RU28507U1 - Mobile radio tower - Google Patents

Description

W Cellular radio mast This utility model relates to the field of construction equipment and, in particular, to supporting structures (radio towers) for mounting antennas and cellular communication equipment, street lighting fixtures and other devices on them. for various purposes. 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, crown crowns are removable, and the support is made in the form of a set of cones inserted sequentially one into another 1. Such an installation is not without significant drawbacks, namely, the main That it is not possible to use for installation at high altitude aerial mobile devices in such a way that it has withstood harsh conditions of vetrovm and ice load. The closest technical solution in relation to the proposed one is a support for mounting on it, for example, outdoor lighting fixtures, containing a base and hollow inside sections with metal walls, connected by the ends to obtain a given height of the support 2. IPC: E 04 H 12/08, F 21 V 21 / 00-02 connection of the sections of this support is carried out due to the tight fit of the section in

a section with a high coefficient of friction of them in each other, however, such a combination of parts provided by friction is short-lived; over time, the landing density is weakened by intense exposure to moisture, wind and ice, which leads to a rapid decrease in joint strength and damage to the support;

-This support has a fairly high cost, because it requires high accuracy in the manufacture of cone sections, and this is due to the provision of complex manufacturing technology and the use of expensive

technological equipment, which increases the cost of support;

- the difficulty of assembling the support sections, due to providing them with a tight (tight) fit in each other (special mounting devices will be required, since it is difficult to carry out such assembly manually).

The authors solved the problem of developing a cheap cellular radio mast capable of working reliably under the conditions of heavy wind and ice loads (according to SNiP 2.01.07-85). The latter is achieved through the use of a combination of essential features in the claimed technical solution, namely: 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, and the sections are made in the form of cylindrical pipes of different diameters, bond strength which is achieved through a flange connection, while the base of the radio mast is buried in a reinforced concrete foundation, in the body of which there is a horizon flax paved channels for the passage into the radio tower power cables, communication cables and the lighting; the lower section has the largest diameter equal to the diameter of the base, and each subsequent section is made of a smaller diameter with respect to the lower sections; the flange of the lower section is attached to the flange of the base end-to-end with the installation gap by, for example, six pins with adjusting and locking nuts; on the lower section, at a height of 0.3 meters from the level of the basement flange, terminals are provided, two on opposite sides for connecting protective grounding; each section, starting from the second after the lower section, has, at the end sections, for example, 1 meter long, persistent and fixing circular shoulders spaced from each other, with the help of which the sections inserted into the sections by bolts are fixed to each other; at least one technological hole is made in each section to ensure fastening of cables passing inside the radio mast after its installation; on one of the middle sections and on the upper section, technological holes are made for equipping hermetic inputs and outputs of electric lighting cables, fiber optic cables and high-frequency cables; the radio mast is equipped with a rack for mounting antenna devices on it, which 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 radio mast consists of three sections; sections were coated with hot-dip galvanizing within 60-100 microns, radio mast height of at least 27 meters. The essence of the utility model is illustrated by drawings, where in FIG. 1 is a general view of a cellular radio mast made according to the present utility model; in FIG. 2 is a view along arrows A-Ana. FIG. 1; in FIG. 3 is a view along the arrows of B-Bna. FIG. 2; in FIG. 4 view of the arrows E-E-sa. FIG. 1; in FIG. 5 is a view along arrows DG in FIG. 1. The proposed cellular radio tower is a prefabricated structure consisting of several steel pipes (sections); in the proposed embodiment, the radio mast is assembled into three sections: the lower section 1, the middle section 2 and the upper section 3. All sections are made of different diameters, with the middle section 2 of the smaller diameter being inserted into the lower section 1 of the larger diameter, then the upper section is inserted into the middle section 2 3, etc., if there are more than three sections. Type of connection of sections 1, 2, 3 flange. The radio mast also includes a base 4 and a stand 5. The base 4 is buried in a reinforced concrete foundation 6, which depreciates the free laying of communication and power cables through horizontal channels 7 from a trench from the ground (up to 800 mm deep) into the internal cavity of the radio mast. The base 4, the diameter of which is equal to the diameter of the lower section 1, is attached to the flange 8 of the lower section 1 through the end-to-end flange 9, but with an installation clearance of 10 using several (six) adjustment knobs 11 and lock nuts 12. This connection allows during assembly and installation the radio masts to achieve a stable and strictly vertical position of the sections of the radio mast with respect to its base 4. Sections 1, 2, 3 are sequentially inserted into each other so that, for example, a narrower section 2 with its end part 13 enters the end part 14 more wide section 1. The end part 13 has on its length equal to about 1 meter, persistent circular shoulders 15 and fixing circular shoulders 16, between which fixing bolts 17 are inserted, fastening one section to another. The rack 5, on which the antennas or other concomitant structures 18 are mounted, is attached to the upper section 3 by the flange 19 with the help of hook bolts 20, which are fixed with curved ends in the holes 21 made in the upper section 3. In the structure of the radio mast at a height of 9.5 meters and at a height of 23.4 meters, respectively, two diametrically opposite holes 22 with a size of 127 x 127 mm are provided for input-output of communication cables, and at a height of 10.0 meters one hole with a size of 127 x 127 mm for input-output of a power cable. In addition, in each of the sections 1, 2, 3, technological holes 23 are made to fix the cables laid inside the radio mast after it is already installed. These openings are closed with fasteners or doors so that precipitation does not get into the radio mast. On the lower section 1 at a height of 0.3 meters from the level of the flange 9 of the foundation 6 there are terminals 24 on two from opposite sides for attaching a protective ground. All parts of the radio mast are hot dip galvanized with a coating thickness of 60 to 100 microns. The height of the radio mast is 27 meters. The claimed cellular radio mast is assembled and installed as follows: In a foundation pit prepared in a selected place, a base 4 is installed and the foundation pit is concreted, thus forming a strong reinforced concrete foundation 6; then, on special stands, all sections 1, 2, 3 of the radio mast are assembled. For this, for example, the end part 13 of section 2 is inserted into the end part 14 of section 1 and the bolts 17 of section 1 and 2 are secured with each other, adjusting their position between the persistent and fixing circular shoulders 15 and 16; all subsequent sections 1, 2, 3 and the radio mast stand 5 are connected and fixed in a similar manner; then install and fix on it all the necessary equipment; then on the flange 9 of the base 4 is installed through the studs 11 and flange 8 the entire assembled radio mast (using special lifting devices), while using the adjusting and locking nuts 12 is achieved a strictly horizontal and stable position of the flange 8 of section 1 relative to the flange 9 of the base 4 and the entire assembled structure (the tightening of the nuts 12 is evenly and sequentially to ensure the necessary location of these flanges 8 and 9); at the final stage of the installation of the radio mast, the cables are mounted and the mounting holes are closed. The proposed design of a cellular radio mast in comparison with devices of a similar purpose is distinguished by technological simplicity of manufacture, low cost, reliable and stable operation during long-term operation. The radio mast is designed to work under intense exposure to wind and icy

