EP1247925A2 - Device for increasing the height of high tension cable masts - Google Patents

Abstract

The device for increasing the height of a high-tension power line's two-section mast includes a central mast (4) which protrudes into the upper mast section (3) and is enclosed by a lifting device. The length of the lifting device is dimensioned so that it projects into the upper mast section. At least two hydraulic cylinders (7) are used to drive the lifting device. A first roll surface (10) is located at the upper end of the lifting device, and at a defined distance above it is a second roll surface (20). The first roll surface is detachably connected to the lifting device and both roll surfaces are detachably connected to the upper mast section.

Description

The invention relates to a device for increasing a high-voltage transmission tower according to the preamble of claim 1.

Such devices are used where there is an increase in high-voltage transmission tower performed with live conductor systems must be, and switching off the conductor systems is not possible. An increase of overhead line masts may be required if the distances between the ground and the conductor systems have to be enlarged.

DE 198 03 954 A1 describes a method and a device for increasing High-voltage transmission tower known. When performing the procedure a mounting pole is first installed inside the high-voltage overhead line pylon, which stands with one end on the foundation of the transmission tower. The The length of the mounting arm is dimensioned so that its second end is a short distance away is arranged below the first crossmember of the overhead line mast. The transmission tower becomes horizontal for the elevation at a defined distance above the ground severed. Beforehand, there are two centering devices within the section to be raised installed at defined intervals. These are with connected to the section of the overhead line to be lifted. They are with roles provided that are installed so that they are guided along the mounting arm can. After severing the overhead line mast, the one carrying the trusses Mast section pulled up with the help of pulling ropes. To lift the upper mast section, a lifting device is used, to which a stiffening frame heard, which is connected to the mast section to be lifted. This stiffening frame is provided with pulleys. These are used to divert traction ropes, which are guided over pulleys on a cross, at the top the mounting handle is attached. These pull ropes are connected to gripping pulls, which are arranged at the lower end of the mounting arm. From these reachings the traction cables are subjected to a tensile force for lifting the upper mast section. Raising overhead line masts with the help of pull ropes is time-consuming, because in addition to the pulling ropes, gripping cables and guy ropes have to be installed with which the top of the mast is pulled up and when filling the gap held between the lower mast section and the raised mast section becomes.

EP 0607915 B1 describes a method and a device for increasing Transmission tower known. For this, a lifting device is used, which is based on the floor is arranged so that it covers the lower end of the transmission tower encloses. Thereupon it is placed in two spaced apart Levels connected to the transmission tower. Then the transmission tower separated from his foot. The dividing line lies below the levels in which the lifting device is connected to the transmission tower. Then the lifting device actuated, and the overhead line mast raised so far that the distance between the foot of the overhead line mast and the one connected to the lifting device Part of the transmission tower is as large as the desired increase. In the gap between then the foot of the transmission tower and the raised part becomes one Inserted mast piece. This is then with the foot of the transmission tower and the raised section of the overhead line mast firmly connected.

The invention has for its object to show a device with which Increase in overhead line masts of any size that are already in operation faster and more economical than before.

This object is achieved by the features of patent claim 1.

With the device according to the invention, high-voltage overhead line masts can be up to can be increased to a total weight of 80 kN. Raising a power transmission tower can be done in half a day. The the time required for this is far less than in the known methods. The line systems do not have to be switched off or disconnected for this become. Before the elevation, each overhead line mast is placed in a lower mast section and divided an upper mast section. The upper mast section is with With the help of the device according to the invention raised to the desired height. The The device according to the invention is located in the interior of the high-voltage transmission tower Installed. The upper mast section is lifted from the inside of the overhead line mast. The device has a support and guide device as well as a lifting device. The support and guide device will formed by a central mast, which is partially surrounded by the lifting device is. The lifting device is with the upper mast section over a first roller level connected, which encloses the central mast and are supported on this can. The lifting device can be operated with the help of hydraulic cylinders along the central mast be moved. At a defined distance above the first roller level arranged a second roller level, which is also connected to the upper mast section is. When separating the two mast sections, as well as when lifting the upper one Mast section and closing the gap between the lower mast section and the raised upper mast section becomes the upper mast section from the interior of the overhead line mast with the help of the two roller levels that are can be supported on the central mast, guided and centered.

