NO152425B - PIPES AND CONNECTION PROFILE FOR USE IN BEARING CONSTRUCTIONS - Google Patents

Abstract

1. A supporting tube (10) with at least one coupling section (12) releasably connected with it, for small buildings, especially for the skeleton frame structures of the latter, in which the coupling section (12) is provided with at least one flange (20) extending outwards from its periphery and running in the logitudinal direction of the tube, and abuts against the outer periphery of the supporting tube, characterized by the combination of the following features : a) that the supporting tube (10) also is provided with at least one flange (22) extending outwards from is periphery, b) that in the outer periphery (44, 62) of the supporting of recesses (26 or 48) running parallel to the axis of the latter and c) that furthermore the coupling section (12) has on its arcuate-shaped interior a plurality of projections (32 or 42) originating from a basic arc (30), which are in engagement with the recesses (26 or 48) of the supporting tube (10).

Description

The present invention relates to a pipe with at least

a connection profile for load-bearing constructions, especially skeleton constructions.

By constructions is meant here e.g. open reading classes, wait-

halls, cabins, kiosks, scaffolding and other similar constructions.

Such constructions usually exhibit a skeletal

construction, and can be produced with different basic

surface shapes.

Important elements in a skeleton construction are the pipes

with its connection profiles, to which walls or doors made of plate, corrugated iron, glass, wood, etc. are attached or mounted, on the inside or outside of the skeleton construction

tion, depending on what is desired.

So far, in particular, the fastening of walls and doors has

the skeleton construction, respectively of the pipes, has proven to be relatively problematic, because such connections between the walls and the pipes require great durability,

strength and density, so that due to the necessary large number of connection points, significant costs arise

nings for the production of such compounds.

For smaller constructions of the above type,

respectively for the skeletal constructions, screw-

and/or welding connections for use. With regard to welding connections, special mention should be made of the fact that when using these it becomes difficult to replace damaged wall parts with new ones should this become necessary, and for this reason screw connections are preferred in practice over welding connections. Due to the fact that the constructions can be designed with different base surface shapes, i.e. e.g.

triangular, square or polygonal, the situation of two wall parts connected by a pipe often does not occur

always form an angle of 90°, but that such an angle formed by two wall parts may possibly be more or less than 90°.

The purpose of the present invention is to arrive at a pipe with at least one connection profile for use in smaller constructions, particularly in skeleton constructions, so that the aforementioned disadvantages of known skeleton constructions in smaller buildings are avoided when using pipes applies to the fastening and assembly of walls to the structures.

According to the invention, this is achieved by a combination of the following features: a) that the cylindrically shaped pipe has at least one outwardly projecting step on the outside, which

b) forms a unit together with the pipe,

c) that there are recesses on the outside of the pipe that run parallel to the axis of the pipe, d) and that there is also a connection profile,

e) which at least exhibits an outwardly projecting step,

f) which forms a unit with the connection profile and

g) on its circular arc-shaped inner side, projecting from a base circular arc, exhibits elevations that stand in

engagement with the recesses in the pipe.

Other advantageous embodiments and application possibilities of the invention will appear from the following description.

The drawings show four design examples and several application examples for the invention, shown in a simplified manner.

Fig. 1 shows a cross-section through a pipe 10 which forms a unit together with a step 22 in the longitudinal direction of the pipe, and the pipe is equipped on the outside 24 with wave-shaped depressions 26 which extend in the pipe's longitudinal direction.

Pig. 2 shows a cross section through a connection profile

12 for the tube 10 shown in fig. 1, the connection profile forming a unit together with a step 20 which extends in the longitudinal direction of the profile, the inner side, from a basic circular arc 30, being equipped with wavy elevations 32 in the longitudinal direction of the pipe, which elevations have a contour corresponding to the recesses 26 arranged on the outside of the tube.

Pig. 3 shows a partial cross-section of a connection profile 12 for a pipe 10 shown in fig. 4, in that the profile together with a step 20 which extends in the longitudinal direction forms a unit, and describes a circular arc of 90°, and is equipped on the inside with identically designed teeth 42 which extend in the longitudinal direction.

