NO316280B1 - Post to carry street lights, cables and the like - Google Patents

Description

POLE FOR CARRYING STREET LIGHTS, CABLES AND THE LIKE

The invention relates to poles that are used on country roads and that carry street lights, cables and the like. The invention particularly relates to a solution with which a weakness is provided in a hollow post.

One problem with bollards erected along roads is the danger they pose to traffic. In the event that a vehicle collides with a pole, this can cause significant damage to the vehicle and its occupants. Thus, a need has arisen for such posts, which are safer than before in collision situations.

A post made from a hollow metal tube is known from before, where a weakening part is arranged in the lower part of the post, so that the post breaks when a vehicle hits it. In this known post, the weakening part is formed by joint parts between the post and its foundation, whereby the post breaks by being detached from the foundation in the event that a force of predetermined magnitude is directed at the post from one specific direction. As a result, the damage to the vehicle that collided with the post is less than what it would be with a traditional rigid post that requires a lot of force to break.

A problem associated with the above-mentioned known post is that the breaking properties of the post are not symmetrical. Thereby, the post's susceptibility to fracture is strongly influenced by the direction from which the force caused by the collision is directed at the post. If the vehicle therefore collides with the post from the "wrong" direction, this means that the post does not necessarily break. This means that in practice the post must be mounted carefully in relation to the assumed collision direction.

Another problem related to the above-mentioned known post is that it is very difficult to modify an already installed post so that it gives way in the event of a collision. Thereby, in practice, one is forced to reconstruct the post's foundation to enable the post to detach from the foundation in the event of a collision.

A third problem in connection with the above-mentioned known post is that in this known solution, removable parts, such as bolts and splinters, are used to secure the post in the foundation in a way that makes it possible for the post to detach from the foundation in the event of a collision. These removable parts remain visible, whereby they can attract vandalism, such as unscrewing the fastening bolts. Such vandalism can cause significant dangerous situations.

The purpose of this invention is to solve the above-mentioned problems and provide a solution which makes it possible with as simple measures as possible to provide a pole with better properties. This objective is achieved with a post according to the invention for carrying street lights, cables and the like, which post comprises at least: a first and a second hollow tubular part, which parts are arranged coaxially as a continuation of each other, and an elongated weakening part which promotes the post's buckling, and which exhibits a first and a second end, the outer diameter of which is smaller than the inner diameter in the first and second parts of the post, respectively, and by means of which the first and second parts of the post are joined to each other, so that the first ends of the weakening part are guided into the first part of the post, and the other ends of the weakening part are led into the second part of the post. The post according to the invention is characterized in that the weakening part comprises two tubular parts which comprise threads at their opposite ends, and which tubular parts are joined via a joint part with threads, to which joint part the tubular parts are attached via said threads.

The invention is based on the idea that the breaking properties desired for the post can be provided when the post is produced from two parts which are joined together through a weakening part which is introduced into the first and second part. Thereby, the post's breaking properties depend on the dimensioning of the weakening part, i.e. by choosing a weakening part that has the desired breaking properties, you can influence the post's breaking properties in the event of a collision.

The weakening part is produced so that it consists of several parts joined together. Thereby, one can influence the breaking properties of the weakening part through the way in which the weakening parts are joined. When the weakening part consists of pipe parts that are joined together via a joint part, the choice of joint part can influence how the weakening part breaks. In other words, with the same pipe parts, you can use several selectable joint parts that break with each other in different ways.

The most significant advantages of the solution according to the invention are thus that the post's breaking properties become symmetrical, that parts that attract vandalism do not need to be left visible, and that the production of the post is very simple, even so simple that the invention can be used to weaken already installed poles.

When the invention is utilized in posts that have already been set up, the electric cable must first be released before the post is weakened in the case of such a post where an electric cable has been installed that extends from the post's lower part to its upper part. The post is cut off at the height where the weakening part is to be mounted. In connection with the cut-off, the upper part of the post is lifted away. When the weakening part is mounted in place in the lower part of the post that protrudes from the ground, the upper part of the post is lifted back into place. Finally, the weakening part is also attached to the upper part of the post. Thereby, the rigid post has been transformed into a post which breaks in a collision situation, and which exhibits symmetrical breaking properties.

The invention is described in more detail below by means of examples with reference to the attached figures, where: Fig. 1-4 illustrate an embodiment of a weakening part used in a post according to the invention, and Fig. 5 shows a first advantageous embodiment of a post according to the invention. Fig. 1-4 illustrate an embodiment of a weakening part which is used in a post according to the invention. In fig. 1 shows the weakening part 1 mounted. The weakening part 1 comprises two joined pipes 2 with a round cross-section. The 2 ends of the pipes, which are placed against each other, are provided with threads 4. The pipes are joined together with a joint part 3 which, in the versions shown in the figures, consists of a socket. The joint part 3 is also provided with threads 5, whereby the pipes 2 can be joined to it with the help of threads 4 and 5.

According to the invention, the same pipe 2 can be used with several selectable joint parts 3. Thereby, through the selection of the joint part, the fracture properties of the weakening part 1 can be influenced. The thinner the wall thickness of the selected joint part, the easier the weakening part breaks.

