NO313264B1 - Method of manufacturing a beam for a storage rack and arrangement of beams for storage rack - Google Patents

Description

The invention relates to a method for manufacturing a beam for a storage rack, where a profile beam with a suitable appearance is clamped or pressed flat at both ends and hooks are provided for engagement with holes in posts provided with rows of holes in the storage rack.

The invention also relates to a device for beams for storage racks, which beams are intended to be attached to posts provided with rows of holes, each beam consisting of a profile of a suitable appearance, the two ends of which are compressed into a respective flat surface that extends in the longitudinal direction of the beam , which flat surface is connected by an angle profile with hooks protruding from the angular side connected to the flat surface for engagement with holes in the said rows of holes.

One of the main components in a pallet racking system is a support beam which together with a corresponding, parallel placed support beam forms the "shelf" on which the pallets can rest. Usually such a support beam consists of three parts, namely a beam profile of a given length and a fitting (end attachment/locking piece) at each end of the beam. The aforementioned fittings are equipped with a form of hooks/lips for fixing in corresponding holes in vertical frames/posts. The joining of the fittings to the beam profiles is normally done by welding. A disadvantage of this is that the weld must be varnished afterwards, which entails a significant production cost. It is also not very beneficial to use galvanized profiles and end fittings because the welding destroys the thin zinc layer so that the weld is easily exposed to corrosion. If necessary, the weld must be varnished afterwards, which increases the costs of the production of support beams.

Another embodiment of support beams in pallet racks is one where the support beam is designed in one piece and the profile in the support beams itself is clamped flat at each end and hooks are designed directly into the flat clamped profile material. A disadvantage of such a design is that you then have to have the same material thickness and quality in both the beam profile itself and in the end fasteners, with the result that by optimizing the material in the beam profile itself you achieve too little capacity in the end fasteners, or that by optimizing with consideration of the end fasteners leads to an uneconomical consumption of material in the beam profile.

The present invention relates to pallet racks where the support beams consist of several parts, i.e. the beam profile itself and associated fittings. The advantage of this is that you can choose different thicknesses and qualities in the fittings or end fittings in relation to the beam profile itself. A particular purpose of the invention is to enable the use of materials that have been surface-treated in advance, for example pre-lacquered or pre-galvanized materials, in both the beam profile as well as in the fittings.

A particular purpose is to use a joining technique that provides the desired moment capacity and moment stiffness in the connection between beam profiles and end fasteners, and between the end fasteners and the posts.

According to the invention, a method is therefore proposed as mentioned at the outset, characterized by the fact that each of the flattened ends is brought into contact with an angle side of an angle profile, which angle side is provided with hooks for engagement with the holes in the posts, and that the flattened beam end and the aforementioned angled sides are connected to each other by pressing discrete sections of material that form rivets from the angled side through the flattened beam end.

According to the invention, a device as mentioned at the outset is also proposed, which device is characterized by the fact that the flat surface and the said angular side have mutual abutment and are connected to each other with discrete material sections pressed from the angular side through the flat surface forming rivets.

The compressed or flattened beam sections are located at the two beam ends, but one can also imagine beam designs where there are one or more flattened or compressed beam sections between the two beam ends, which beam section or sections are provided with one or two angle profiles as mentioned, possibly a U-profile with bent hooks at the bottom of the U.

It will be understood that what characterizes the invention is that the components are joined mechanically without the use of heat (welding) or any form of additive material/components. Thereby, you gain the advantage of being able to choose different thicknesses and qualities in the end fasteners in relation to the beam profile itself, and possibilities for using materials that have been surface-treated in advance. A significant advantage in this connection is an environmental advantage that is achieved by avoiding heating/melting of surface-coated materials.

The joining technique used is a "rivet" technique which can be realized by a piston being partially inserted into the two joined plates and pushing out a discrete portion of material, so that a kind of rivet connection is formed.

As the material is extruded from the angle side where the bent hooks are extruded, the otherwise smooth surface, which is intended for installation against the respective post, is retained.

The invention means that the costs of producing pallet racks are significantly reduced, especially compared to welded and painted solutions.