Pig. 4 shows a partial cross-section through a tube 10 which together with steps running in the longitudinal direction of the tube form a unit, and the tube is equipped on the outside with similarly designed recesses 48 which run in the longitudinal direction of the tube, the contour of the recesses corresponding to the contour of the teeth arranged on the inside of the connection profile 12, which profile is shown in fig. 3. Fig. 5-8 shows partial cross-sections of four pipes with the most applicable profiles. Fig. 9-27 shows different base surface shapes of the constructions for which the invention can be used, and the location of the individual pipes is shown. Fig. 28 shows in perspective, among other things, a pipe intended for connection with a connection profile. Fig. 1-28 shows one or more cylindrical pipes 10 which constitute elements in constructions, and the pipes are releasably connected with at least one connection profile 12 by

using at least two countersunk screws 14. In the connection profile 12 there are bores 16, and in corresponding places on the pipe 10 threaded bores 18 are arranged, for passing the screws 14 through the bores 16 to screw the screws into the threaded bores 18 in the pipe 10. Furthermore, a radially outward facing step 20 is arranged on the connection profile 12, which is preferably produced using known extrusion, which together with the connection profile 12 forms a unit and essentially serves to attach wall parts to the profile.

The preferably extruded tube 10 is likewise equipped with

at least one external, radially projecting step 22, which together with the pipe 10 forms a unit, and the step 22 serves, in the same way as the step 20, on the connection profile 12,

for attaching wall parts to the pipe.

In the first embodiment shown in fig. 1 and 2, the pipe 10 exhibits in cross-section wavy recesses 26 projecting from the outer surface 24, while on the other hand the connection profile 12 on its circular arc-shaped inner surface 28 exhibits wavy elevations 32 projecting from a basic circular arc .30, and the contours until the elevations are essentially adapted to the wave-shaped recesses 26 on the tube 10.

The depressions on the pipe 10 and the elevations on the connection profile 12 are in the assembled state of the pipe 10 and the connection profile 12 respectively in engagement with each other,

in that the connection profile 12 is particularly well protected against forces due to torsion, so that the connection profile cannot be displaced in the circumferential direction in relation to the pipe 10.

On the outside of the tube 10, the average distance between the wave-shaped recesses 26 preferably forms an angle of approximately 15°. This distance also has the wave-shaped elevations 32 on the connection profile 12.

The connection profile 12 describes a circular arc over an angular range of 90°. The radially outwardly projecting step 20 is so arranged on the outside of the connection profile 12 that a radial line 36 through the end 34 of the circular arc forms an angle with the step 20 of 30°.

In the second embodiment of a connection profile

12 and a pipe 10 which is shown in fig. 3 and 4, tooth-like elevations 42 are arranged on the inner side of the profile 12 in angular areas of 15°, projecting out from a basic circular arc 38 with a radius of 40. Furthermore, the tube 10 exhibits depressions that extend over angular areas of 15°, projecting out to an outer circle 44 with radius 46, and the contours of the depressions essentially correspond to the elevations 42 on the connection profile 12.

The angle formed by the flanks 50 and 52 of the tooth-like elevations 42 on the connecting profile 12 shown in fig. 3 is for the sake of the 90° circular arc which the profile 12 describes always greater than 90°, in order to enable placement of the connection profile 12 in the recesses 48 of the tube 10 without obstacles due to the tooth-like elevations 42.

The angles ot' and ot1' formed between a radial line 55 and one of the flanks 50 or 52 are of equal size. The same applies to the corresponding angles for the flanks 54 and 56 shown in fig. 4, and these angles add up to 90°.

The required size of the angles between the flanks 50

and 52, respectively 54 and 56, are essentially dependent on the angular range that the connection profile 12 describes. In the case of a larger angle range than 90° for the connection profile 12, if the elevations 42 on the connection profile 12 and the depressions 48 in the pipe 10 are designed in the same way,

possible to bring the connection profile 12 into contact with the pipe 10. Reference is made in this context, e.g. to the direction of movement of the connection profile 12 towards the pipe

10 which is indicated by arrows 58 and 60.

The relatively most applicable profiles for the pipe

10 appears from fig. 5-8.

The profiling shown in fig. 5 corresponds to the profiling of a pipe 10 which is described in connection with fig. 4, and

need no further explanation. The associated connection profile appears in fig. 3.

Fig. 6 shows a third embodiment of a pipe 10, which from a circumscribed circle 62 has trapezoidal depressions 64. The average distance between the individual depressions amounts to 15°, and thus corresponds to 24 depressions around the circumference.

The angles ot' and ot' ' i which are formed between a radial line 66 and the flanks 68 and 70 are of the same size, and together amount to 90°. On a connection profile not shown, trapezoidal elevations with an average distance of 15° are arranged on the circular arc-shaped inner side, and these are adapted to the shape of the trapezoidal recesses 64 in the pipe.

The profiling shown in fig. 7 corresponds to the profiling on a pipe 10 which is described in connection with fig. 1. It should also be mentioned that the two equal angles oe' and

ot<1> together form an angle of 90°.

