HU212950B - Pole with increased durability, for low and medium voltage aerial mains - Google Patents

Abstract

The support column according to the invention has a reinforced concrete guard (13) with a reinforced concrete guard (13), which has a bore (2) through its longitudinal axis and a nest head (la) having a head assembly holder provided with a rain cover plate (7). inserted and secured; there is an air gap ("1") between the column column (lb) and the reinforced concrete guard (13). 3 GB * EN 212 950 B Scope of the description: 8 pages (including 4 sheets)

Description

The support column of the present invention has an impregnated wooden post fixed to a reinforced concrete guard (13) and provided with a head assembly bracket, having a bore (2) extending along its longitudinal axis, and having attached; there is an air gap (“1”) between the column pole (lb) of the wooden column and the reinforced concrete guard (13).

3. ibr *

HU 212 950 B

Description: 8 pages (including 4 pages)

HU 212 950 Β

SUMMARY OF THE INVENTION The present invention relates to a lifetime pillar made of pine for carrying electrical fittings and wires for low-voltage, low-voltage and low-voltage networks.

The dominant element of free-wire networks is the supporting structure. Initially, in low and medium voltage networks, the exclusive use of wooden poles was typical.

In order to increase their resistance, poles made of birch pine are watered with bitumen, tar or salt, but this only saturates the surface layers, the outer bark. The bark is damaged in several places during installation (post-hole drilling, carving), and during natural wear cracks develop, through which the infiltrating moisture causes the untreated layers to rot and to fungal. Over time, this will cause the inside of the wooden pole to become a wood debris that is unsuitable for use by forces and to break the column as a result of increased external stress (gusts, storms).

Although a method for increasing the lifetime of wooden poles (and sleepers) is known from patent application HU 137 020, which comprises forming a hole with a wooden plug and an inlet at the base of the wooden column, which is filled periodically (once a year) with impregnating material; however, this solution was not widespread in practice.

Another particular embodiment is the wooden support post according to patent application HU 83 334, in which the lower end of the tree trunk is longitudinally split and formed from lattice trunk ends with a lattice structure.

This solution, although having good strength properties, was not widespread due to the costly and difficult nature of the manufacturing technology.

The lifetime of wooden poles is significantly extended by the widespread solution where wooden poles are placed on reinforced concrete patches and thus do not come into contact with the ground. However, in this solution there is also a risk of moisture penetration along the mounting holes, at the mounting points of the fittings and along the resulting cracks.

In the last decades the use of reinforced concrete columns has become obsolete. Columns made with steel insert (prestressed) could be conquered because the life of the wooden poles was not satisfactory.

The design of a reinforced concrete post is known from patent application HU 136 694, which utilizes high-strength steel wire inserts in place of conventional spherical elements to increase the bending strength of the post. However, reinforced concrete columns with steel reinforcements replacing wooden poles are only seemingly more durable. Due to fluctuating temperature conditions (frost, heat), the surface of the concrete dusts, shells, loosens the steel structure on an increasingly large surface, and begins to corrode. Over time, the strength of a worn-out reinforced concrete column, which gives the illusion of a solid support structure, decreases to a fraction of its nominal value and there is a risk of eruption and tipping. Secondary damage and the risk of an accident due to the high dead weight of a possible outburst are much greater than with conventional wooden poles. Replacing a worn column is more cumbersome and disposal is an environmental problem.

For the sake of completeness, it should be noted that high-voltage power lines use metal lattice columns, but that this is uneconomical for low- and medium-voltage networks. There are also metal poles for carrying public lighting fixtures, such as the one disclosed in patent application HU 110 491, consisting of collapsible pipes and coated with a durable metal, glass or enamel coating.

One of the directions of the development is the construction of high strength rigidity structures for metal columns, which can be assembled on site, for example, the solution described in patent application HU 197 619, consisting of tapered pipe fittings.

At the time of the present invention, the object of the present invention is to further develop traditional pine tree posts, reinforced with reinforced concrete guardrails, to increase their service life.

We have discovered that the cause of the "spoilage" of wooden poles is caused by moisture trapped inside the wooden poles and "trapped" there; the solution, therefore, is to ensure that the moisture is "removed" and that the moisture does not come into contact with untreated wood surfaces.

Based on this discovery, the present invention relates to a support column having a wooden pole (pine) fixed to a reinforced concrete guard and having a significant new feature of providing a through hole along the longitudinal axis of the wooden pole and an air gap between the pole and the reinforced concrete guard.

It also has a steel headrest bracket that is housed (and secured) in a recess at the column head of the tree column and is provided with a rain cover that seals the column head so that moisture cannot penetrate through.

The head mounting bracket with rain cover plate is preferably designed as a tube.

The holes passing through the wooden pole are formed to secure the head mount bracket and to secure the wooden pole and reinforced concrete guard. As these holes are also "prefabricated", the wood structure is impregnated with the impregnating material along the through hole and the mounting holes during the treatment of the wooden pole, forming a continuous protective surface.

