NL1035407C2 - Mast for use as electricity pylon, has foot affixed to ground by rolling resistance connection, where mast is divided into lower segment and upper segment on top of lower segment - Google Patents

Abstract

The mast i.e. electricity pylon (1) has a foot (4) affixed to the ground by a rolling resistance connection, where the mast is divided into a lower segment (5) and an upper segment (6) on top of the lower segment. A top element (7) is provided on top of the upper segment, where the top element acts as a housing for a rotor with blades.

Description

MAST

The present invention relates to a mast. This includes a 5 foot in or near the ground, and a stand on the foot. Such masts are known in many applications, such as high-voltage masts, windmill masts, columns of advertising masts, transmission masts, etc. In particular, a high-voltage mast, which can also be referred to here as simply a mast. An advertising mast comprises an advertising panel, and a windmill a rotor in or on a housing on the mast with blades attached to the rotor, and such elements and members cause torques that act on the mast.

With the known techniques, the upright in a high-voltage pylon often comprises a construction made of steel profiles.

They are then interconnected and form a high mast for the high-voltage lines. Such a mast requires a lot of work and assembly work in situ, which must take place in all weather conditions and must therefore be regarded as a disadvantage.

Concrete prefab masts are also known. These are often made in one piece, especially if they are relatively short. As a result, however, huge production facilities have to be installed for long masts. In particular, a production hall must be very long, sometimes as high as 50-100 meters. Also the molds, in which such a known mast of such a length must be manufactured, must be very long and, to be precise, as long as the mast to be produced. With such long masts, it is very difficult, though perhaps not impossible, to guarantee the structural integrity of any mast produced. The sagging of reinforcement elements to be arranged in the mast 1035407 2, such as steel rods or cables, whether or not on pre-stressing, or beams, is almost inevitable. The thickness of walls is therefore very difficult to control, in the case that the post is hollow, which is almost a requirement to be able to carry out maintenance at the top of the mast at any time. Hollow masts are thereby preferable to solid or solid masts, because the latter masts made of cement or concrete are unmanageably heavy, and that disadvantage is particularly true when transporting the solid masts, but moreover also during the on-reaching process. of a place of destination. The required moment of power is then enormous. Moreover, the transport by road of prefabricated masts of up to 50-100 meters is problematic. Such a mast cannot or hardly be transported by road with a normal or even an adapted vehicle; even a slight bend in a road means that the vehicle or the prefabricated mast cannot be maneuvered through the bend. In addition to an unmanageable length, similar problems may occur with large diameters.

The present invention has for its object to remedy or at least to reduce the disadvantages of the known art, for which purpose a mast is provided according to the invention, as defined in the appended claims, in particular the independent claims.

By dividing a mast according to the invention into parts, in particular a foot and a post and / or a post that is divided into segments, the length and weight per part can be kept controllable and transportable. If the parts and the mast to be assembled in situ from the parts are also hollow, which is a preferred embodiment of the high-voltage pylon according to the invention, the weight to be transported and assembled can also be kept low per part. . The rotational resistance serves to prevent the parts from rotating about the longitudinal axis of the mast 5, with which disastrous consequences can be avoided. Such could occur in a high-voltage pylon if the high-voltage cables are celebrated around the mast on the one hand and pulled tight on the other, so that a part could turn around the length of the mast, for example as a result of forces generated by wind action.

The invention has various preferred embodiments which are defined in the dependent claims and / or appear from the following description of some such embodiments. The advantages and the inventive features of the invention in all its aspects, including the measures defined in the dependent claims, are by no means limited to the above and / or below mentioned considerations.

It is thus possible that one of the segments defines a top of the post. With the weight thereof, a stabilizing force from above on the total of the mast forming assembly can be obtained.

In addition or additionally, it is favorable that the rotational resistance comprises a pin-hole connection, wherein the pin and the hole have at least partially corresponding shapes. The parts of the mast can thus easily be assembled in situ.

It may be advantageous here that the hole of the pin-hole connection is located under the pin. In particular if a filler is provided in the hole, for example cement or concrete or mortar or any other filler, it can then be ensured that the filler remains in the hole if the pin of the connection 4 is inserted into the hole, certainly if that hole defines an enclosed space.