The pipe 10 shown in fig. 8 constitutes a fourth embodiment, and exhibits at a distance of 15° triangular recesses 74 from the outer circumference 72, and the flanks 76 and 78 form an angle of 90° with each other. The angles cx' and ot' 1 r which are formed between a radial line 80 and each of the two flanks 76 and 78 are also in this case equally large. On a connection profile not shown, triangular elevations are arranged on the circular arc-shaped inner side, at an average distance of 15°, which are adapted to the shape of the triangular depressions 74 on the pipe 10.

In order to be able to form the angular settings shown in fig. 9-27, between the step 22 on the pipe 10 and the step or steps 20, 22 on one or more connection profiles 12 or on another pipe 10, there are preferably arranged 24 depressions and elevations on the pipe and the connection profile respectively.

The smallest angle between two steps is 30°. Other angle settings and examples with regard to the arrangement of the pipes 10 can be seen in fig. 9 - 27.

The other possible angle settings are 45°, 60°, 75°, 90°, 105°. 120°, 135°, 150°, 165° and 180°.

As shown in fig. 28, there is usually a floor made of concrete, not shown, as well as a roof in the construction arranged, e.g. by screwing, a liner 82 for fixing the pipe between the floor and the ceiling.

The cylindrically designed liner 82 has a first part 84 with a diameter that is slightly smaller than the inner diameter of the tube 10. Furthermore, the liner 82 has another part 86 that has a slightly larger diameter than the inner diameter of the tube 10, so that this other part 86 of the lining is located outside the upper and lower edges of the tube 10.

When the pipe 10 is placed on a lining 82 arranged on the floor, the pipe with its step 22 and the connection profile 12 with its step 20 are positioned in the desired direction. The connection profile 12 is then attached by means of screws 14, which e.g.

can be self-tapping, or with pop rivets, to the pipe 10.

For fixing the pipe 10 with the liners 82 is not used

shown way screws that cannot be loosened by unauthorized persons,

because a special wrench must be used.

When the skeletal structure, e.g. beams 88, angle

profiles 90 and pipes 10 with connection profiles 12, are mon-

tert, wall or window parts 92 can be easily screwed to the steps 20 and 22 on

the ling profile 12 and the pipe 10. Also in this case screws are preferably used which cannot be loosened by unauthorized persons.

The invention is not limited to the embodiments shown

examples. Within the scope of the invention, it is e.g.

possible to arrange several steps on the outside of the pipe 10 and/or on the associated connection profile 12, when this is desired. The shape of the recesses and elevations on the pipe and the connection profile, respectively, may differ from what is shown in the design examples. Furthermore, it should be mentioned that the depressions and elevations can also, depending on need, be arranged with a greater distance from each other on

respectively the outside of the pipe 10 and the inside of the

the connection profile 12 than what is shown in fig. 1-8.

Claims (11)

1. Pipe with at least one detachable connection profile, for smaller constructions, especially skeletal constructions, characterized by the combination of the following features: a) that the cylindrically shaped tube (10) on its outside exhibits at least one outwardly projecting step (22), b) which together with the pipe (10) forms a unit, c) that on the outside (44, 62) of the pipe (10) is arranged depressions (26, 48) running parallel to the pipe axis, d) and that a connection profile (12) is arranged, e) which exhibits at least one outwardly projecting step (20), f) which together with the connection profile forms a unit, g ) and which on its circular arc-shaped inner side, starting from a basic circular arc (30) exhibits elevations (32, 42) that engage with the depressions (26, 48) on the tube (10). 2. Pipe as stated in claim 1, characterized in that it is produced by extrusion. 3. Pipe as specified in claim 1, characterized in that the connection profile (12) is produced by extrusion. 4. Pipe as specified in claim 1, characterized in that the step (22) on the tube (10) projects radially outwards. 5. Pipe as specified in claim 1, characterized in that the step (20) on the connection profile (12) projects radially outwards. 6. Pipe as specified in claim 1, characterized in that the recesses (26, 48) on the outside (44) of the pipe (10) are arranged with a mutual angular distance (partition) of 15°. 7. Pipe as specified in claims 1 and 6, characterized in that the recesses (26) are designed to be wavy in cross-section. 8. Pipe as specified in claims 1 and 6, characterized in that the recesses (48) are designed triangular in cross-section. 9. Pipe as specified in claim 1, characterized in that the elevations (32, 42) on the connection profile (12) are arranged with a mutual angular distance (partition) of 15°. 10. Pipe as stated in claims 1 and 9, characterized in that the elevations (32) are designed to be wavy in cross-section. 11. Pipe as specified in claims 1 and 9, characterized in that the elevations (42) are designed triangular in cross-section.