loads determined for areas but SNiP 2.01.07-85 and GOST 15150-79, respectively. The prognosis of the top of the radio mast at the antenna level is reached no more than 300 hp. Currently, serial launch of such radio masts and their use in various regions of the Russian Federation has been established.

Sources of information taken into account the presentation of this utility model:

1 "High-mast lighting installation No. 12719, class F 21 V 21/00, dated 13.10.1999.

2 “Support for outdoor lighting fixtures, a set of metal sections of the national team for height support for outdoor lighting fixtures, outdoor lighting system for street and road lighting No. 16538, class F 21 V 21/00, dated July 31, 2000.

V. A. Soloviev

The authors:

V. E. Syuksin

A. V. Tishchenko

Claims (11)

1. Cellular radio mast, comprising a base and hollow sections with metal walls inside, connected by ends to obtain a given height of the radio mast, characterized in that the sections are made in the form of cylindrical tubes of different diameters, the bond strength of which is achieved by means of a flange connection, while the base of the radio mast is recessed into a reinforced concrete foundation, in the body of which horizontally laid channels are provided for passing power cables, communication and lighting cables into the radio mast. 2. The radio mast according to claim 1, characterized in that the lower section has the largest diameter equal to the diameter of the base, and each subsequent section is made of a smaller diameter with respect to the downstream section. 3. The radio mast according to claim 1, characterized in that 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. 4. The radio mast according to claim 1, characterized in that 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 a protective ground. 5. The radio mast according to claim 1, characterized in that each section, starting from the second after the lower section, has at the end sections, for example, 1 m long, thrust and fixing circular shoulders spaced from each other, with the help of which bolts are inserted end sections into each other sections are attached to each other. 6. The radio mast according to claim 1, characterized in that at least one technological hole is made in each section to secure the cables passing inside the radio mast after installation. 7. The radio mast according to claim 1, characterized in that technological openings are made on one of the middle sections and on the upper section, intended for equipping hermetic inputs and outputs of electric lighting cables, fiber optic cables and high-frequency cables. 8. The radio mast according to claim 1, characterized in that it is provided with a rack for mounting antenna devices on it, which is attached to the upper section through its flange using hook bolts, curved part inserted into the holes provided in the end part of the upper section. 9. The radio mast according to claims 1 to 8, characterized in that it consists of three sections. 10. The radio mast according to claims 1 to 9, characterized in that the coating of the sections is made hot galvanized with a thickness in the range of 60 - 100 microns. 11. The radio mast according to claims 1 to 10, characterized in that its height is not less than 27 m.