In connection with the weakening part 1 in fig. 1 is used instead of tension band 7. In fig. 4 shows a ring-shaped tension band 7 with a conical outer surface. When making the post, such a tension band 7 is threaded around the two tubes 2 of the weakening part 1 (shown in Fig. 5). t

Fig. 5 shows a first advantageous embodiment of a post according to the invention. The post shown in fig. 5 can, for example, be a galvanized metal post which is round in cross-section, and whose wall thickness can be, for example, 4 mm. In the following, it is assumed as an example that it is an already erected rigid post which is weakened in accordance with the invention, so that the post will be safe in the event of collisions.

The post in fig. 5 is set up in place by means of a concrete foundation 10 set in the ground 11. As a first step of work, any electrical cable is removed from the post (not shown in the figures). The electric cable is generally installed in hollow metal posts so that it extends inside the post.

When the possible electric cable has been removed, the post is cut into two parts above the concrete foundation 10. The first part, i.e. the post's lower part 8, remains in the concrete foundation 10. The post's second part 9, i.e. the post's upper part, is removed, for example, with a crane. In fig. 5, the first 8 and the second 9 partly cutting surfaces 12 where the post is cut off are illustrated with the reference number 12.

When the second part 9 of the post has been removed, a tension band 7 according to fig. 4 above that in fig. 1 visible lower pipes 2 of the weakening part 1, i.e. the lower end of the weakening part. The tension band 7 is mounted in a position indicated in fig. 5, i.e. the tension band that comes on the first end of the weakening part, is mounted so that the end with the smaller diameter faces down. Next, the weakening part 1 in fig. 1 into the first part 8 of the post. When the weakening part is in place at the first end of the post, it is clamped in place with tension bolts 6. The ends of said bolts thus protrude from the weakening part, so that they are pressed against the inner walls in the first part 8 of the post, whereby the weakening part 1 is locked in place in the first part 8.

When the weakening part 1 is locked firmly in place in the first part 8, it becomes on the other end, i.e. on the upper pipe 2 in fig. 1, mounted a tension band 7 according to fig. 4. This upper tension band 7 is mounted so that the end with the smaller diameter faces upwards. Next, the second part 9 of the post, i.e. the upper part, is lifted back into place, so that the second end of the weakening part 1 is guided mn into it. Finally, the second part 9 of the post is locked in place with tension bolts 6 in a similar way as described earlier in connection with the lower part. The tension bolts 6 and the tension bands 7 ensure that the post is stable. Thanks to the conical shape of the tension straps, the weakening part is located in the middle of the post.

In the case of fig. 5, the upper tension bolts 6 are also entirely inside the post. In order for such a solution to be used, said post should include an elm stall's ion hatch through which access to the post's interior is gained. Such an electrical installation hatch is used in most known metal poles, particularly in those poles where the electric cables are pulled inside the pole from its lower part to the upper part. In that the clamping bolts 6 are arranged entirely inside the post, as in the post shown in fig. 5, the advantage is achieved that the tension bolts are not visible and thus do not attract vandalism. From fig. 5 it appears that only the joint part 3 of the weakening part 1 is visible outside the post. A possible vandal cannot still cause damage, even if he gains access to the extension part.

If an elm stall's ion hatch, which makes it possible to arrange fixing bolts inside the post, is not used in the post for one reason or another, the weakening part can be fixed, for example, with bolts that extend through the outer surface of the post. Thereby, a vandal can cause damage by unscrewing the bolts. The post is still held up despite this, as the weakening section's tubular parts support it from the inside. On the other hand, the swaying of the post can increase significantly in such a situation, especially if the diameter of the pipes 2 in the weakening part is clearly smaller than the inner diameter in the parts 8 and 9 of the post.

When the weakening part is mounted in place and the post's parts are fixed in place, the previously detached elm installations are connected, so that electricity is supplied to the lamp in the post.

It is to be understood that the above description and the accompanying figures are intended to illustrate the present invention. Various variations and modifications of the invention will be obvious to a person skilled in the art without going beyond the scope of the invention stated in the appended patent claims.

Claims (2)

1. Post for carrying street lights, cables and the like, which post comprises at least: a first and a second hollow tubular part (8, 9), which tubular parts (8, 9) are arranged coaxially in continuation of each other, and an elongated weakening part (1) which promotes the post's buckling, and which exhibits a first and a second end whose outer diameter is smaller than the inner diameter of the post's first and second tubular part (8, 9), respectively, and by means of which the post's first and other tubular parts (8, 9) are joined, so that the first end of the weakening part (1) is led into the first part (8) of the post, and the second end of the weakening part (1) is led into the second part (9) of the post, characterized in that the weakening part (1) comprises two tubular parts (2) which comprise threads (4) at their opposite ends, and which tubular parts (2) are joined to each other through a joint part (3) with threads (5), to which joint part (3) the tubular parts (2) are attached via said threads (4, 5). 2. Post according to claim 1, characterized in that the post comprises fastening means (6) which lock the first and second ends of the weakening part (1) to the first and second parts (8, 9) of the post, respectively.