NO172465B - DEVICE AT CABLE STATE, SPECIAL BEND FOR THE SAME - Google Patents

Description

The present invention relates to a device at a cable tray for guiding/supporting cables, wires, preferably in an industrial context, of the type specified in the introduction to the subsequent independent claim 1.

When installing cable bridges consisting of lengths of cable duct with a U-profile, bends with a U-profile are used between two adjacent lengths of cable duct to change the direction between them.

This change of direction can include small corrective changes that can be accommodated in the connection of two adjacent cable channel ends, to larger changes of direction where the above-mentioned bend must be used. In case of direction changes on e.g. 45° and 90°, it must e.g. bends with a corresponding arc angle are stocked. There may of course be a need for changes in direction different from the two angles mentioned. To achieve a smoothly curved transition between the cable channel lengths, it is also relevant to use bends with corresponding other arc angles. This results in a large inventory of bends with the various relevant arch dimensions.

The purpose of the present invention is to provide a bend where the above-mentioned disadvantages are removed, which is achieved by means of the features indicated in the characteristic of the subsequent independent claim 1 and subsequent non-independent claims.

By thus building up a bend from interconnected bend six ions, one can produce a bend with the desired arc angle. Thereby, the above-mentioned large inventory of bends with different arc angles is avoided.

The present invention relates to bends composed of bend six ions where the bend forms an arc in a plane parallel to the bottom of the bend, so-called horizontal bend, as well as bends curved in a plane parallel to the side walls of the bend, so-called vertical bend. The invention will be described in more detail in what follows with reference to examples of execution shown in the following drawing, where

Figure 1 shows a cable tray with a horizontal bend and a vertical bend respectively,

figure 2 shows a horizontal bend seen from above, and figure 3 shows a vertical bend seen in section from the side.

The cable duct 1, as shown in perspective in figure 1, consists of at least one cable duct length 2 with a U-profile and at least one bend 3 with a U-profile to form an arch on the cable duct at at least one end of the cable duct length 2.

Figure 1 shows a cable duct 1 with two bends 3 with an arc angle of 90° for a corresponding change in direction between adjacent cable channel lengths 2. The bends 3 shown are respectively a horizontal bend composed of bend sections 3a' and where the other bend 3 is a vertical bend composed of bend sections 3a".

Figure 1 shows three bend sections 3a in the bend 3 which together provide a bend arc of 90°. That is, one bend section covers an arc of 30° while two bend sections 3a cover an arc, i.e. a change of direction of 60°. By providing a somewhat movable connection between the bend sections 3a as well as between these and the cable duct lengths 2, the connected parts can be moved somewhat in relation to each other and thereby changes in direction can be provided that deviate from the aforementioned arcs of 30, 60 and 90° respectively.

This results in a very flexible cableway system where the connected parts can be given desired direction changes in relation to each other.

In general, the bend 3 is made up of bend sections 3a where the bend sections' opposite first and second end parts 4,5 have different sizes for placement of the bend section 3a's second end part 5 with a small size in an adjacent bend section 3a's first end part 4 with a large size so that they protrude into each other. A pin 6 is arranged in one of the first and second end parts 4,5 and is intended for engagement with an elongated slot 7 parallel to the longitudinal direction of the bending sex ion 3a in the other of the first and second end parts 4,5 for engagement with each other and adjustable connection of adjacent bend sections 3a, 3a. Bend sections 3a are shown in figures 2 and 3 which show respectively a horizontal bend and a vertical bend. For both bend types, it applies that the cross-section of the bend section 3a decreases from its one end part 5 to its other end part 4 in order to achieve the aforementioned engagement with each other. Said diminishing cross-section can occur in that the cross-section is tapered 8 in the longitudinal direction of the bend section 3a to provide said first and second end portions 4.5 of large and small size.

As the bend sections 3a have been described above, these can actually be straight on the condition that their connecting means and the mutual dimensions of the sections allow a certain mutual rotation.

Preferably, the bend sections 3a are curved in their longitudinal direction as shown in Figures 2 and 3.

