CZ35103U1 - Supporting device for above-ground fastening of high-voltage power lines - Google Patents

Description

At present, load-bearing systems designed as steel welds are preferred for high-voltage overhead power lines, the advantage of which lies in the simplicity of assembly. These welds are installed and anchored to the heads of concrete, wooden or metal columns, respectively. masts, with the help of sleeves and connecting material. These weldments are characterized by their typical triangular arrangement of supported conductors. The support systems constructed in this way have a narrower floor plan. In addition, the geometry of the bracket, with a suitable side-arm tilt angle and the absence of horizontal surfaces in close proximity to the insulators, prevents larger birds from landing, thus preventing phase or ground fault compared to previously used power lines with brackets in a planar conductor arrangement.

Current solutions of support systems with a triangular arrangement of supported conductors are described in utility models CZ 6978, CZ 10910, CZ 12920, CZ 15405, CZ 16221, CZ 24206 and CZ 24049. The support systems described in the above documents differ in the shape of the side and center arms. , structural design of mast clamping, adjoining structures, as well as additional elements for bird protection. Due to the fact that the above-mentioned load-bearing systems differ in geometry, ie in the interphase distances of the individual arms and in the vertical positions of the conductors relative to the mast pin, and in the permissible load of the individual arms, selected type of conductor, consideration of meteorological conditions, angle of refraction of the line route and other specifics.

The utility model CZ 31990 (U1) describes a specific support system for the combined distribution of overhead high-voltage power lines and communication lines. A support system consisting of four support arms, three of which carry electrical conductors and one carries an optical cable.

In known support systems, the arms carrying the electrical conductors are formed from a hollow steel profile called a steel. One end of the arms is welded to the others, creating the appearance of a bird's claw. The free end of the arm is provided with an insulator carrier, on which an insulator carrying an electrical conductor is mounted. The insulator carrier is again formed by a steel hollow profile of the steel type, which is welded to the free end of the arm on one side. The insulator is anchored to the carrier by means of a screw connection passing through the hollow profile of the carrier through a connecting hole. For a better possibility of the screw passing through the carrier and the accessibility of the assembly tools, the free end of the arm is provided with a technological recess from its outer side. The design of hollow steel profiles is advantageous in that it solves the advantageous ratio of strength, weight and production costs, but it has strength limitations in terms of force transmission from the insulator to the bracket via a screw connection.

The main disadvantage of this technical solution is that the tightening torque of the screw connection is limited by the flexibility of the hollow profile. Achieving the optimal tightening torque thus depends very much on the experience of the fitter and his sensitive manual tightening with common ring spanners or torque wrenches. Thanks to the automation of work activities, assembly companies have recently also been equipped with powerful cordless and impact wrenches. However, when using this technique, there is a risk of significant drag on the screw connection. This can cause deformation of the insulator carrier, and thus instability of the joint.

- 1 CZ 35103 UI

The connection of the arm steel and the steel of the insulator carrier is not optimal also from the point of view of welding technology. Welding of the "T" joint of two-core means the need to fill large cavities, which are created by placing rounded edges of steel together. The large caterpillar of the weld is disadvantageous due to the higher consumption of welding materials and energy, but also the increased heat affected areas.

The task of the present technical solution is to create such a supporting device for overhead fastening of high voltage power lines, which can eliminate possible human error, which in case of incorrect use of mechanization means instead of manual tightening may cause insufficient strength of assembled joint and deformation of insulator carrier. The formed insulator carriers must provide higher rigidity and a more advantageous arrangement of surfaces for optimal welded joints, while maintaining the possibility of anchoring the line with additional anchoring elements for the subsequent installation of the safety insulator.

The essence of the technical solution

The shortcomings of the currently known technical solutions are overcome by the supporting device described below for the above-ground fastening of a high-voltage power line to a mast. The support device comprises at least three support arms formed by hollow steel profiles. The support arms are provided with insulator carriers at the free ends. Each insulator carrier is then connected to the free end of the support arm by a welded joint and is provided with a connecting hole for a connecting screw. The insulator carrier is a flat steel plate.

In a preferred embodiment, the support arm consists of a single hollow steel profile or of several hollow steel profiles. Most often, the construction of several hollow steel profiles is characterized by a central support arm. However, it is usually a construction of only two hollow steel profiles. If the support arm forms several hollow steel profiles, these hollow steel profiles are firmly connected to each other in the upper part by a flat steel plate.

In a preferred embodiment, each flat steel plate is further provided with at least one guide hole.

In another preferred embodiment, additional anchoring elements are arranged on the flat steel plates. Each anchoring element is provided on its underside with at least one guide pin which projects from the underside of the anchoring element and fits into the guide hole of the flat steel plate. This defines the position of the anchoring element and the flat steel plate and prevents their mutual displacement during assembly.

In another preferred embodiment, the anchoring element is a flag which is formed by a steel "U" profile.

