DE3718169C1 - Concrete foundation for steel masts of electric high-voltage transmission lines, ski lifts and the like - Google Patents

Abstract

The foundation (1) has, in a known manner, an underground part (4) which is in the form of a column and continues above the ground into a base (6), on the upper side of which there exits a steel profile (7) which is connected to a mast upright (2), or continues the same, and is embedded in the foundation. In the region of the exit location, the base (6) comprises segments (8) which are separated from one another and from the steel profile (7) and the downwardly adjoining regions of base (6) and foundation (1) by expansion joints (9) which have a vapour-tight and moisture-tight, permanently compliant filling, preferably of tar/polyurethane, to which sand and/or quartz is admixed. By virtue of this arrangement, oscillations produced by alternating current in the mast upright (2) are damped strongly at the exit point, with the result that the formation of cracks as a result of mechanical oscillations is eliminated. Moreover, the formation of cracks as a result of heat expansion is also prevented. <IMAGE>

Description

The invention relates to concrete foundations for steel pylons of high-voltage electrical lines, railway Overhead lines, ski lifts or the like. with the foundation above-ground continuing plinth, on the top of which embedded in the foundation and the same as well as the base approximately vertical steel profile emerges, which holds or continues a mast post.

For safety reasons have high-voltage pylons, such as they are known from DE-AS 11 72 022, deep in the ground reaching foundations with above-ground plinths in front all serve as ram protection for the mast posts. In principle The same applies to masts for overhead lines and ski lifts or the like.

Concrete is fundamentally considered to be extraordinarily strong and resistant building material known. Furthermore concrete adheres extremely well to iron and steel, at the same time, iron and steel per se are effective against Protected against rust.

Nevertheless, in the area of the exit point of the Steel profile on foundations of steel masts electrical High-voltage lines and the like often corrosion and crack education observed. These cracks cover the top of the base and its vertical lateral surfaces. By These cracks can get water into the base or the outside Enter the foundation, with the result that the corrosion danger for the steel profile is increased. For this reason the bases are often coated with protective coatings on bitumi nöser base covered, also the exit contrast the steel profiles with special seals Protected against water ingress. These measures show however, no lasting effect because the protective coating often comes off areal and despite the seal  The concrete is in the area of the exit points often moisturized.

For this reason, corrosion must progress of the steel profiles within the base or foundation be counted, so that regular extensive tests required are.

It is therefore the object of the invention to build a mast foundation create what is embedded in it, the mast or Steel profile bearing mast post protects particularly securely.

This object is achieved in that the base There are segments that differ from each other, from the steel profile and the foundation which is connected downwards by parting lines partitioned with flexible, moisture-proof filling are.

Due to the segmented design of the base on the Exit point can mechanical vibrations in the Mast handle through the in the high-voltage power lines, iron Railway overhead lines or the like led alternating current excited will not cause destruction. Rather, they become derar vibrations due to the flexible bearing of the segments effectively damped, so that the vibrations only with strong reduced intensity and range in the base or in enter the foundation below the segments. Dementspre The risk of cracking due to the aforementioned vibrations are eliminated.

Even if the sun heats up a lot opposite the sunlit top of the base those less exposed or shadowed to the sun Areas may occur because of the segmented Construction no destructive thermal stresses occur.  

Due to the sun's rays arise in the segmented base greatly elevated temperatures, however the segments can expand independently of one another, so that the formation of stress cracks is prevented.

Since the causes of the crack by the invention education on the bases of previous foundations removed are guaranteed by the invention at the same time that rain or condensation water contaminated with pollutants, which may also be in large quantities of mast stems can flow down to the base or drip off, not in is able to penetrate the base. So this is essential because acid rain or condensation water when entering the Concrete whose rust-protecting effect on the steel profiles severely impaired and to be raised in a relatively short time corrosion that is not visible from the outside can lead.

Due to the moisture and vapor tight separation of the segments from the underlying foundation a strong heating or cooling of the top of the Base due to sunshine or weather do not flow to far-reaching vapor diffusions or Moisture wicking. As far as the Vapor pressure within the segments change due to strong changes temperature changes, this has no effect which are separated from the respective segments by the joints shared areas. In the one below the segments However, the foundation cannot have a large temperature gradient occur, accordingly diffusion marks can occur there are largely neglected. This brings the advantage that there is no within the foundations Significant moisture transport occurs, which for Crystallization of previously dissolved salts and the like to lead can.  

Due to the largely prevented vapor diffusion within the foundation or base is also prevented that may be on the top of the base brought protective coats or the like. accumulated by among them t water detached or blown off in the frost period will.

Finally, the foundation according to the invention stands out due to the prevention of cracking and more noteworthy Moisture migration through a high security against Frost damage.

According to a preferred embodiment of the invention provided that the vertical joints between neighboring bearded, radial segments adjacent to the steel profile to the steel profile. In addition, it is convenient provided that between the segments and the down subsequent foundation a common horizontal separation joint is arranged, i.e. this parting line forms a outgoing parting plane. All of these features contribute to one easier creation of the foundation or base at.

A rot-free plastic with good adhesive and adhesive properties, root strength and insensitivity to UV radiation is preferably used as the filling of the parting lines. In this regard, a plastic which consists at least predominantly of tar polyurethane is particularly preferred, since all of the properties mentioned are guaranteed to a high degree. The flexibility of the joint material can be optimized by adding sand or quartz.

Otherwise, the preferred features of Invention on the dependent claims and the following Explanation of preferred embodiments using the Drawing referenced. It shows

Fig. 1 is an axonometric view of the base in the area of the segments and

Fig. 2 is a sectional view of the foundation.

