NO861147L - ROD-SHAPED POSTS. - Google Patents

Description

The present invention relates to a tubular post, preferably intended for use as a fence post.

Tubular posts can have a circular cross-section or a rectangular cross-section. Posts with a circular cross-section have the great advantage that they have the same bending resistance in all directions. This is not the case with a post with a rectangular cross-section, which is an obvious disadvantage as posts with a rectangular cross-section are in many respects more practical to work with compared to posts with a circular cross-section.

The object of the present invention is to provide a post with a polygonal cross-section and then preferably with a rectangular cross-section, which post is of such a nature that it has a bending resistance around its circumference which mainly corresponds to the bending resistance

that of a bar with a circular cross-section. According to the invention, this is achieved by using the curve

determines the perimeter shape of the post profile and/or provides the post on the inner mantle surface with thickenings along the circumference, preferably in the form of flanges starting from this.

The flanges can be arranged between the side edges of a part side

of the inner mantle surface or lie directly at the side edges.

Each side can have one or more thickenings or flanges.

By using thickenings and preferably flanges, a stiffening is achieved, which means that the wall thickness in relation to completely round or rectangular pipes can be reduced.

As the post profile has the shape of a polygon, the number of partial surfaces of the post's mantle surface is increased and thus the tendency to break is reduced.

The pipes according to the invention can be produced by extrusion or hot forming of non-flange blanks.

Furthermore, the pipes can be produced by forming plate strips which are formed in a roll forming plant.

In the production of pipes from a plate strip, the flanges are obtained

character of a fold. The fold should then be shaped so that its opening end is closed by means of tensions in the shaped sheet material. Suitable materials for the pipes are metal, plastic and other malleable materials.

Further characteristic features of the present invention will appear from the patent claims.

The present invention will be described in more detail in connection with the attached three drawings, where

Fig. 1-3 shows three different pipe profiles.

Fig. 4 shows a curve for providing a suitable non-round profile. Fig. 5-12 shows four further embodiments of the pipe profile.

In fig. 1 shows a pipe which is produced by bending a plate strip in a roll forming plant. The pipe has a rectangular character with flattened or chamfered corners, which means that the pipe has been given a cross-section that forms an octagon. The tube thus consists of the four sides 1,2,3 and 4 as well as the sides 6,7,8 and 9, which form the flattened or chamfered corners. In order to form a tube, the sheet band is provided with a seam 5. The tube is provided at sides 6,7,8 and 9 with flanges 10,11,12 and 13 starting from the inside of the tube. These flanges are obtained by folding the plate material. The folding is done so that the pockets that are formed are completely closed, which e.g. can occur by the bending taking place in such a way that the openings of the pockets are kept closed by tensions in the plate material, so that unnecessary undesired material ends up in the pockets. Each pocket can form an angle with the tangent at the origin. This angle can vary between 0° and 90°.

Each flange should have a height that is less than or equal to the flange's mean radius to the profile center times (l-e<2>) so that the increase in material weight does not become greater than the increase in the smallest bending resistance.

The rectangular tube shown can of course also be provided with several inward-facing flanges arranged on sides 1,2,3 and 4. Flanges can also be arranged in the side corners.

The tube shown can of course be reshaped in such a way that it has so many sides that its cross-section thus forms a polygon that approaches a circle.

The advantage of a post with a cross-section of the latter type is that, compared to a conventional round post, the post with a polygonal cross-section and inward-facing flanges can be given a smaller wall thickness than a post with a round cross-section without losing bending and buckling stiffness in absolute terms. This is increased relative to the profile's running meter weight.

The tube according to the present fig. 1 can e.g. on pages that have large surfaces, such as e.g. sides 1 and 3, are provided with longitudinal inward grooves in the form of gutters to reduce buckling tendencies.

In fig. 2 shows a pipe for a post which corresponds to the pipe in fig. 1 with the exception that the hem has been given a different grade. The rebate is shaped so that a guide track or a fastening channel is obtained. The control track can e.g. used to anchor fence ends. With the help of the fixing channel, drilling, punching, blind riveting for the fence and thus any passages for moisture to the inside of the profile are avoided. The reference numbers on the present figure are identical to the reference numbers on fig. 1 with the exception that the reference numbers are provided with an apostrophe.

In fig. 3 shows a pipe profile which is almost identical

with the pipe profile in fig. 1. For this reason, parts that correspond to parts in fig. 1 given the same reference number, but with a double apostrophe. The figure shows that the short sides of the pipe profile in the middle are provided with longitudinal inward grooves, which from the inside have the character of longitudinal ridges or valleys. These are given the reference numbers 16 and 19. The long sides of the pipe profile, on the other hand, are each provided with two grooves 17 and 18 as well as 14 and 15.