Then it is furthermore also possible for the pin-hole connection to have a cross-sectional shape in the longitudinal direction of the mast 5. A good safeguard against rotation can thus be achieved. Such a roundly deviating shape can be at least one from the group comprising: oval, triangular, rectangular, square, pentagonal, hexagonal, etc. Combinations of such shapes are also possible within the scope of the invention.

In a further embodiment with a pin-hole connection, it can be favorable if the pin comprises a tapered or converging part near the free end thereof. In particular, the assembly of the parts can thus be simplified when a crane or the like is used to place one part on another part.

In addition or as an alternative, it may be advantageous if fixative is provided in, on or near the rotational resistance. As with the filler, which has already been mentioned above, the fixer can consist of concrete or cement. A good adhesion between the parts can thus be achieved, and play can be filled in and furthermore such play can be prevented from leading to potential problems.

In a further embodiment, the property is advantageously provided that the fixing means is substantially liquid and curable and the hole of the pin-hole connection is closed downwards for inclusion against drainage of the fixing means.

In yet a further embodiment, the mast 30 according to the invention advantageously has the feature that a cable carrier is arranged on a section with a pin or a hole of a pin-hole connection at least on the underside thereof. An optimum modular configuration of the mast can thus be realized, in particular in a non-limitative embodiment as a high-voltage pylon. It may be advantageous here if the section is relatively short with respect to the upright and / or with respect to a segment thereof. The (segments of the) upright then essentially determine the height of the mast, and the length of the sections then essentially determines the mutual distance between carriers and the (high-voltage) cables attached thereto.

The following is a description of a few embodiments shown in the accompanying drawings, which are provided by way of example only, and in which identical or similar components, components and elements are designated with the same reference numerals, and in which:

FIG. 1 shows a perspective view of a number of high voltage pylons according to the present invention;

FIG. 2 shows a schematic perspective view of a single high-voltage pylon according to the present invention; FIG. 3 shows a foot in connection with a portion of a post of a high-voltage pylon according to the present invention;

Fig. 4 shows a sectional view according to the arrow IV in Fig. 2; FIG. 5 shows a perspective view of the method of assembling other parts of a high-voltage pylon according to an embodiment of the present invention;

FIG. 6 shows a sectional view along the arrow VI in FIG. 2;

FIG. 7 shows a sectional view along the arrow VII

in FIG. 2; and Fig. 8 shows yet another alternative embodiment of a mast according to the present invention with modules for providing carriers therein.

Fig. 1 shows a number of high-voltage pylons 1. The 5 high voltage pylons are arranged in pairs and connected with the aid of high voltage cables 2.

It is noted that pairs of high-voltage pylons 1 arranged opposite each other can also be replaced by a single high-voltage pylon with cable carriers 3 projecting in two opposite directions for coupling or connecting the high-voltage cables thereto. The carriers 3 are shown schematically in Fig. 1 as bulges on the high-voltage pylons. Further attention is paid to this below. Fig. 2 shows a possible embodiment of a mast as a high-voltage pylon according to the present invention, but without such carriers. The high-voltage pylon 1 in Fig. 2 comprises a base 4, on which a first segment 5 of an upright is mounted, and a second segment 6 is placed on the segment 5. The segments 5 and 6 together form the upright of the high-voltage pylon 1. At the top of the high-voltage pylon 1, another top element 7 is arranged, which is placed on the second segment 6. The top element 7 can be a housing for a rotor with blades, and it thus appears how much the invention can also be useful and usable in other applications, namely as a windmill.

Fig. 3 shows the manner in which the first segment 5 can be positioned on the base 4. For this purpose, the base 4 comprises a column 8, which is polygonal in plan view. The column 8 in particular comprises a decagonal shape in top view. A similar shape is provided on the inside of the per se hollow first segment 5 of the upright.

7

If the upright and in particular the first segment 5 thereof is placed on or over the column 8, it is intended that these shapes interlock, so that a rotational resistance is provided.

