RU107247U1 - CELLULAR RADIO MAST COMBINED WITH LIGHT SUPPORT - Google Patents

Abstract

 1. Cellular radio mast comprising interconnected base, sections in the form of cylindrical tubes and an antenna stand mounted on the upper part of the upper section, the diameter of each upstream section being less than the diameter of the downstream section, characterized in that each subsequent section is connected to the downstream section by a docking unit formed by a horizontal flat annular element rigidly connected to the downstream section, and a landing element attached perpendicular to the flat ring element and made in the form of a pipe with an external ribbing, the ribbing being formed by radially spaced ribs, the outer surface of which forms a seating surface for the inner surface of the upstream section, and the upstream section is fixed with respect to the pipe of the seating element by means of an expansion screw or expansion screws pipe of the mounting element and screwed into the nut, rigidly connected to the side wall of the section in which the hole is made under the spacer screw. ! 2. The radio mast according to claim 1, characterized in that the ribs of the landing element of the butt assembly of the downstream section are made in the upper part with decreasing height for the formation of the lead-in under the abutting upstream section. ! 3. The radio mast according to claim 1 or 2, characterized in that the sections have a length of 4 m.! 4. The radio mast according to claim 1, characterized in that the terminals for connecting the protective earth are made on the lower section. ! 5. The radio mast according to claim 1, characterized in that in each section one technological hole is made�

Description

The utility model relates to the field of construction equipment and, in particular, to supporting structures - radio masts designed for mounting antennas on them, as well as street lighting fixtures and other devices for various purposes.

Various designs are known RU 771311 A1, 1980; RU 2070267 C1, 1996; RU 28507 U1, 2003; US 3,187,175, 1965; US 4,216,632, 1980; US 7,497,140 B2, 2009; US 7,557,771 B1, 2009; DE 197.03.856 A1, 1998

Known high-mast lighting installation containing a support made in the form of a hollow truncated cone, a crown frame with a light source mounted on brackets, a system for lowering and lifting the crown frame, which includes a drum with a cable, a gearbox, a locking device and an asterisk, while the gearbox is made in the form of a worm gear, the brackets are removable, and the support is made in the form of a set of cones inserted sequentially one into another (RU 12719 U1, 2000)

Such an installation is not without significant drawbacks, namely, the main one is that it cannot be used for mounting antenna devices at high altitude so that it can withstand the necessary conditions for wind and ice loads.

A support is also known for mounting on it, for example, outdoor lighting fixtures, comprising a base and hollow sections with metal walls inside, connected by ends to obtain a given support height (RU 16538 U1, 2001).

However, this technical solution has significant disadvantages:

the transportation of sections requires the use of long vehicles, which is difficult in urban (or other) development;

- when assembling such structures, significant space is required to accommodate crane equipment and vehicles.

The closest technical solution to the proposed one (the closest analogue) is a cellular radio mast containing a base and hollow inside the section with metal walls, connected by the ends to obtain a given height of the radio mast, the sections are made in the form of cylindrical pipes of different diameters, the fastening of which is achieved by means of flange connection, while the base of the radio mast is buried in a reinforced concrete foundation, in the body of which there are horizontally laid channels for passing Indoor and radio tower power cables, communication cables, and lighting. The lower section of the radio mast has the largest diameter equal to the diameter of the base, and each subsequent section is made of a smaller diameter in relation to the downstream section. The flange of the lower section is attached to the flange of the base end-to-end with an installation clearance by means of, for example, six studs with adjusting and locking nuts. On the lower section, at a height of 0.3 m from the level of the basement flange, terminals are provided, two on opposite sides for connecting protective earth. Each section, starting from the second after the lower section, has end-sections, for example, 1 m long, with spaced apart and fixing circular shoulders, with which bolts inserted by end-sections into each other sections are fastened together. In each section, at least one technological hole is made for securing the cables passing inside the radio mast after installation. Technological holes are made on one of the middle sections and on the upper section, intended for equipping hermetic I / O of electric lighting cables, fiber optic cables and high-frequency cables. The radio mast is equipped with a rack for attaching antenna devices to it, the rack is attached to the upper section through its flange using hook bolts, curved part inserted into the holes provided in the end of the upper section. The sections were coated with hot galvanizing with a thickness in the range of 60-100 microns.

