CABLE LADDER

Abstract

A cable ladder formed by two side rails and crosspieces, all formed of extruded polymer material. The side rails have a channel receiving a corresponding end of the crosspieces. The channel has a lower rib and an upper rib. A projection of the lower rib or upper rib has openings along a longitudinal direction of the side rail. The ends of the crosspieces go through the opening of the projection and have a recess in which a corresponding portion of the channel is snap-fitted. The lower rib of the side rails is bent over itself along a bending line, such that a final section of the lower rib experiences downward expansion by elastic bending when the end of the crosspiece is introduced.

Claims

1. A cable ladder comprising: two parallel side rails attached to one another by a plurality of parallel crosspieces spaced from one another, said plurality of crosspieces forming a discontinuous support surface for cables, wherein each of said crosspieces is an extruded profile made of a polymer material, wherein each of said side rails is an extruded profile made of a polymer material having, on an inner side thereof facing the other side rail, a channel receiving a corresponding end of said crosspiece, wherein said channel is demarcated by a lower rib and an upper rib, said lower rib or said upper rib having at an end thereof a projection extending towards an inside of said channel, and a plurality of openings spaced from one another along a longitudinal direction of said side rails being formed in one of said projections, wherein each of two ends of each of said crosspieces is formed such that each end goes through one of said openings in the projection of the corresponding side rail and tightly fits in said channel of said side rail, wherein said channel in the inner side of each side rail and the two ends of each of said crosspieces are formed such that each of said ends fits and is snap-fitted into said channel of the corresponding side rail, wherein each of said ends of said crosspieces is provided with at least one recess in which a corresponding portion of said channel of the side rail is snap-fitted, and wherein and said lower rib of said side rails is bent over itself along a bending line, such that a final section of said lower rib is a free end section which undergoes a slight lowering by elastic bending with respect to said bending line, said slight lowering by elastic bending widening said channel of the side rail during introduction of the corresponding end of the crosspiece.

2. The cable ladder according to claim 1, wherein said recesses at each of the ends of the crosspiece include a groove traversing said crosspiece.

3. The cable ladder according to claim 1, wherein said portion of the channel of the side rail which is snap-fitted in said recess is one of said projections of the lower rib or of the upper rib of the channel of the side rail.

4. The cable ladder according to claim 1, wherein said portion of the channel of the side rail which is snap-fitted in said recess is a protuberance formed inside said channel of the side rail.

5. The cable ladder according to claim 3, wherein said crosspieces are provided with through holes for receiving a cable fastener.

6. The cable ladder according to claim 5, wherein said crosspieces are provided with a hollow longitudinal rail open on a first side of said crosspiece.

7. The cable ladder according to claim 6, wherein said through holes are on an opposite side with respect to said first side of said crosspieces.

8. The cable ladder according to claim 7, wherein the two ends of each of said crosspieces are formed to fit and are snap-fitted into said channel of the corresponding side rail, both in a first position of said crosspiece and in a second position in which said crosspiece is turned 180° with respect to said first position.

9. The cable ladder according to claim 8, wherein each end of said crosspieces comprises two of said recesses: a first recess of which is on at he first side of the crosspiece and a second recess on at he second side of the crosspiece opposite said first side, said first recess and said second recess being formed such that said portion of the channel of the side rail is alternately snap-fitted in each of them, when said crosspiece is alternately located in said first position or in said second position.

10. The cable ladder according to claim 7, wherein each end of said crosspieces comprises a window formed on the opposite side of said crosspiece, one of said recesses being arranged on the first side of said crosspiece, and said projection in the lower rib of said side rails has two of said openings demarcating between them a finger which is snap-fitted in said window.

11. The cable ladder according to claim 1, wherein a bottom of said channel of the side rails forms an inner wall on which the end of the corresponding crosspiece is supported when it is fitted and snap-fitted into said channel.

12. The cable ladder according to claim 1, wherein in each of said two side rails said bending line is in a protruding position in opposite direction with respect to the other one of said two side rails such that said free end section of the lower rib extends from said bending line towards said another side rail.

13. The cable ladder according to claim 1, wherein in each of said two side rails said bending line is in a protruding position towards the other one of said two side rails such that said free end section of the lower rib extends from said bending line away from said another side rail.

14. The cable ladder according to claim 4, wherein said protuberance is formed at an end of said free end section of the lower rib.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0033] The advantages and features of the invention can be seen from the following description in which preferred embodiments of the invention are described in reference to the drawings in a non-limiting manner with respect to the scope of the main claim.

[0034] FIG. 1 is a perspective view of a cable ladder according to a first embodiment of the invention, in an assembled position.

[0035] FIG. 2 is an enlarged partial view of FIG. 1, showing a final section of the cable ladder disassembled.

[0036] FIG. 3 is a view corresponding to that of FIG. 2, with the cable ladder in an assembled position.

[0037] FIG. 4 is a profile view of this first embodiment of the cable ladder, in which the side rails have been depicted sectioned along a plane going through the central axis of a crosspiece.