Fig. 3 further shows a second foot 4 with a column 8.

Fig. 4 shows a cross-section in the direction of arrow IV in Fig. 2. This clearly shows the way in which the reinforcing steel 9 is arranged through the column 8. Furthermore, anchors 10, or foundation shaped as piles, are provided on the underside of the foot 4 to properly anchor the foot 4 and to foundation in the ground or bottom 11. The anchors 10 are only schematically represented as tubular elements, wherein It should be noted that arbitrary shapes of anchors or of a foundation on the underside, sides or top of the base 4 can be realized without departing from the letter or spirit of the invention.

To illustrate the enormous size of the (high-voltage) mast to which the present invention relates, an entrance 12 is also shown, along which maintenance staff can give themselves access to the interior of the lower segment 5 to pass a ladder (not shown) to be able to climb to the top of the high-voltage pylon or 25 windmill. Such a staircase can equally be or be arranged on the outside of the mast.

Fig. 5 shows the manner in which the lower segment 5 and the upper segment 6 are connected to each other. The upright of the high-voltage pylon can thus be assembled.

In the top 13 of the lower segment 5, a pentagonal, upwardly tapered pin 13 is arranged with 8 corrugations 14, or curves or shear locks, on the outer surface thereof. The pin 13 is pentagonal in cross-sectional view transverse to the longitudinal direction of the lower segment 5 and a hole on the underside of the upper segment 6 is similarly shaped, although not shown in FIG. The pentagonal hole at the bottom of the upper segment 6 and the pentagonal pin 13 at the top of the lower segment 5 therefore fit together to form a rotational resistance.

Fig. 6 furthermore shows that the pin 13 on the upper side of the lower segment is filled with reinforcing steel 15 in different orientations. It is noted that reinforcing steel is provided at various places, and therefore also in the walls of the lower segment 6 and the upper segment 5, at least preferably. Furthermore, it has already been noted that the pin 13 is provided on its outer surface with ribs 14, which can also be regarded as circular or annular recesses. Such recesses are also provided in the hole on the underside of the upper segment 6, as shown in FIG. Thereby, after the upper segment 6 has been lowered on the lower segment 5 in the direction of arrow A, it is possible to pour cement, concrete or mortar onto the pin 13 on the upper side of the lower segment 5, for example from above. In a possible alternative embodiment, the cement, concrete or mortar 16 is arranged in advance in a hole, which is then, for example, oriented downwards at the top of the lower segment 5. If then the upper segment 6 with a pin at the bottom thereof becomes lowered on the lower segment 5, 30, the pin will nest in the hole on the top of the lower segment 5 to displace the cement, mortar or concrete 16 in the hole so as to obtain a good connection. The hole on the underside of the pin-hole connection can have the advantage that a good adhesion and with a high degree of certainty a good amount of cement, concrete or mortar can be provided in the pin-hole connection.

It is noted that in a particularly favorable embodiment, cement, concrete and / or in or near the rotational resistance can be injected. Then it is of less, if not no importance, whether the pin is arranged above or below the hole.

FIG. 7 then shows a further section in a direction transverse to the longitudinal direction of the mast 1 in FIG. 2, which section is indicated by the arrow VII. The upper of the segments 6 comprises a hole 17 at the top thereof, as described above. Cement, concrete or mortar 18 was poured into the hole just before the top 7 was placed on the upper of the segments 6. At the bottom of the top 7, reinforcing steel protrudes into the hole 17 and extends into the cement, concrete or mortar 18. Thus, a rotational resistance can be provided to prevent the top 7 from rotating relative to the upper of the segments 6.