The disadvantages of the known design include the complexity of its assembly due to the presence of a flange connection that requires accurate alignment of the sections, and given the size of the sections this requires a lot of labor

The task to be solved by this utility model is the development of a radio mast capable of working reliably under conditions of wind and ice loads (according to SNiP 2.01.07-85), taking into account the simple and efficient transportation of the structure and minimizing the area for its installation, also the task is to simplify assembly and expansion operational capabilities of the radio mast due to the possibility of installing street lighting sources on it.

The problem is solved due to the fact that the cellular radio mast contains interconnected base, sections in the form of cylindrical pipes and an antenna stand mounted on the upper part of the upper section, the diameter of each upstream section being less than the diameter of the downstream section, and each subsequent section connected to the downstream section by means of a docking unit formed by a horizontal flat annular element rigidly connected to the downstream section and a landing (“entry”) ele a rigidly attached to a flat ring element and made in the form of a pipe with an external finning, the axis of which is perpendicular to the plane of the ring element, the finning being formed by radially arranged ribs, the outer surface of which forms a seating surface for the inner surface of the upstream section, and fixing the upstream section relative to the landing pipe the element is made by means of a spacer screw or spacer screws, tightening the pipe of the landing element and screwed x nut rigidly connected to the side wall of the section in which the hole for the spacer screw is made.

The ribs of the landing element of the butt assembly of the downstream section are preferably made in the upper part with decreasing height to form a lead-in under the abutting upstream section. Each section of the radio mast in the preferred embodiment has a length of 4 m, and the height of the radio mast is at least 30 m (6 sections of 4 m + 2 sections of 3 m).

On the lower section, the terminals for connecting the protective earth must be made. In addition, in each section, one technological hole is made to ensure the broaching and fastening of cables passing inside the radio mast.

The radio mast may be provided with an additional upper antenna post for mounting the antenna device, while the upper antenna post is attached to the upper part of the first antenna post by means of flanges using bolts.

The technical result from the use of the utility model is to simplify the design and simplify the assembly of the radio mast while ensuring the reliability of securing the sections together and making it possible to install street lighting sources on the radio mast.

The achievement of the technical result is ensured by the proposed implementation of the docking unit, which provides the connection of the sections with each other, while simplifying the alignment of the sections during their installation due to the fact that the contact of the inner surface of the upstream section is made over a small area - over the surface of individual ribs (outer ribbing of the landing made in the form of a pipe). In addition, the upstream section (pipe) is installed on the horizontal plane of the annular element, which is both the support of the upstream section and the element that transmits the force from the upstream section to the downstream one. High reliability of fastening the flat annular element can be ensured, for example, by the required number of struts (ribs) welded to the downstream section and to the flat annular element.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows a General view of a radio mast of cellular communication, combined with a lighting support;

figure 2 - node 1 (mounting sections) of figure 1;

figure 3 is a section 1-1 of figure 2;

figure 4 - lower antenna rack;

figure 5 - section 1-1 of figure 4;

figure 6 is a section 2-2 of figure 4;

Fig.7 - the upper antenna rack.

A cellular radio mast combined with a street lighting support is a prefabricated structure consisting of steel cylindrical sections, for example, six - 1, 2, 3, 4, 5 and 6 (see figure 1), made in the form of pipes. The design of the radio mast also includes an anchor group for attaching to the foundation and antenna posts 7 and 8.

The lower section 1 is made with a flange for fastening to the base (foundation of the radio mast). The anchor group of the radio mast is buried in a reinforced concrete foundation, which provides free laying of communication and power cables along horizontal channels from a trench from the earth's surface to the internal cavity of the radio mast. Fastening the radio mast to the foundation using an anchor group, for example consisting of 12 hairpins, allows you to adjust the vertical installation of the radio mast.

Sections 1-6 are made of different diameters, each subsequent section, counting from the base of the radio mast to its top, has a smaller diameter than the downstream section - from the maximum diameter for the lower section 1 to the minimum for the upper section 6.

On one of the sections, for example, on section 2, a bracket 9 is fixed (there may be two brackets) for attaching a street lamp, made of a circular pipe.

Sections 1-6 are sequentially interconnected by means of a docking unit, which provides a connection between the larger diameter section and the smaller diameter section (see Fig. 2 - connection of section 1 and section 2). Then, the smaller diameter section is connected to the upstream section, which has an even smaller diameter, etc.