Further inventive features are characterized in the dependent claims.

The invention is explained in more detail below with the aid of schematic drawings.

Fig. 1 einen zum Erhöhen vorbereiteten Freileitungsmast,

Fig. 2 den Innenbereich des Freileitungsmastes gemäß Fig. 1,

Fig. 3 den Aufbau von zwei Rollenebenen,

Fig. 4 einen Freileitungsmast 1, der mit zwei Rollenebenen verbunden ist,

Fig. 3 den erhöhten Freileitungsmast gemäß Fig. 1.

Show it:

1 prepared for an overhead transmission tower,

2 shows the interior of the overhead line mast according to FIG. 1,

3 shows the structure of two roller levels,

4 an overhead line mast 1, which is connected to two roller levels,

3 shows the elevated overhead line mast according to FIG. 1.

1 shows a high-voltage overhead line mast 1, also referred to briefly as an overhead line mast called, which is designed as a steel lattice mast. He has a lower one Mast section 2 and an upper mast section 3, the two mast sections 2 and 3 are below or above a dividing line A-A '. Preferably a location is selected for this, at the components (not shown here) of the overhead line mast 1 are releasably connected. Be along this dividing line A-A ' the two mast sections 2 and 3 to raise the overhead line mast 1 horizontally separated from each other. First, however, within the overhead line pylon 1 a support and guide device in the form of a central mast 4 in the middle of a Foundation 5 installed and releasably connected. The central mast 4 is square Steel lattice mast. It is preferably made on a foundation 5 Wooden sleepers installed. The central mast 4 has in the embodiment shown here a cross section that is approximately one third of the inner cross section of the Transmission tower 1 corresponds. However, it can also be made larger or smaller become. The height of the central mast 4 depends on the desired increase in Overhead masts 1. Depending on the distance between the dividing line A-A 'from the ground has, the central mast 4 must be supported accordingly. The one shown here The exemplary embodiment is the central mast 4 at a height of 3.50 m above the foundation 5 braced horizontally towards the lower mast section 2 (not shown here). As FIGS. 1 and 2 also show, the central mast 4 is in regions of surrounded by a lifting device 6 like a shell, which, like the central mast 4, has one has a square cross section. The lifting device 6 can be along the central mast 4 can be moved up and down. Belong to the lifting device 6 two hydraulic cylinders 7, which are arranged on the outside of the central mast 4 opposite one another are. The first end 7A of each hydraulic cylinder 7 is on a console 8 held at a short distance above the foundation 5 on the outside of the central mast 4 is installed. The second end 7B of each hydraulic cylinder 7 is connected the downward-facing limitation of the lifting device 6. The lifting device 6 is assembled from tube and / or lattice supports 6G, 6R. Your length is adapted to the desired increase in the overhead line mast 1. she is in any case dimensioned so that the lifting device 6 in the upper mast section 3 protrudes.