The invention will now be explained in more detail with reference to the drawings, where

fig. 1 shows an elevation of a support beam according to the invention,

fig. 2 shows a section through the support beam in fig. 1 after the section line n,

fig. 3 shows an example of a pallet rack with support beams according to the invention,

fig. 4 shows a flattened beam profile end and an angle profile before joining,

fig. 5 shows the two in fig. 4 shown components joined together,

fig. 6 shows an end view of the support beam in fig. 1 and 5,

fig: 7 shows a top view of the end section in fig. 5,

fig. 8 shows an elevation of a possible beam design according to the invention, and fig. 9 shows a section through a typical "rivet" connection.

The one in fig. 1 shown support beam 1 consists of three components, namely a beam profile 2 and a respective end fitting in the form of angle profiles 3,4.

The beam profile 2 has a per se known cross-sectional shape as shown in fig. 2, and the beam profile is thus shaped by bending a plate to that in fig. 2 shown form. Suitable spot welds are indicated at 5.

The beam profile 2 is pressed flat at each end, i.e. it is designed with a compressed part 6, 7 so that at each end of the support beam 1 a flat surface is formed which extends in the longitudinal direction of the beam.

Each angle profile 3,4, see especially the angle profile 4 in fig. 4 to 7, is provided on an angular side 8 with a number of extruded hooks 9, intended for hanging in a manner known per se in holes in rows of holes in posts 10 in a pallet rack, see fig. 3. In fig. 3, the rows of holes in the posts 10 are not shown in more detail, as this concerns a technique well known to the person skilled in the art.

The angular side 8 provided with the hooks or hooks 9 is placed against the compressed beam end part 7 and connected to this by the fact that from the angular side 8, more precisely from the side where the hooks 9 are pressed out, discrete material parts 11 are pressed out which will enter and through the flat surface 7 and form respective rivet connections.

This joining technique is known. Fig. 9 shows a section through a typical, per se known "rivet" connection that can be used. The angle side 8 rests against the compressed beam end part 7. With a piston 20, the material in the angle 8 and in the end part 7 is pressed against a counter-holding piston 21, whereby a rivet connection is formed as shown.

In most cases, the individual beams 1 will be made as shown in fig. 1, but one can also imagine supporting beam designs where flattened parts are formed between the ends provided with fixing fittings, where fittings are fitted, so that, for example, as shown in fig. 8, a support beam 1 can extend over and past a post 14 arranged between two posts 12,13. In the intermediate flattened part 15, there are then fixed angle profiles 16,17 as in the beam ends. The two angle profiles 16,17 can optionally be designed as a uniform unit, also as a U-profile. Such beam designs as shown in fig. 8 may be appropriate for achieving greater cohesion and stability in a storage rack, for example that when it in fig. The storage rack shown in 3 has such longitudinal beams which therefore go from the post 12 to the post 18 in fig. 3.

The invention achieves the advantages mentioned at the outset. The individual elements can be pre-treated, for example galvanized or lacquered. The use of angle profiles in the end fittings also provides increased stability in the storage rack.

Claims (3)

1. Procedure for manufacturing a support beam (1) for a storage rack, where a beam profile 2 with a suitable appearance is pressed flat (6,7) at both ends and hooks (9) are provided for engagement with holes in posts (10, 13) provided with rows of holes ) in the storage rack, characterized in that each such flattened end (6, 7) is brought into contact with an angle side (8) of an angle profile (4), which angle side (8) is provided with hooks (9) for engagement with said hole, and that the flattened beam end (7) and said angled side (8) are connected to each other by pushing discrete material sections (11) which form rivets from the angled side (8) through the flattened beam end (7). 2. Device for support beams (1) for storage racks, which beams (1) are intended to be attached to posts (10, 13) provided with rows of holes, each beam (1) consisting of a beam profile (2) of a suitable appearance, the two ends of which is compressed into a respective flat surface (6, 7) which extends in the longitudinal direction of the beam, which flat surface (7) is connected by an angle profile (4) with hooks protruding from the angular side (8) connected to the flat surface (7) (9) for engagement with holes in the said rows of holes, characterized in that the flat surface (7) and said angular side (8) have mutual abutment and are connected to each other with discrete material sections pressed from the angular side (8) through the flat surface (7) (11) which form rivets. 3. Device according to claim 2, characterized by one or more flattened beam sections (15) between the two beam ends, which beam section (15) is provided with one or two angle profiles (16, 17) as mentioned, possibly a U-profile with bent at the bottom of the U chins.