NO343012B1 - Protection system for protecting a top surface of a wooden post comprising a top cap with a projecting edge portion. - Google Patents

Abstract

The invention relates to a top cap (1) for protecting a top of a wooden post (T). The top cap (1) comprises a cap body (2) comprising a plate section (2a) for fitting against a top surface (Ta) of the wooden post (T) and a peripheral section (2b) extending downward from the periphery of the plate section (2a) for fitting around the upper periphery ( Tb) of the wooden post (T). The plate section (2a) comprises one or more lifting areas (10) extending down from the plate section (2a) for lifting the plate section (2a) up from the top surface (Ta) of the wooden post (T). The plate section (2a) further comprises one or more support members (30) provided downwardly from the plate section (2a).

Description

FIELD OF THE INVENTION

The present invention appears to be a protection system for protecting a top surface of a wooden pole, for example telephone line and/or power line poles, where the protection system comprises a top cap with a downward-sloping edge.

BACKGROUND OF THE INVENTION

Wooden poles are used today to lift cables to a level above the ground. Such electrical lines are primarily power lines, but also signal-carrying lines, such as telephone lines, broadband lines, optical fiber lines, etc. Such wooden posts are impregnated to extend the life of these posts. However, such wooden posts are still susceptible to rot, and such rot damage has been shown to also occur at the top of the post. It is therefore a regulatory requirement that poles must be fitted with top caps. This is because top caps protect posts from weather stresses such as sun, water, snow and ice and from possible rot attack.

There are several challenges with such top caps. Firstly, moisture will collect on the underside of the top caps due to condensation that occurs due to varying weather conditions. The top caps must therefore allow such condensation to be vented out. During the life of the post, it is also a problem that wind stress blows these off the post tops. Normally, top caps are attached with the help of one or more nails into the post top from above. This is unfavorable as you often get water ingress through nail holes with the risk of rot developing. Installation can also be done by people having to climb up each individual post, alternatively there is also equipment that allows you to stand in the post outside the safety distance to the high-voltage cables and install the top caps. This is normally carried out by screwing the top cap on using a drill and extension equipment from the side. Nevertheless, the work is somewhat cumbersome and time-consuming, and it can be difficult to achieve screw assembly of top caps on some posts due to equipment mounted in the post.

CH 77301, US 3250050, FR 2257076, US 1996400 and US 5419536 A show various top caps which require the use of nails or the like.

D6 US 3319328 describes the use of wood impregnation that can be used between the top cap and wood - but it is specifically mentioned that this is not necessarily an advantage because there is a risk of air/moisture being trapped.

GB 2013755 A shows the use of a foam-forming resin which is used between the top cap and the wood in the post. The foam should expand and fill the space between the top cap and the wood. Such a solution will over time lead to rot due to lack of ventilation from the top of the post.

US 3352581 shows a top cap with a plate section where there is support provided downwardly from the plate section. It is shown that a moisture barrier is applied to the underside of the plate section.

Attempts have therefore been made to glue top caps to the top of the post using glue. However, it has been found that the glue destroys the venting of condensation between the top of the post and the top cap, and the wooden posts are still susceptible to rot. If the amount of glue is reduced to avoid condensation, it has been shown that the attachment between the top of the post and the top cap becomes too poor and thus that the top cap can detach from the post after a short time.

The purpose of the present invention is to avoid the disadvantages mentioned above. That is to say, the purpose is to provide a glueable top cap for wooden posts which is easy to install, which provides a good and long-lasting attachment between the top cap and the top of the post and which allows the venting of condensation between the top of the post and the top cap. Furthermore, it is an aim that the production of the top hat should be relatively simple and affordable.

At the same time, it is an aim that people should be able to stand on the ground or only partially climb up the mast to fit the top cap. This will also contribute to reduced assembly costs.

SUMMARY OF THE INVENTION

The present invention is defined in the independent claim 1. Aspects of the invention appear from the non-independent claims.

DETAILED DESCRIPTION

Embodiments of the invention will be described below with reference to the attached figures, where:

Fig. 1 shows a photograph of a first embodiment of the top cap from the side;

Fig. 2 shows a photograph of the first embodiment seen from above together with a scale;

Fig. 3 shows an illustration corresponding to fig. 2;

Fig. 4 shows a photograph of the first embodiment seen from below;

Fig. 5 shows a cross-sectional profile along the line A-A in fig. 4;

Fig. 6 shows the cross-sectional profile in fig. 5 (dashed line) together with a cross-sectional profile along the line B-B in fig.5;

Fig. 7 shows the cross-sectional profile in fig. 5 attached to a pole;

Fig. 8 shows the cross-sectional profile in fig. 6 attached to the post;

Fig. 9 shows a photograph after a test of the above embodiment;

Fig. 10 illustrates an adhesive application area;

Fig. 11 is an enlarged photograph of the lifting area and support member.