As can be seen from the foregoing, with the help of the present invention, rectangular pipes have succeeded in providing better bending resistance along the circumference and in the case of circular pipes, in providing an opportunity to reduce the wall thickness without losing in bending and absolute buckling stiffness. These are increased relative to the profile's running meter weight.,

According to fig. 4, a profile can be obtained which provides better bending resistance along the circumference of a post with a non-round profile cross-section if the equation

are used and drawn up in a coordinate system as shown in the figure. It is then the curve part in the second quadrant that is used. It indicates the advantageous cross-section for a quarter of the column cross-section. An appropriate cross-section is drawn with a broken line. The latter cross-section provides better buckling resistance than cross-sections which slavishly follow the curved part in the fourth quadrant.

In the case of posts with a non-round cross-section, but preferably a square cross-section, essentially the same bending resistance is obtained along the circumference whether the profile is selected using the curve on

fig. 4 or by means of wall thickenings or flanges according to fig. 1-3, but it should be obvious that a combination of these two ways is possible.

Fig. 5 and 6 show a fourth embodiment of a pipe profile, where the four corner flanges, which correspond to the corner flanges 10, 11, 12 and 13, are given a more open shape and where the vertical sides 1 and 3 are each provided with a stiffener 18 and 19, in that the bracing 18 has the character of a longitudinal recess, while the bracing 19, on the other hand, consists of a double-folded seam corresponding to the seam 5 in fig. 1.

Fig. 7 and 8 show a fifth embodiment of the pipe profile

which differs from the pipe profile according to fig. 5 and 6 in that two further bracings 20 and 21 and 22 and 23 are placed on each vertical side. These bracings have the same character as bracing 18.

The pipe profile shown in fig. 9 and 10 differ from the pipe profile according to fig. 7 and 8 in that the recess 18'

is looped.

The profile according to fig. 11 and 12 differ from the profile according to fig. 9 and 10 only in that the corners of the profile are provided with chamfers 24, 25, 26 and 27. In other words, the profile has been given the character of an octagon.

Claims (18)

1. Tubular post with a profile in the form of a polygon intended preferably as a fence post, characterized in that the profile is composed of four equal parts, where each part preferably consists of three parts with two corners and where the circumference of each part is determined by that part of the curve which lies in the second quadrant of the curve's associated coordinate system. 2. Tubular post according to claim 1, characterized in that a number of axial flanges (10-13) extend from the inner mantle surface of the post along its circumference, each of which forms an angle with the tangent at its starting point and that the circumference of the post is preferably determined by the curve part in the fourth quadrant. 3. Tubular post according to claim 2, characterized in that said angle has a value between 0° and 90°. 4. Tubular post according to claim 2, characterized in that each flange (10-13) has a height that depends on a factor that is <1 - e 2, which is based on the distance of the flange's (13) outer edge and inner edge to the center of the profile . 5. Tubular post according to claim 2, characterized in that the number of flanges (10-13) is selected and deployed along the circumference in such a way that the post has as approximately equal bending stiffness as possible along the circumference. 6. Tubular post according to one or more of the preceding claims, characterized in that a flange (13) is arranged on one side (9) of the inner mantle surface of the post between, and then preferably midway between, the side edges of the side. 7. Tubular post according to claim 6, characterized in that more than one flange (13) emanates from one side (9). 8. Tubular post according to one or more of the preceding claims, characterized in that a flange (13) starts from a side edge of a side (9) in the post. 9. Tubular post according to one or more of the preceding claims, characterized in that the polygonal profile has the character of a circle. 10. Tubular post according to one or more of the preceding claims, characterized in that the polygonal profile (1-4) has a rectangular character. 11. Tubular post according to claim 10, characterized in that one or more of the profile's corners (6-9) are blunt. 12. Tubular post according to one or more of the preceding claims, characterized in that each flange (13) consists of a fold in the post's outer surface, which is preferably compressed at its opening end. 13. Tubular post according to one or more of the preceding claims, characterized in that the post has a longitudinal fold (5) in the form of e.g. a guide track, a fastening channel, a fastening track and the like. 14. Tubular post according to one or more of the preceding claims, characterized in that one or more of the flanges (10-13) have been replaced with thickenings which may be applied or constitute wall thickenings. 15. Tubular post according to one or more of the preceding claims, characterized in that at least one side of the post's mantle is provided with one or more inwardly extending axial ridges or ridges (14-18). 16. Tubular post according to one or more of the preceding claims, characterized in that the post is made of extruded material, such as e.g. metal, plastic or other malleable material. 17. Tubular post according to one or more of the preceding claims, characterized in that the post consists of a sheet band shaped e.g. in a roll forming plant.. 18. Tubular post according to one or more of the preceding claims, characterized in that the post is formed by hot rolling a pipe blank.