In the following preferred embodiment, the flag is provided with at least two mounting holes. One mounting hole is used to anchor the insulator and the flag to a flat steel plate. In this preferred embodiment, the connecting screw passes from below at the same time through the flat steel plate through the flag to the insulator, where a screw thread is formed in the cavity. The other mounting holes are only used to anchor the insulator to the flag.

In another preferred embodiment, the anchoring element is an anchoring adapter, which is formed by a pair of connected steel profiles together forming an "X" shape.

In another preferred embodiment, the anchor adapter is provided with at least two pairs of opposing mounting holes. These opposite mounting holes serve to anchor the insulator to the anchor adapter via a screw connection. The anchor adapter is further provided with one anchor hole. This anchoring hole serves either for mutual anchoring of the insulator and the anchoring adapter with a connecting screw on a flat steel plate or only for anchoring of the anchoring adapter.

-2 CZ 35103 UI screw connection to flat steel plate. In the first of these preferred embodiments, the connecting screw passes from below at the same time through a flat steel plate through the anchor adapter to the insulator, where a screw thread is formed in the cavity. In the second of these preferred embodiments, the screw connection passes from above through the anchor adapter and the flat steel plate.

In the following preferred embodiment, the screw connection is formed by a screw and a nut or a screw, a nut and at least one screw washer.

The main advantage of this technical solution is that the created supporting device for the above-ground fastening of the high-voltage power line enables a firm and highly durable fastening of the insulators to this supporting device. The created joint can be anchored with a much higher tightening torque than was the case with other currently known technical solutions. This makes it possible to carry out the tightening by a mechanizing means which is able to develop a greater tightening torque without compromising the strength of the joint or the deformation of the insulator carrier. At the same time, the created joint has a much better structural design of the weld of the connected elements, enabling their lighter and at the same time better mutual welding.

Clarification of drawings

The technical solution will be explained in more detail with the help of drawings, which show:

Giant. 1 is a side view of a support device in an embodiment with three support arms, wherein the two side support arms are each formed by only one hollow steel profile and the central arm is formed by two connected hollow steel profiles. The support device has the insulators anchored by a connecting screw directly to the flat metal plate;

Giant. 2 is a perspective view of a support device in an embodiment with three support arms, the support device having one insulator on each support arm, which is directly anchored to the flat metal plate by a connecting screw;

Giant. 3 is a perspective view of a support device in an embodiment with three support arms, the support device having two insulators on each support arm, which are mounted on a flag;

Giant. 4 is a perspective view of a support device in an embodiment with three support arms, the support device having two insulators on each side support arm, which are mounted on the anchor adapter from the sides. Insulators tn are anchored on the central support arm on the anchor adapter;

Giant. 5 is a perspective view of a flag with a guide pin facing down and a pair of mounting holes;

Giant. 6 is a perspective view of an anchor adapter with two pairs of opposite mounting holes, one guide pin facing downwards and one anchor hole fitted with a screw connection;

Giant. 7 is a perspective sectional view of the connection of the insulator, the anchor adapter and the flat steel plate. The connection is made by means of a connecting screw and a guide pin;

Giant. 8 is a perspective sectional view of the connection of the insulator, the flag and the flat steel plate by means of the connecting screw and the guide pin and of the connection of the insulator and the flag by means of the connecting screw.

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Examples of technical solutions

It is to be understood that the specific embodiments described and illustrated below are presented by way of illustration and not by way of limitation. Those skilled in the art will find, or be able to ascertain using routine experimentation, a greater or lesser number of equivalents to the described embodiments of the technical solution.

The support device 1 for the above-ground fastening of the high-voltage power line 12 to the mast 3 according to FIGS. 1 to 4 forms the profile of a three-finger steel claw. The support device 1 comprises at least three support arms 2 formed by hollow steel profiles. As a whole, the support device 1 is anchored to the mast 3 and thus usually forms its upper end. The support arms 2 are provided at their free ends with insulator carriers 5. Each insulator carrier 5 is connected to the free end of the support arm 2 by a welded joint. The insulator carrier 5 is provided with a connecting hole 6 for the connecting screw 7. The insulator carrier 5 is a flat steel plate 4.

According to the exemplary embodiment of the technical solution shown in FIGS. 1 to 4, the support arm 2 consists of a single hollow steel profile or of several hollow steel profiles. Most often, the construction of several hollow steel profiles is characterized by a central support arm 2. Usually, however, it is a construction of only two hollow steel profiles. If the support arm 2 forms several hollow steel profiles, these hollow steel profiles are firmly connected to each other in the upper part by a flat steel plate 4.

According to the exemplary embodiment of the technical solution shown in FIGS. 7 and 8, each flat steel plate 4 is also provided with at least one guide hole 8 passing through the entire cross-sectional profile of the flat steel plate 4.