Reference is now made to fig. 1, 2 and 3, where a top cap 1 is shown for the protection of a wooden post T. The top of the wooden post is shown schematically in fig.7 and 8.

The top cap 1 comprises a cap body 2 comprising a plate section 2a for placement against a top surface Ta of the wooden post T and a peripheral section 2b extending down from the periphery of the plate section 2a for placement around the upper periphery Tb of the wooden post T.

In the present invention, the wooden post T has a circular cross-section, and the plate section 2a is consequently also substantially circular in design. In fig. 7 and 8 it is shown that the plate section 2a covers the top surface Ta while the peripheral section 2b projects down and covers the upper part of the circumference or periphery Tb.

The plate section 2a comprises one or more lifting areas 10 extending down from the plate section 2a for lifting the plate section 2a up from the top surface Take off the wooden post T. In the present invention, these lifting areas 10 are seen both from above (Fig. 2, 2 and 3) and from below (Fig. 4 ) since the material thickness of the plate section 2a is essentially constant. However, it is possible that the upward facing surface of the plate section 2a is completely smooth and that the lifting areas 10 cannot consequently be seen from above. This will then require a thicker material thickness in the plate section 2a at the lifting areas 10.

It should be emphasized that the cap body 2 with the plate section 2a with lifting areas 10 and the peripheral section 2b in the embodiment shown is made of a plastic material which is cast as one body in a mold. It is of course possible to use other production techniques (3D printing, molding of plastic and/or metal etc), which can make it advantageous to provide the lifting areas as separate units attached to the underside of the plate section 2a.

In the embodiments shown, there are four lifting areas 10, but the number of lifting areas can be three or more than four. By designing the lifting areas with a larger area, it is of course also possible to have only one or two lifting areas, but this will probably reduce ventilation opportunities for condensation.

The plate section 2a has a central area 12 which is higher than peripheral areas 11, which helps to prevent water from accumulating on top of the top cap 1. Each lifting area 10 has a width B10 varying from B10min to B10max as indicated in fig. 3. The narrowest width B10min is here close to the central area 12, while the widest width B10max here is close to the periphery of the plate section 2a. In the present embodiment, the width B10max is 5 - 20% of the total length or diameter D1 of the top cap 1. The diameter D1 is here approximately 21 cm, as indicated by the ruler in fig.

2, and the width B10max is approx. 2 cm. Typical sizes for such top caps are diameters from 18 – 30 cm.

The lifting area 10 here consists of a substantially flat sub-area 10a which extends in a radial direction from an area close to the central area 12 and out towards the periphery of the plate section 2a as well as a sub-area 10b which forms the transition between the sub-area 10a and the rest of the plate section 2a.

Furthermore, the lifting area 10 has a height H10 which increases gradually in relation to the plate section 2a from an area close to a central area 12 of the plate section 2a to a height H10max in an area close to the periphery of the plate section 2a. It should be emphasized that the height H10 increases in the downward direction, i.e. on the underside of the plate section 2a. In Fig.5, the height H10 is indicated by a dashed line in relation to the height of the rest of the plate section 2a (indicated by a solid line).

Reference is now made to fig. 4 and 5, as well as the enlargement in fig. 11. Here it is shown that the plate section 2a further comprises one or more support members 30 provided downwardly from the plate section 2a. Preferably there are three or more support members 30, in the embodiment shown there are as many support members 30 as lifting areas 10, i.e. four. The support members 30 are preferably attached to, or provided as part of, the lifting areas 30. In this embodiment, each support member 30 is made of a piece of plastic which has a height H30 of about 2-3 mm, width B30 of about 3 - 4 cm and a length L30 of approx. 7 – 10 mm and which is glued to the underside of the lifting areas 10 approx. 2 cm from the peripheral section 2b. These numbers will of course vary, particularly based on how large the diameter of the top cap 1 is.

The support member 30 preferably has a width B30 which is at least 1.2 times the width of the lifting area 10 at the place where the support member 30 is attached to the lifting area 10. In the example shown in fig. 11, the lifting area 10 has a width B10 of approx. 1-1.5 cm where the support member is attached, and the support member 30 has a width B30 of approx. 3 cm, so the width B30 in this case is 2-3 times the width of the lift area 10 on the spot the support member 30 is attached to the lifting area 10. Furthermore, the support member is provided with its long side (here called width) across the longitudinal axis of the lifting area, i.e. across the radial direction.