[0038] FIG. 5 is a view similar to that of FIG. 2, showing a second embodiment of the cable ladder according to the invention; one of the crosspieces has been depicted alone in a turned over position in this drawing.

[0039] FIG. 6 is a view corresponding to that of FIG. 5, with the cable ladder in an assembled position.

[0040] FIG. 7 is a profile view of the second embodiment of the cable ladder, in which the side rails have been depicted sectioned along a plane going through the central axis of a crosspiece.

[0041] FIG. 8 is a view similar to that FIG. 2, showing a third embodiment of the cable ladder according to the invention.

[0042] FIG. 9 is a view corresponding to that of FIG. 8, with the cable ladder in an assembled position.

[0043] FIG. 10 is a profile view of the third embodiment of the cable ladder, in which the side rails have been depicted sectioned along a plane going through the central axis of a crosspiece.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

[0044] FIGS. 1 to 4 show a first embodiment of a cable ladder according to the invention. As can be seen in FIG. 1, the cable ladder is formed by two parallel side rails 1a attached to one another by a plurality of parallel crosspieces 2A regularly spaced from one another. The two side rails 1a are identical and are placed symmetrically with respect to one another. Each of them consists of an extruded profile made of a polymer material. An electrically insulating material with a surface resistivity greater than 100 MΩ, such as PVC (polyvinyl chloride), for example, is preferably chosen as the polymer material. The crosspieces 2A are all identical and also consist of an extruded profile made of the same material as the side rails 1a. Like in the cable ladders of the state of the art, the assembly of crosspieces 2A forms a discontinuous support surface for cables, on which cables held by the cable ladder are laid. The person performing the installation can fix, at their own discretion, the cables to the crosspieces 2A using different fastening means (not depicted). To that end, it has on one side 13A of the crosspiece 2A through holes 3 regularly distributed along same, and on the opposite side 14A of the crosspiece 2A a hollow longitudinal rail 15A open on said opposite side 14A. The through holes 3 allow using a common clamp as cable fastening means, whereas the rail 15A allows using a cable fastening part that fits in a sliding manner in said rail 15A and can be fixed in any position along same. As can be seen in FIGS. 1 and 3, the crosspieces 2A are preferably alternately assembled in positions turned 180°, such that the through holes 3 and the rails 15A are alternately provided on one and the same face of the cable ladder in successive crosspieces 2A. This assembly is performed very easily because, as will be seen in detail below, the ends of the crosspiece 2A fit and are snap-fitted into a channel 4a of each side rail 1a, both in a first position of the crosspiece 2A, in which the through holes 3 are arranged in an upper face of the cable ladder, and in a second position of said crosspiece 2A turned 180°, in which the rail 15A is arranged in said upper face.

[0045] As can be seen in greater detail in FIGS. 2 and 4, each of the side rails 1a has, on its inner side facing the other side rail 1a, a channel 4a receiving a corresponding end of the crosspiece 2A. The channel 4a is demarcated by a lower rib 5a and an upper rib 6a. The lower rib 5a and the upper rib 6a have at their end a projection, respectively 7a and 8a, extending towards the inside of the channel 4a. The projection 7a at the end of the lower rib 5a is a finger extending uninterruptedly along the side rail 1a. The projection 8a at the end of the upper rib 6a is a right flange also extending along the side rail 1a, but is interrupted at regular intervals by rectangular openings 9a, with a width substantially equal to that of the crosspiece 2A and a height slightly less than that of said right flange or projection 8a. The lower rib 5a is bent over itself along a bending line 19a such that a final section of said lower rib 5a is a free end section. This bending line 19a is in a protruding position in opposite direction with respect to the other side rail 1a, such that the final free end section of the lower rib 5a extends from said bending line 19a towards the other side rail 1a. As can be seen particularly in FIG. 4, the bottom of the channel 4a forms an inner wall 18a on which the end of the corresponding crosspiece 2A is supported when it is fitted and snap-fitted into said channel 4a.

[0046] Each crosspiece 2A is a C-shaped profile, in which the larger full face is perforated to form the through holes 3, whereas the open opposite face forms the rail 15A. Each of the two ends of the crosspiece 2A is formed such that it goes through the opening 9a formed in the projection 8a of the side rail 1a and tightly fits in the channel 4a. Furthermore, each of said ends of the crosspiece 2A is provided with a first recess 10A on the side forming the rail 15A, and with a second recess 11A on the side provided with the through holes 3. Both the first recess 10A and the second recess 11A consist of a groove transversely traversing the crosspiece 2A. These two grooves have the same section and are arranged in the same position with respect to the longitudinal direction of the side rail 2A. The only difference between them is that the groove forming projection 11A is continuous, whereas the groove forming projection 10A is interrupted by the rail 15A.