As FIGS. 1, 2, 4 and 5 show, there is one at the upper end of the lifting device 6 first roll level 10 installed. For the formation of the role level 10 are each four carriers 11 and 12 are provided, as can be seen in FIGS. 3 and 4. The The length of all beams 11, 12 is dimensioned such that they are at least 3 m larger than that The diameter of the mast section 3 is in the area of the roller plane 10. The carrier 11 are made of U-profiles in the embodiment shown here, while the carrier 12 are made of double-T profiles. Of the four carriers 11 are two carriers 11 directly on the upper end of the lifting device 6 releasably so attached that they are arranged parallel to each other. The other two carriers 11 are also installed parallel to each other on the first two supports 11, that their longitudinal axes are perpendicular to the longitudinal axes of the first two beams 11 are arranged. The adjoining supports 11 are via holding elements 13 connected with each other. This arrangement of the four beams 11 becomes the central mast 4 surrounded by the four carriers 11 in a frame shape. All four carriers are 11 also arranged so that their ends all out of the mast section 3 survive. Each of the supports 11 is in the region of each corner post 4E of the central mast 4 provided with at least one slide roller 11G, which corresponds to the respective corner post 4E is facing. The corner posts 4E of the central mast 4 are each by two in Right-angled, flat components are formed, so that the rollers 11G to support the upper mast section 3 on the corner posts 4E and can roll on it. To each beam 11 is parallel, in the same plane, immediately outside the mast section 3, one of the four beams 12 installed. Everyone the four supports 12 are on the one hand with the supports arranged below or above them 11, 12 releasably connected via holding elements 13. They are also arranged in such a way that they can be gripped with clamps (not shown here), with corner handle brackets 14 are provided. With these corner handle brackets 14, the carrier 12 with the corner posts 3E of the upper mast section 3 releasably connected. It becomes a firm one Connection between the lifting device 6 and the mast section 3 is formed.

As Figures 1, 2, 4 and 5 also show, is at a predetermined distance A second roller level 20 is installed above the first roller level 10. The distance between the two roller levels 10 and 20 must be at least 4.50m. For the Formation of the second roller level 20, four supports 21 and 22 are provided, as can be seen in Figures 3 and 4. The length of all carriers 21, 22 is so dimensioned to be at least 3m larger than the diameter of the mast section 3 is in the area of the roller level 20. The carrier 21 are in the shown here Embodiment made of U-profiles, while the carrier 22 made of double T Profiles are made. The four beams 21 are arranged so that they are the central mast 4 surrounded by a frame, and all their ends from the mast section 3 after survive outside. They are arranged as the carrier 11 of the roller level 10, and also connected to one another via holding elements 13. The bearers 21 are also provided with slide rollers 21G in the same way as the supports 11, which face the corner posts of the central mast 4. The distance between the Carriers 21 and the central mast 3 is so low that the casters 21G to support the mast section 3 lie on the corner posts 4E and roll on them can. To each carrier 21 is parallel, in the same plane, directly outside of the mast section 3, one of the four supports 22 installed. Each of the four Carrier 22 is on the one hand with the carriers 21, 22 arranged below or above it releasably connected via holding elements 13. In addition, all four carriers 22 are arranged that they can be gripped with clamps (not shown here), with corner handle brackets 14 are provided. With these corner handle brackets 14 are the carrier 22 as well as the carrier 12 releasably connected to the corner posts 3E of the mast section 3.

Before lifting the upper mast section 3, the central mast 4 is aligned centrally. Then the two mast sections 2 and 3 on the dividing line A-A ' separated from each other. By operating the hydraulic cylinder 7, the lifting device 6 raised. It slides up along the central mast 4. Thereby also the two roller levels 10 and 20 and the upper one connected to them Mast section 3 moves up, if necessary, until the hydraulic cylinders 7 are fully extended. Is the desired increase in the overhead line mast then not yet reached, the hydraulic cylinder 7 must first further increase will be implemented. For this, be between the bottom of the lifting device and the console 8 adjustable supports (not shown here) arranged and releasably attached. Then the hydraulic cylinder 7 from the Lifting device 6 and the console 8 released and pushed together. thereupon they are connected to another console (not shown here) at a defined distance is installed above the first console 8, with its first ends 7A again attached opposite to each other, while their second ends 7B with the bottom the lifting device 6 can be connected. The upper mast section 3 can then be raised again by the same distance in the same way. During the the mast section 3 can be lifted again (not shown here) be removed again. If the desired height is reached, the gap 16, between the two mast sections 2 and 3 of the overhead line mast shown in FIG. 5 1 closed by inserting an intermediate piece (not shown here), connected to the lower mast section 2 and the upper mast section 3 becomes. This completes the elevation of the overhead line mast 1. Now the central mast 4, the foundation 5, the lifting device 6 with the hydraulic cylinders 7 and the roller levels 10 and 20 in the reverse order as be dismantled before the increase.