To connect the sections, each lower section is equipped with a docking unit made in the form of a horizontally located annular element 12 and rigidly connected with the annular element of the seating element, made in the form of a finned tube 11, which has a length of approximately 1 m. The ribs 10 of the landing element are arranged radially along relative to the pipe 11 and have bevels in the upper part — a reduction in the height of the ribs to facilitate the entry of the upstream section onto the docking unit (due to the creation of a “cone” in the upper part sedimentary element).

Sections 1, 2, 3, 4, 5, 6 are connected in series with each other so that the section of smaller diameter, with its lower part, comes to the end part of the landing element - to the ribs 10 of the lower section of the larger diameter.

The stiffness of securing the sections to each other is ensured, for example, by three spacer screws 14 located at 120 °, screwed into the nuts 13, welded from the inside of the end part 9, using locknuts.

Antenna rack 7 is attached to the upper section 6 by a flange using bolts. An additional upper antenna post 8 is likewise attached to the antenna post 7 by a flange using bolts.

The design of the radio mast in the second and third sections provides for two diametrically located holes 130 × 130 in size for the input-output of power lighting cables. In the upper section there are three openings located at 120 degrees in size 80 × 80 for input / output of communication cables and power equipment.

All steel parts of the radio mast are hot dip galvanized with a coating thickness of 60 to 100 microns. The height of the radio mast in the preferred embodiment is 30 meters.

The claimed combined radio mast of cellular communications and lighting is assembled and installed as follows:

In the factory, the annular element 12 is welded to the section (the weld is placed around the perimeter of the section), in addition, the junction of the annular element 12 and the section is reinforced with scarves welded to the annular element 12 and the outer surface of the section. The kerchiefs are oriented radially with respect to the section.

Also, a finned tube 11 is manufactured in the factory, - ribs 10 are radially welded to it in relation to the pipe, pipe 11 and ribs 10 are welded to the ring element 12. In this form, the prepared section is transported to the installation site of the radio mast.

In a foundation pit prepared in advance at a selected location, they carry out the foundation with an anchor group; then, on special stands, the antenna post 7 and the upper antenna post are assembled 8. The antenna post 7 is bolted to the upper part of the upper section 6. The antenna equipment is installed on the antenna posts 7 and 8. The first section 1 is installed on the anchor group and its flange is fastened with nuts to the anchor bolts, then with the help of crane mechanisms lift the section 2 and install it on the docking unit of section 1, providing the introduction of a finned tube, etc.

Antenna racks 7 and 8 assembled are mounted on section 6. Then the bolts 14 are pulled and locked with nuts 13. At the final stage of the installation of the radio mast, the cables are mounted and the mounting holes are closed.

Claims (7)

1. Cellular radio mast comprising interconnected base, sections in the form of cylindrical tubes and an antenna stand mounted on the upper part of the upper section, the diameter of each upstream section being less than the diameter of the downstream section, characterized in that each subsequent section is connected to the downstream section by a docking unit formed by a horizontal flat annular element rigidly connected to the downstream section, and a landing element attached perpendicular to the flat ring element and made in the form of a pipe with an external ribbing, the ribbing being formed by radially spaced ribs, the outer surface of which forms a seating surface for the inner surface of the upstream section, and the upstream section is fixed with respect to the pipe of the seating element by means of an expansion screw or expansion screws pipe of the mounting element and screwed into the nut, rigidly connected to the side wall of the section in which the hole is made under the spacer screw. 2. The radio mast according to claim 1, characterized in that the ribs of the landing element of the butt assembly of the downstream section are made in the upper part with decreasing height for the formation of the lead-in under the abutting upstream section. 3. The radio mast according to claim 1 or 2, characterized in that the sections have a length of 4 m 4. The radio mast according to claim 1, characterized in that the terminals for connecting the protective earth are made on the lower section. 5. The radio mast according to claim 1, characterized in that in each section one technological hole is made to ensure broaching and fastening of cables passing inside the radio mast. 6. The radio mast according to claim 1, characterized in that it is equipped with an additional upper antenna rack for attaching the antenna device, while the upper antenna rack is attached to the upper part of the first antenna rack by means of flanges using bolts. 7. The radio mast according to claim 1 or 3, characterized in that its height is not less than 30 m