] FIG. 9 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with depressions in the top and the bottom screen surfaces;

[0043] FIG. 10 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception to provide three phase power supply in a four-cable system with doubled configuration of power supply wires and guiding grooves by placing them inside the flexible screen, one over the other;

[0044] FIG. 11 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a bundle conductor wire provided as a conductor tape bundle;

[0045] FIG. 12 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a narrowing fixing strip protruding from the flexible screen, with a dovetail cross-section;

[0046] FIG. 13 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a narrowing fixing strip provided with a carrier rope;

[0047] FIG. 14 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a straight fixing strip protruding from the flexible screen, with a rectangular cross-section and with transverse openings in the straight fixing strip;

[0048] FIG. 15 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with periodically provided, through openings in the screen, perpendicular to the cable axis;

[0049] FIG. 16 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with periodically provided, through openings in the screen, with their cross-section surface area increasing along the axis of the opening;

[0050] FIG. 17 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a toothed comb protruding from the flexible screen;

[0051] FIG. 18 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a longitudinal fixing groove provided in the top surface of the flexible screen;

[0052] A flexible, multi-wire power supply cable with linear power reception according to the invention is characterised in that in the flexible screen (1) made of elastomer with properties characterised for electric insulators in which there are partially, namely not along the entire circumference of the cross-section, moulded at least two conductor wire (2) made of electric conductor, preferably of a flexible conductor, for example in the form of a twisted cable made of many wires, preferably wrapped with a conductor tape, between which an inner separating strip (3) comprising an integral part of the flexible screen (1) is located, the outer surface of which transitions into symmetrical screen strips (4), which together with the inner separating strip (3) form guiding grooves (5) open at the bottom, providing a space, inside which the uninsulated parts of the cross-section of conductor wires (2) run, wherein a carrier rope (6) or a carrier strip (7) is moulded inside the flexible screen (1) above the conductor wires (2), made of steel or of other metals or of synthetic or natural fibres, or of a mixture of metal and synthetic fibres, synthetic or other, the separating strips (3) and the screen strips (4) may touch at their outer edges or leave a slit, and additionally, at the bottom surface (9) of the flexible screen (1), along the longitudinal axis of the cable, non-through depressions (10) may be provided in equal or unequal distance from each other, the flexible screen (1) may be provided with a narrowing fixing strip (13) or with a straight fixing strip (14) in its top part, additionally, toothed combs (18) or longitudinal grooves (19) may be provided in the flexible screen, or through openings (16) are provided between the top surface (8) and the bottom surface (9) of the flexible screen (1), in equal or unequal distances from each other, perpendicular to the longitudinal axis of the cable.

EXAMPLES

Example 1

[0053] FIG. 1 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, with two conductor wires (2) and guiding grooves (5) open at the bottom, with a flexible screen (1) made of an elastomer with properties typical for an electric insulator comprising an integral part of the cable. Two conductor wires (2) made of an electrical conductor are partially moulded into the flexible screen (1). An inner separating strip (3) comprising an integral part of the flexible screen (1) is placed between the conductor wires (2), the outer surface of which transitions into symmetrical screen strips (4) which together with the inner separating strip (3) form guiding grooves (5) open at the bottom and providing space, in which uninsulated parts of the cross-section of conductor wires (2) run.

Example 2

[0054] FIG. 2 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with three conductor wires (2);

Example 3

[0055] FIG. 3 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which the screen strips (4) are longer than the separating strip (3) and touch at their outer edges, resulting in the guiding grooves (5) forming a pocket, additionally insulating the conductor wires (2) from the environment.

Example 4

[0056] FIG. 4 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which the separating strip (3) is divided along the longitudinal lines into at least two strips touching the outer edges (4) of the screen strips, forming two separate pockets isolating the conductor wires (2) from the environment.

Example 5

[0057] FIG. 5 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which a steel carrier rope (6) is moulded inside the flexible screen (1), above the conductor wires (2). The carrier rope is made of twisted, steel wires forming a structure analogous to a rope twisted from other materials. The carrier rope is intended to relief the wire and to remove their function of carrying and transferring mechanical loads. A steel rope used in conveyor belts with steel ropes may be an example of a steel carrier rope.