Claims (8)

Device for raising a high-voltage overhead line mast (1) which can be subdivided into a lower mast section (2) and an upper mast section (3), which has a lifting device (6) and a supporting and guiding device (4) in the form of a central mast which is in the upper mast section (3) protrudes, characterized in that the central mast (4) is surrounded in parts like a shell by the lifting device (6) and the length of the lifting device (6) is dimensioned such that it projects into the upper mast section (3) in such a way that for the drive at least two hydraulic cylinders (7) are provided for the lifting device (6), and a first roller plane (10) is arranged at the upper end of the lifting device (6) and a second roller plane (20) at a defined distance above it, and that the first roller plane ( 10) with the lifting device (6) and both roller levels (10, 20) with the upper mast section (3) are detachably connected. Device according to claim 2, characterized in that the central mast (4) has a square cross-section and is installed in the center of the high-voltage overhead line mast (1) on a wooden foundation (5), and in that each corner post (4E) of the central mast (4) is manufactured from two flat components arranged at right angles to one another. Device according to one of claims 1 and 2, characterized in that the lifting device (6) is assembled from tubular grid and steel grid supports (6G, 6R), and the two hydraulic cylinders (7) are arranged on opposite sides, that the first ends ( 7A) of the hydraulic cylinders (7) are fastened to a bracket (8) of the central mast (4), which is installed at a short distance above the foundation (5), and that the second ends (7B) of the hydraulic cylinders (7) at the lower end the lifting device (6) are attached. Device according to one of claims 1 to 3, characterized in that the second roller plane (20) is arranged at a distance of at least 4.50 m above the first roller plane (10), that each roller plane (10, 20) consists of eight carriers (11 , 12, 21, 22) is assembled, and the beams (11, 21) have U profiles and the beams (12, 22) have double T profiles, and that the length of the beams (11, 12, 21, 22) is at least 3m larger than the diameter of the mast section (3) in the area of the roller plane (10, 20). Device according to one of claims 1 to 4, characterized in that a first and a second carrier (11) of the first roller plane (10) are arranged parallel opposite one another on the upper end of the lifting device (6), that a third and a fourth carrier (11) are also installed parallel to each other on the first two beams (11) so that their longitudinal axes are oriented perpendicular to the longitudinal axes of the first two beams (11) and the central mast (4) is surrounded by the four beams (11) in a frame shape is that the ends of all four brackets (11) protrude from the mast section (3) and all adjoining brackets (11) are connected to one another via holding elements (13), and that each of the four brackets (11) with two sliding rollers (11G) is provided, which are each arranged opposite two corner posts (4E) of the central mast 4. Device according to one of claims 1 to 5, characterized in that one of the four supports 12 is installed parallel to each support 11 in the same plane, immediately outside the mast section (3), that each of the four supports (12) on the one hand with the supports (11, 12) arranged underneath and / or above are detachably connected to at least two corner supports (3E) of the upper mast section (3) via holding elements (13) and corner support supports (14). Device according to one of claims 1 to 6, characterized in that a first and a second carrier (21) of the second roller plane (20) are arranged parallel opposite each other at a distance, that a third and a fourth carrier (21) also parallel to each other are installed on the first two supports (21), that their longitudinal axes are aligned perpendicular to the longitudinal axes of the first two supports (21), and the central mast (4) is surrounded by the four supports (21) in a frame-like manner that the ends of all four Project carriers (21) from the mast section (3) and all adjacent carriers (21) are connected to one another via holding elements (13), and that each of the four carriers (21) is provided with two sliding rollers (21G), each opposite from two corner posts (4E) of the central mast 4 are arranged. Device according to one of claims 1 to 7, characterized in that one of the four supports 22 is installed parallel to each support 21, in the same plane, immediately outside the mast section (3), that each of the four supports (22) on the one hand with the supports (21, 22) arranged underneath and / or above are detachably connected to at least two corner supports (3E) of the upper mast section (3) via holding element (13) and corner support supports (14).

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