In the embodiments described above, no attention has yet been paid to the manner in which carriers for the provision of high-voltage cables can possibly be realized. Such carriers are shown in Figs. 8, 25 as integrated components of shorter modules 20, which can be placed with pin-hole connections on the upper of the segments 6. Namely, arms 21 are arranged on the relatively short modules 20, with mounting means, such as passages 22, for mounting the high-voltage cables at their free ends. Also here, as in Fig. 6, it is clear that there are tapered pins, which converge in a direction away from the part to which they are arranged. For example, reference is made to the pin 23 on the lower of the modules 20, which can be inserted into a hole 24 on the upper side of the upper 5 of the segments 6. The upper of the segments 6 also has a tapered shape per se, so that the whole of the upright, which consists of the lower of the segments 5 and the upper segment 6, acquires a slender, elegant shape. It is also apparent from Fig. 1 that an elegant appearance can be achieved with concrete high-voltage pylons. A shorter module can also comprise an advertising panel or windmill house or at least be permanently connected to it.

After taking cognizance of the foregoing, many alternative and additional embodiments will occur to those skilled in the art, all of which are within the scope of the present invention, as defined in the appended claims. Only then, when an embodiment deviates in letter or spirit from the specific definitions of the scope of protection, in particular the independent claims, is there no longer an embodiment according to the invention.

It is thus possible for various other carriers to be realized than the arms 21 on the modules 20, as in FIG.

8 is shown or even advertising panels and / or 25 windmill rotor houses, etcetera. The arms can also be designed separately, without being part of one of the modules 20. In Fig. 8, the lower segment 5 may or may not be tapered, but this is certainly the case in Fig. 5 and Fig. 6. case, so that all possible configurations are disclosed and covered in or by the claims. It is also noted that various pin-hole connections are based on 11 shapes which, depending on the direction of assembly, converging and / or diverging in shape. All kinds of cross-sectional shapes can be used, such as triangular, star-shaped, in the form of a lip 25, as shown in Fig. 8, oval, etc. The tapered shapes of the pin-hole connections can serve for aligning the various parts of a high-voltage pylon relative to each other. This has a favorable influence on the manner and ease with which masts can be assembled. The pin-hole connections with 10 non-circular circumferential shapes ensure that an embodiment of a rotational resistance is provided. Further fixation is possible with filler or fixer, in particular cement, concrete or other curable material.

1035407

Claims (18)

A mast comprising a foot in or near the ground; a post on the foot, wherein the post and the foot are connected through the intervention of a rotational resistance. 2. Mast comprising a post formed from at least two segments on the ground, wherein the segments of the post are interconnected through the intervention of a rotational resistance. Mast according to claim 2, wherein one of the segments defines a top of the upright. 4. Mast according to at least one of the preceding claims, wherein the rotational resistance comprises a pin-hole connection, the pin and the hole having at least partially corresponding shapes. Mast according to claim 4, wherein the pin-hole connection hole is located under the pin. Mast according to claim 4, wherein the pin-hole connection hole is located above the pin. Mast according to claim 4, 5 or 6, wherein the pin-hole connection in cross-section on the longitudinal direction of the mast has an effectively round shape. The mast of claim 7, wherein the shape is at least one from the group comprising; oval, triangular, rectangular, 25 square, pentagonal, hexagonal, etc. Mast according to at least one of the preceding claims 4-8, wherein the pin comprises a tapered or converging part near the free end thereof. 10. Mast according to at least one of the preceding claims, comprising fixing means in, on or near the rotational resistance. 1035407 11. Mast according to at least claim 1, 2 or 3, wherein at least one of the base, the post, the segments of the post and the top is formed from cement or concrete. 12. Mast according to claims 10 and 11, wherein the fixative comprises cement or concrete. Mast according to at least claims 4 and 12, wherein the pin-hole connection is filled with cement or concrete. Mast according to claim 12 or 13, wherein the cement or concrete is injected. Mast according to at least claims 5 and 10, wherein the fixing means is substantially liquid and curable and the hole of the pin-hole connection is closed downwards for inclusion against drainage of the fixing means. Mast according to at least one of the preceding claims, wherein a cable carrier is arranged on a section with at least on the underside thereof a pin or a hole of a pin-hole connection. 17. Mast according to claim 16, wherein the section is relatively short with respect to the upright and / or with respect to a segment thereof. 18. Mast according to at least one of the preceding claims, wherein at least one of an advertising panel, a housing for a rotor of a windmill with blades, and a cable carrier is arranged on the mast, at some height above the ground. 1035407