[0047] As mentioned above, the crosspiece 2A can be arranged in two positions turned 180° with respect to one another. In each of these two positions, the end of the crosspiece 2A fits and is snap-fitted into the channel 4a of the corresponding side rail 1a. Particularly, in each of these two positions one and the same portion of the channel 4a, specifically projection 7a in the lower rib 5a, is snap-fitted in the groove forming the recess 10A or in the groove forming the recess 11A, according to the position of the crosspiece 2A. Furthermore, the opening 9a preferably has a height slightly less than that of the right flange forming the projection 8a of the upper rib 6b, such that at the level of said opening 9a, said projection 8a has a reduced height and is likewise snap-fitted in the groove forming the recess 10A or in the groove forming the recess 11A, according to the position of the crosspiece 2A, as seen in FIG. 4.

[0048] FIGS. 5 to 7 show a second embodiment having the same general configuration as the first embodiment: the cable ladder is formed by two identical side rails 1b placed symmetrically with respect to one another, and a plurality of identical crosspieces 2B, all of them being extruded PVC profiles. In the drawings, the elements of the side rails 1b similar to those of the side rails 1a of the first embodiment are designated with the same reference numbers but with the suffix “b” instead of “a”. Likewise, the elements of the crosspieces 2B similar to those of the crosspieces 2A of the first embodiment are designated with the same reference numbers but with the suffix “B” instead of “A”.

[0049] The differences with respect to the first embodiment are as follows: [0050] in the channel 4b of the side rails 1b, the right flange forming the projection 8b of the upper rib 6b does not have openings, such that it extends uninterruptedly along the side rail 1b, whereas the continuous finger forming the projection 7b in the lower rib 5b is interrupted by the openings 9b, which are arranged in pairs demarcating between them a short finger 17 which is snap-fitted in a window 16 formed at the end of the crosspiece 2B; [0051] the crosspieces 2B do not have a transverse groove on the side 13B; the window 16 in which the short finger 17 is snap-fitted has been arranged in its place; [0052] the crosspiece 2B can only be placed in the position shown in the drawings; it is not possible to suitably fit it in the side rail 1b in a position turned 180°; [0053] as can be seen in FIGS. 6 and 7, when the end of the crosspiece 2B is fitted and snap-fitted into the channel 4b of the side rail 1b, the short finger 17 of the lower rib 5b is snap-fitted in the window 16 on the side 13B of the crosspiece 2B, whereas the right flange forming the projection 8b in the upper rib 6b is snap-fitted in the transverse groove forming the recess 10B on the other side 14B of the crosspiece 2B.

[0054] FIGS. 8 to 10 show a third embodiment having the same general configuration as the first embodiment: the cable ladder is formed by two identical side rails 1c placed symmetrically with respect to one another, and a plurality of identical crosspieces 2A, all of them being extruded PVC profiles. The crosspieces 2A are the same as in the first embodiment, only the side rails 1c are different. In the drawings, the elements of the side rails 1c similar to those of the side rails 1a of the first embodiment are designated with the same reference numbers but with the suffix “c” instead of “a”. The differences with respect to the first embodiment are as follows: [0055] in the channel 4c of the side rails 1c, the upper rib 6c does not have a projection, whereas the projection 7c formed at the end of the lower rib 5c is located at the level of the bending line 19c and is interrupted by the openings 9c; [0056] the bending line 19c is in a protruding position towards the other side rail 1c, such that the final free end section of the lower rib 5c extends from said bending line 19c away from said another side rail 1c; [0057] the portion of the channel 4c of the side rail which is snap-fitted in the recess 10A, 11A of the crosspiece 2A is a protuberance 12c formed inside said channel 4c, particularly at the end of said final free end section of the lower rib 5c.

[0058] It will be observed that like in the first embodiment, in this third embodiment the crosspiece 2A can be arranged in two positions turned 180° with respect to one another. In each of these two positions, the end of the crosspiece 2A fits and is snap-fitted into the channel 4c of the corresponding side rail 1c. Particularly, in each of these two positions, one and the same portion of the channel 4c, specifically the protuberance 12c, is snap-fitted in the groove forming the recess 10A or in the groove forming the recess 11A, according to the position of the crosspiece 2A. The end of the side rail 2A is securely snap-fitted into the channel 4c as a result of the final free end section of the lower rib 5c applying an elastic force on the corresponding side of the side rail 2A, pushing the opposite side of said side rail 2A against the upper rib 6c of the channel 4c.

[0059] In all the embodiments, both the side rails 1a, 1b, 1c and the crosspieces 2A, 2B are extruded profiles in which different functional elements, such as through holes 3, recesses 10A, 10B, 11A, windows 16, openings 9a, 9b, 9c, as well as other functional elements, such as through holes in the side rails 1a, 1b, 1c, for example, for the fixing thereof to other structures, have been made by machining after extrusion.

[0060] In addition to the differences described between the side rails 1a, 1b, 1c, it will be observed in the drawings that there are other differences in the portions thereof that do not interact with the ends of the crosspieces 2A, 2B. These other differences do not have a direct relation with the invention and therefore have not been described in detail. Particularly, it will be observed that the side rails may have an upper portion, such as in the side rail 1a, intended for supporting a cover or other complements for the cable ladder, or they may not have said upper portion, as is the case of side rails 1b and 1c.