It should be emphasized that the images above only show a prototype of the top cap 1 and that as a larger production of the product is to be produced, the support member 30 will preferably be produced as part of the lifting area 10/plate section 2a itself - and the exact size of the support member 30 and perhaps certain other parts of the top hat 1 will also be able to be changed somewhat in such a connection.

The support member 30 helps to lift the top cap 1 a further approx. 1 mm up from the post's top surface Ta, which contributes to increased ventilation. Furthermore, preferably only the support members 30 of the plate section 2a are in contact with the top Ta of the wooden post T.

Reference is now made to fig. 7 and 8. Here it is shown how the top cap 1 will be placed on the post - the figures show cross-sections along the lines A-A and B-B. It should be emphasized that parts of the volume between the top Ta of the post T and the plate section 2a fig. 7 is will be filled with glue. Nevertheless, it can be seen from fig. 7 that there is a gap S1 between the post T and the transition area between the sections 2a and 2b of the top cap 1, where this area in known technology was previously in contact with the top cap 1. In fig.8 it can be seen that there is a gap S2 between the post T and the transition area between the sections 2a and 2b which is larger than the gap S1, which is due to the fact that the cross-section in fig. 8 is shown at an area 11 between two lifting areas 10, while the cross section in fig. 7 is shown precisely at a lifting area 10.

Reference is now made to fig. 9 and 10. In fig. 10 shows a hatched glue application area L from the central area 12 of the inside of the plate section 2a and out towards each of the lifting areas 10. Due to the fact that there are four lifting areas, the glue application area L here takes the shape of a cross or the letter X. The support members 30 will also be provided within this adhesive application area L. Preferably, the surface of the lifting area 10, the support members 30 and/or the rest of the adhesive application area L is provided with a rough surface to improve the adhesive properties in relation to the adhesive.

Reference is now made to fig. 9, which shows a result after a test carried out for the comparison of the top cap 1 in accordance with the invention in relation to the current version of the top cap 1. The top cap 1 in accordance with known technology loosened at 40 - 50 kilos of stretching vertically straight up before loosening. The top cap 1 in accordance with the invention was tested - at a tensile force of 224 kg the attachment between the dynamometer (which measures the tensile force) and the top cap loosened, the actual attachment between the top cap and the post can therefore withstand more than 224 kg of tension - which is a significant improvement.

It is also seen in fig. 9 that a relatively small part of the area to the inside of the plate section 2a is covered by glue - which results in a relatively good venting of any condensation that may occur between the post and the top cap.

Claims (8)

PATENT CLAIMS 1. Protection system for protecting a top of a wooden post (T), comprising a top cap (1) where the top cap (1) comprises a cap body (2) comprising a plate section (2a) for placing against a top surface (Ta) of the wooden post (T ) and a peripheral section (2b) extending downward from the periphery of the plate section (2a) for placement around the upper periphery (Tb) of the wooden post (T); where the plate section (2a) comprises lifting areas (10) extending downward from the plate section (2a) for lifting the plate section (2a) up from the top surface (Ta) of the wooden post (T); characterized by that - the plate section (2a) further comprises a support member (30) provided extending down from respective lifting areas (10), as the support member (30) will then make contact with the top surface (Ta) of the wooden post (T); - each lifting area (10) together with its support member (30) forms an adhesive application area (L) on the underside of the plate section (2a); - the glue application area (L) is applied with glue for gluing the top cap (1) to the top of the wooden post (T). 2. Protection system in accordance with claim 1, where the top cap (1) comprises three or more support members (30). 3. Protection system in accordance with claim 1 or 2, the support member (30) is provided as part of, or is attached to, the lifting area (10). 4. Protection system according to claim 1, wherein the adhesive application area (L) is provided with a rough surface. 5. Protection system according to one of the claims above, where only the support member (30) of the plate section (2a) is in contact with the top (Ta) of the wooden post (T). 6. Protection system according to one of the claims above, where the lifting area (10) has a width (B10min, B10max) of 5 - 20% of the total length or diameter (D1) of the top part (1). 7. Protection system according to one of the above claims, wherein the lifting area (10) has a height (H10) which increases gradually in relation to the plate section (2a) from an area close to a central area (12) of the plate section (2a) to a height (H10max) in an area close to the periphery of the plate section (2a). 8. Protection system according to one of claims 3 - 7, where the support member (30) has a width (B30) that is at least 1.2 times the width of the lifting area (10) at the place where the support member (30) is attached to the lifting area (10) ).