According to another exemplary embodiment of the technical solution shown in FIGS. 3, 4, 7 and 8, anchoring elements are arranged on the flat steel plates 4. Each anchoring element is provided on its underside with at least one guide pin 9 which protrudes from the underside of the anchoring element and fits into the guide hole 8 of the flat steel plate 4. This defines the position of the anchoring element and the flat steel plate 4 and prevents them from displacing during assembly.

According to the exemplary embodiment of the technical solution shown in FIGS. 3, 5 and 8, the anchoring element is a flag 10. It is formed by a steel "U" profile.

The flag JO according to the previous embodiment of the technical solution is provided with at least two fastening holes 13. One fastening hole 13 serves for mutual anchoring of the insulator 5 and the flag 10 to the flat steel plate 4. In this exemplary embodiment the connecting screw 7 passes from 4 through the flag 10 to the insulator 5. A cavity with a screw thread is formed in the insulator 5 into which the connecting screw 7 is anchored. The other fastening holes 13 serve only to anchor the insulator 5 to the flag 10. The connecting screw 7 thus passes from below through the fastening hole 13 of the flag 10 and ends in the cavity of the insulator 4 with a screw thread. The connecting screw 7 is anchored in this thread also in this exemplary embodiment of the technical solution.

According to the exemplary embodiment of the technical solution shown in FIGS. 4, 6 and 7, the anchoring element is an anchoring adapter 11, which is formed by a pair of connected steel profiles together forming an "X" shape.

According to the previous embodiment, the anchor adapter 11 is provided with at least two pairs of opposite fastening holes 13. These opposite fastening holes 13 serve to anchor the insulator 5 to the anchor adapter 11 via a screw connection 14. The anchor adapter 11 is further provided with one anchor hole 15. the anchoring hole 15 serves either for mutual anchoring of the insulator 5 and the anchoring adapter 11 by a connecting screw 7 to a flat steel plate

-4 CZ 35103 UI or only for anchoring the anchor adapter 11 with a screw connection 14 to a flat steel plate 4.

In the first embodiment of the technical solution, the connecting screw 7 passes from below at the same time through the flat steel plate 4 through the anchor adapter 11 to the insulator 5. The insulator 5 is provided at the bottom in a cavity with a screw thread into which the connecting screw 7 is anchored. In the second of these embodiments, the screw connection 14 passes from above through the anchor adapter 11 and the flat steel plate 4. The screw connection 14 is formed by a screw and a nut as shown in FIGS. 4, 6 and 7 or by a screw, nut and at least one screw washer.

The strength of the connection is achieved with the connecting screw by tightening this screw against the thread in the insulator. The strength of the connection at the screw connection is achieved by tightening the screw against the nut, which connection can be provided with at least one spring washer against unintentional loosening.

Industrial applicability

The technical solution finds its application mainly in the construction and repair of power lines based on overhead mast power lines using electrical conductors.

Claims (8)

Support device (1) for above-ground fastening of high voltage power line (12) and / or communication line to mast (3), comprising at least three support arms (2) formed by hollow steel profiles and provided with insulator carriers (5) at free ends ), each insulator carrier (5) being connected to the free end of the support arm (2) by a welded joint and provided with a connecting hole (6) for a connecting screw (7), characterized in that the insulator carrier (5) is a flat steel plate ( 4). Support device (1) according to claim 1, characterized in that each flat steel plate (4) is simultaneously provided with at least one guide hole (8). Support device (1) according to claim 2, characterized in that anchoring elements are arranged on the flat steel plates (4), each anchoring element being provided on its underside with at least one guide pin (9) projecting from the underside of the anchoring element. adapter and fitting into the guide hole (8) of the flat steel plate (4). Support device (1) according to claim 3, characterized in that the anchoring element is a flag (10) formed by a steel "U" profile. Support device (1) according to claim 4, characterized in that the flag (10) is provided with at least two fastening holes (13), one fastening hole (13) passing through the connecting screw (7) simultaneously anchoring the insulator (5) to the flag (10) and the flag (10) pass on the flat steel plate (4) and through the other fixing holes (13) a connecting screw (7) anchoring only the insulator (5) to the flag (10). Support device (1) according to claim 3, characterized in that the anchoring element is an anchoring adapter (11) formed by a pair of connected steel profiles together forming an "X" shape. Support device (1) according to claim 6, characterized in that the anchor adapter (11) is provided with at least two pairs of opposite fastening holes (13) for anchoring the insulator (5) to the anchor adapter (11) by a screw connection (14) and one anchoring hole (15) for anchoring the anchor adapter (11) and the insulator (5) with a connecting screw (7) to the flat steel plate (4) or for anchoring the anchor adapter (11) with a screw connection (14) to the flat steel plate (4) ). Support device (1) according to claim 7, characterized in that the screw connection (14) is formed by a screw and a nut or a screw, a nut and at least one screw washer.