The overall designated 1 foundation of a mast post 2 of a steel mast for high-voltage power lines consists essentially of a deeply embedded base plate 3 , which continues in one piece in a columnar or stepped part 4 , which in turn forms a base 6 above the ground 5 . Within the Funda mentes 1 is connected to the mast post 2 or the same continuing steel profile 7 , which emerges on the top of the base 6 and merges into the mast post 2 .

According to the invention it is provided that the base 5 in the vicinity of the exit point of the steel profile 7 consists of Segmen th 8 , which are separated from each other and by steel profile 7 and the downwardly adjoining area of the base 6 or foundation 1 by 9 joints. The parting lines 9 are filled with a well-adhering, root-resistant and UV-resistant plastic which does not tend to become brittle. In this regard, tar polyurethane is particularly preferred, since all of the above requirements are met to the highest degree and the load capacity of the adhesive connection produced by tar polyurethane even exceeds the resistance of the concrete from which the foundation 1 is made.

The measure of the resilience or elasticity of the plastic or tar polyurethane material can be added by adding sand or quartz can be set.

The vertical parting lines 9 between adjacent segments 8 are expediently arranged radially to the steel profile 7 ; and the horizontal parting line between the segments 8 and the underlying foundation 1 forms a continuous horizontal plane. The vertical height of the segments 8 corresponds approximately to the radius of the circular base 6 in the example shown in plan view. In the case of bases 6 with a square plan, the vertical height of the segments 8 corresponds approximately to half the length of a square side.

Since the segments 8 due to the resilient material in the joints have a certain mobility, the material in the joints has a strong damping effect, vibrations that are excited in the mast stem 2 due to the alternating current carried in the high-voltage line can not be destructive on the segments 8 Have influence. Rather, the vibrations in the mast post 2 or the adjoining area of the steel profile 7 in the vicinity of the entry point are damped extremely effectively, so that the propagation of the vibrations on the foundation 1 can be completely neglected. Accordingly, the foundation 1 according to the invention is characterized by a high level of security against cracking due to mechanical vibrations.

Since the upper side of the base 6 is particularly exposed to changing weather influences, in particular solar radiation and the action of rain and condensation water, the top side of the base may have very different temperatures compared to other areas of the base 6 or foundation 1 . Due to the segmented design of the base 6 , however, no significant thermal stresses can occur in the base 6 , so that the risk of cracking associated with strong temperature changes is also avoided.

Due to the strongly fluctuating temperatures on the upper side of the base 6 , the vapor pressure of the moisture absorbed in the base 6 also changes correspondingly strongly near the upper side. However, since the parting lines 9 are moisture-tight and vapor-tight, no vapor diffusion or moisture transport within the foundation 1 or base 6 can be caused thereby. In particular, it is avoided that a strong evaporation of moisture occurs at the base of the base 6 on the base top, with the result that moisture or steam diffuses up to deeper areas of the foundation 1 , where entrained dissolved in the subsequent evaporation Crystallize components and reduce the quality of the concrete.

Moreover, by preventing the vapor and moisture diffusion, the additional advantage is achieved that protective coatings applied on the outside of the base 6 or the segments 8 may adhere well.

In the manufacture of the foundations 1 , a layer of tar polyurethane is first applied to the top 4 'of the columnar part 4 , which is intended to support the segments; then the segments 8 are placed. Then the vertical joints 9 between adjacent segments 8 and between the segments 8 and the steel profile 7 are poured out with tar polyurethane. When renovating damaged foundations 1 , the dilapidated concrete is removed beforehand and a flat top 4 'is produced.

The upper region of the foundation 1 can also be segmented in a different way than shown in FIG. 1. In particular for foundations 1 with a small cross-section, such as foundations of overhead line masts with several closely neighboring steel profiles 7 or the like embedded in the foundation 1 , individual segments 8 can also have vertical openings for receiving the steel profiles 7 or the like. have. The diameter of the openings are dimensioned so large that the steel profiles 7 are spaced from the walls of the openings and do not touch the walls even in the event of mechanical vibrations. The space is with tar polyurethane or the like. poured out.

Claims (8)

1. Concrete foundation for steel masts of electrical high-voltage lines, railway overhead lines, ski lifts or the like. with a base that continues above ground, on the top of which emerges a steel profile embedded in the foundation and extending approximately vertically through the base and holding or continuing a mast post, characterized in that the base ( 6 ) consists of segments ( 8 ), which are separated from each other, from the steel profile ( 7 ) and the foundation ( 1 ) connected below by separating joints ( 9 ) with flexible, moisture-proof filling. 2. Concrete foundation according to claim 1, characterized in that the vertical joints ( 9 ) between adjacent, to the steel profile ( 7 ) adjacent segments ( 8 ) extend radially to the steel profile ( 7 ). 3. Concrete foundation according to one of claims 1 or 2, characterized in that between the segments ( 8 ) and the foundation ( 1 ) adjoining at the bottom a common joint ( 9 ) extending in the horizontal plane is arranged. 4. Concrete foundation according to one of claims 1 to 3, characterized in that the height of the segments ( 8 ) corresponds to the width or the radius of the base ( 6 ). 5. Concrete foundation according to one of claims 1 to 4, characterized in that a rotting-free and aging-resistant plastic with good adhesive and adhesive action, root strength and resistance to UV radiation is arranged as the filling of the joints ( 9 ). 6. Concrete foundation according to claim 5, characterized in that the plastic at least essentially Tar polyurethane exists. 7. Concrete foundation according to one of claims 1 to 6, characterized in that the filling sand or Quartz is added. 8. Concrete foundation according to one of claims 1 to 7, characterized in that the top or outside of the segments ( 8 ) is coated with a waterproof protection or a corresponding impregnation.