The head mount bracket is preferably configured to have a head assembly extending above the rain shield (which serves to connect the wire or electrical fittings) and the rain shield is provided with a circumferential flange.

The following illustrates the construction of a support column according to the present invention, wherein:

Figure 1 illustrates the training of the wooden column of the support column, a

HU 212 950 Β

FIG

Figure 3 illustrates the design of the complete support column, while Figure

Figure 4 illustrates a sectional view of the attachment of a wooden pole to a reinforced concrete guard.

As shown in Fig. 1, a bore 2 is formed along the longitudinal axis of a wooden pole 1 according to the invention (known as pine). In practice, its diameter is small (about 40-60 mm) relative to the diameter of the tree. This bore 2 does not weaken the wooden post 1 and does not affect its strength properties since it is in fact in the neutral line of the basic stress (bending).

At the head of column Ia of the wooden post 1, a nest 3 having a diameter greater than the through hole 2 is provided, which serves to receive the head assembly bracket 6.

In addition, two mounting holes 4 and 5 (perpendicular to the longitudinal axis of the wooden pole 1) are provided on the wooden pole 1. The mounting holes 4 at the column head 1a secure the head assembly bracket 6, while the mounting holes 5 secure the column base 1b of the wooden column 1 to a reinforced concrete guard.

Figure 2 illustrates the configuration of the head assembly bracket 6 of the present invention. The head assembly bracket 6, which is configured as a tube, is divided by a rain cover plate 7 into two sections. The upper head assembly projection 8 carries the electrical assemblies, while the lower tube section 9 sits in a socket 3 formed in the wooden post 1 and serves to fasten the head assembly bracket 6 and has a hole spacing of 10 corresponding to the through hole 4 in the wooden post. The rain cover plate 7 of the head assembly bracket 6 is conical and has a circumferential flange 12. The rain cover plate 7, with its flange 12, seals the column head Ia of the wooden column 1, so that no moisture can penetrate there.

Figure 3 shows the design of the complete support column. The details shown in Figures 1 and 2 are not discussed in detail. The tube section 9 of the head assembly bracket 6 sits into the nest 3 of the wooden post 1 and is secured to the wooden post 1 by means of screws 11. The wooden post 1 is known to be secured to a reinforced concrete guard 13 by means of screws 15, but the attachment design differs from the conventional solution. There is an air gap 1 between the column base 1b of the wooden column 1 and the reinforced concrete guard 13 which ensures that the end of the bore 2 along the longitudinal axis of the wooden column 1 remains free. The head assembly bracket 6 on the column head 1a is provided with a closure cap 16 (FUTURIT cap) which prevents rain from entering the bore 2 from above while allowing free air flow. The through hole 2 formed on the wooden pole 1 acts as a ventilating chimney due to the resulting chimney effect and ensures the ventilation of any moisture that may enter the inside of the wooden pole 1.

Along the bore 2 and the boreholes 4 and 5, as they are made during manufacture, the impregnating material is impregnated (impregnating the entire cross section at certain places) during the treatment of the wooden pillar, so that the moisture cannot even temporarily come into contact with untreated wood. , rot, fungus should not occur.

Fig. 4 shows a sectional view of the column base lb of the timber column 1 secured by bolts 15 passing through the holes 14 formed in the reinforced concrete guard 13 and the mounting hole 5 of the column pillar 1b. The inner profile of the reinforced concrete wedge 13 encircles the column base lb of the wooden column 1, thereby increasing the effectiveness of the support.

In addition to extending the service life, the design of the support post according to the invention provides additional benefits. The landing gear bracket 6 and the bore 2 of the wooden post 1 can be used to guide the descending wires or the rising earth conductor, thereby providing mechanical protection.

The additional costs incurred in the manufacture of the post columns (machining the through and mounting holes) are multiplied by the increased service life, which is significantly higher than the reinforced concrete columns. Thus, the present invention provides economical and environmentally friendly long-life support columns.

PATENT CLAIMS

Claims (4)

An extended-life post for low- and medium-voltage overhead wires, having an impregnated wooden post with a rain shield headgear bracket fixed to a reinforced concrete guard, characterized in that there is a through hole (2) along the longitudinal axis of the wooden post (1) there is an air gap (1) between the column post (lb) and the reinforced concrete guard (13). Support column according to Claim 1, characterized in that the head assembly bracket (6) provided with a rain cover plate (7) is in the form of a tube located in a socket (3) formed on the column head (1a) of the wooden column (1). Support column according to one of claims 1 or 2, characterized in that the wooden column (1) is provided with mounting holes (4 or 5) for fastening the head assembly bracket (6) and the wooden column (1) for reinforced concrete guard (6). 13). 4. Support column according to any one of claims 1 to 4, characterized in that the head assembly bracket (6) has a head assembly protrusion (8) above the rain shield (7); the rain cover plate (7) having a circumferential flange (12). HU 212 950 Β Int Cl ⁶ : E 04 H 12/04 ibro HU 212 950 Β Int Cl ⁶ : E 04 H 12/04 Figure 2 HU 212 950 Β Int Cl ⁶ : E 04 H 12/04