The bend section 3a' as shown in figure 2 and which in figure 1 forms part of the horizontal bend, is curved in a plane parallel to its bottom 9. The bend section 3a'' as shown in figure 3 and as interconnected with several bend sections 3a'' constitutes the vertical bend 3 as shown in Figure 1, is curved in a plane parallel to its side walls 10.

In the bend section 3a', there is arranged a pin 6 in the second end part 5 of the bend section with a small size and a slot 7 in the first end part 4 of the bend section with a large size, and at the central longitudinal axis A. When connecting adjacent bend sections 3a', insert the pin 6 on one bend section into the slot 7 on the other bend section. The pin 6 can slide in the slot 7, whereby the bend sections can be adjusted in relation to each other in their longitudinal direction and that the bend sections can at the same time be rotated somewhat in relation to each other by the interacting first and second end parts 4 and 5 of large and small size, having a mutual tolerance that allows such movement.

The bend sections 3a'' are equipped with pins 6 and slots 7 arranged in the central longitudinal axis B of their side walls 10 and are connected together in the same way as described above and that approximately the same mutual freedom of movement is achieved for setting the bend sections in relation to each other.

The pins 6 are preferably manufactured in one piece with the bend sections 3a, which is preferably achieved by pressing out pins in the material of the bend section. The pins 6 project outwards from the second end portion 5 of the bend section 3a with a small size and cooperate with the slots 7 in the first end portions 4 of the bend section 3a with a large size.

Bend 3 consisting of bend sections 3a executed as alternative bend sections 3a' and 3a'' for horizontal bends and vertical bends, respectively, enables the construction of cable ducts with desired changes of direction between adjacent cable duct lengths 2 for the most appropriate routing of the cable duct and that great flexibility is achieved with consideration of the location of this in relation to any obstacles that the cableway must be routed around.

As previously mentioned, a simplified storage of bends 3 is also achieved, as these can be built up to the desired arc using the bend sections 3a, i.e. bend sections 3a' for horizontal bends 3 and bend sections 3a'' for vertical bends 3.

Claims (10)

1. Device at cable ducts for guiding/supporting cables, wires, preferably in an industrial context, where the cable duct (1) consists of straight cable duct lengths (2) with U-profile and bends (3) with U-profile inserted between two adjacent cable duct lengths (2) for a change of direction between these, characterized in that the bend (3) consists of bend sections (3a) where the opposite first and second end parts (4,5) of the bend section have different sizes for placement of the bend section's second end part (5) with a small size in an adjacent bend section's first end part (4) of large size, so that they protrude into each other, as well as a pin (6) arranged in one of the first and second end parts (4,5) and an elongated slot (7) parallel to that of the bend section (3a) longitudinal direction in the second of the first and second end parts (4,5) for engagement with each other and adjustable joining of adjacent bend sections (3a,3a). 2. Device according to claim 1, characterized in that the cross-section of the bend section (3a) decreases from its first end part (4) to its second end part (5). 3. Device according to claim 1 or 2, characterized in that the bend section (3a) is tapered (8) in its longitudinal direction to provide said first and second end portions (4,5) of large and small size. 4. Device according to one or more of claims 1 - 3, characterized in that the bend section (3a) is curved in its longitudinal direction. 5. Device according to claim 4, characterized in that the bend section (3a) is curved in a plane parallel to its bottom to provide a bend section (3a') for horizontal bend (3). 6. Device according to claim 5, characterized in that the pin (6) and slot (7) are arranged at the central longitudinal axis (A) of the base (9). 7. Device according to claim 4, characterized in that the bend section (3a) is curved in a plane parallel to its side walls (10) to provide a bend section (3a'') for vertical bend (3). 8. Device according to claim 7, characterized in that the pin (6) and slot (7) are arranged at the central longitudinal axis (B) of the side wall. 9. Device according to one or more of claims 1 - 8, characterized in that the pin (6) is one with the bend section (3a). 10. Device according to claim 9, characterized in that the pin (6) is pressed out into the goods of the bent six ion (3a), preferably in the second end part (5) of small size and protrudes from this for engagement with the slot (7) punched out in it first end portion (4) with large size.