Example 6

[0058] FIG. 6 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which a steel carrier strip (7) is moulded inside the flexible screen (1), above the conductor wires (2). The carrier strip, similar to the carrier rope, relieves the cable from its function of carrying and transferring loads and enables cable optimisation in terms of ensuring its long useful lifetime, good contact and low resistance, it also mitigates microdamage caused by variable, cyclical mechanical loads. The carrier strip may, for example, have the form of a band of parallel, thin steel wires or a steel tape bundle.

Example 7

[0059] FIG. 7 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, formed as a flat strip with monolithic top (8) and bottom (9) surfaces of the flexible screen (1), which smoothly transition into screen strips (4), the outer edges of which touch, without being fixed, along lines parallel to the longitudinal axis of the cable, forming pockets insulating the conductor wires (2) from the environment.

Example 8

[0060] FIG. 8 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, analogous to the one presented in FIG. 7, additionally provided with a carrier rope (6) and a depression (10) in the bottom surface of the screen. The depressions (10) may be used to fix a supporting—adjusting structure, but also as an element cooperating with a carriage driving wheel with geometrical protrusions matching the depressions.

Example 9

[0061] FIG. 9 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, analogous to the one presented in FIG. 7, additionally provided with depressions (10) and (11), respectively, in the bottom and the top surface of the screen. The depressions (10) and (11) may be used, for example, to support the cable at the bottom, if the carriage moves along the top surface of the cable.

Example 10

[0062] FIG. 10 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception to provide three phase power supply in a four-cable system with doubled configuration of conductor wires (2) and guiding grooves (4) by placing them inside the flexible screen (1), one over the other.

Example 11

[0063] FIG. 11 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a bundle conductor wire (12) provided as a conductor tape bundle. The bundle wire is constructed for the same purpose as twisted cables—in order to increase flexibility of the entire structure. This is the design used, for example, with high current flat strips providing power supply e.g. for mobile receivers.

Example 12

[0064] FIG. 12 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which a fixing strip (13) with a “dovetail” cross-section protrudes upwards from the flexible screen (1), wherein B denotes the maximum width of the fixing strip (13) and b denotes the minimum width of the fixing strip (13). The dovetail is used to attach the cable to supports along the way—the fixing element and the adjustment is a profiled connection—the cable hanger is provided with removable elements with shapes corresponding to the dovetail and sides of such a strip transfer the weight to the hanger.

Example 13

[0065] FIG. 13 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which a fixing strip (13) provided with a steel carrier rope (6) protrudes upwards from the flexible screen (1).

Example 14

[0066] FIG. 13 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which a fixing strip (14) with a rectangular cross-section, provided with transverse openings along the straight fixing strip (14) protrudes upwards from the flexible screen (1). The rectangular shape of the cross-section of the top strip minimises the cross-section surface area inaccessible to carriage rollers, and perpendicular openings formed in this strip are used for fixing purposes.

Example 15

[0067] FIG. 15 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which through openings (16) perpendicular to the cable axis are periodically provided in the flexible screen (1). These openings are used to fix the supporting cable.

Example 16

[0068] FIG. 16 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which through openings (17) with cross-section surface area increasing along the axis of the opening (17) are periodically provided in the flexible screen (1). Such openings are used to fix the cable on an external supporting structure, where load transfers and adjustments take place via the conical surface of the nut or of a pad supported, for example, by a screw passed through.

Example 17

[0069] FIG. 17 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception, in which a toothed comb (18) protrudes upwards from the flexible screen (1). The toothed comb cooperates with the toothed wheel of the carriage drive.

Example 18

[0070] FIG. 18 presents a cross-section through a flexible, multi-wire power supply cable with linear power reception with a longitudinal fixing groove (19) with trapezoidal shape is provided in the top surface of the flexible screen (1). The trapezoidal cross-section is used to fix hangers as load-transferring elements and may be easily assembled.