RU89287U1 - Antenna-mast construction - Google Patents

Abstract

1. Antenna-mast structure, including a mast with antennas, a ballast support in the form of a hollow container, characterized in that the latter is a container-hardware and is equipped on the outer surface with a volumetric power frame mounted on unshallow foundations and rigidly connected to the mast by profile braces. ! 2. The antenna-mast structure according to claim 1, characterized in that the container-apparatus is configured to be placed inside the last receiving and transmitting equipment and ballast weights. ! 3. The antenna-mast structure according to claim 1, characterized in that the profile braces are located along the planes of two vertical forming walls of the container-equipment room. ! 4. The antenna-mast structure according to claim 1, characterized in that the container-apparatus is made with heat-insulated walls with the ability to seal the housing. ! 5. The antenna-mast structure according to claim 1, characterized in that in the upper part of the mast there are transmitting antennas, and receiving antennas on the container-hardware.

Description

The utility model relates to the field of television and radio communications and can be used to receive and relay information in various climatic and weather conditions.

Known antenna tower-type support, containing the lower pyramidal part, supported by a large base on the foundation, the upper prismatic sectional part with the possibility of its growth and with horizontal diaphragms of rigidity, belts and braces interconnected in the support nodes, characterized in that the upper section of the pyramidal support parts made in the form of a mounting portal, including a guide output prism, an electric winch, a system of movable and fixed blocks, mounted on a pyramidal base th part and on the output prism and connected with an electric winch and guide rollers mounted on the output prism, while adjacent adjacent prismatic sectional parts of the support are made of variable cross-section with an increase from top to bottom with a multiple ratio proportional to the load on the prismatic sectional parts made in in turn, with the possibility of telescopic extension or folding, and the support nodes are made in the form of transitional inserts of box section with threaded connections. / RU 2101444, 1998 /

The well-known support is structurally complex, involves considerable laboriousness in manufacturing, installation and maintenance, is limitedly applicable for relaying signals from artificial satellites from space, and is unnecessarily capital-intensive in manufacturing and maintenance.

Known antenna mount, made in the form of a multifaceted shell with a variable cross-sectional length, increasing from top to bottom, characterized in that the shell in the cross section has the shape of a regular twelve-sided and solid continuous multisection, while the lower section is made whole, and the remaining sections are made of segments interconnected and obtained by sequential spatial bending from trapezoidal blanks with the formation of edges and faces, and having an internal flanging, the connection of the sections between themselves is carried out with rotation so that the connection of the inner flanges of the segments of each subsequent section in the horizontal plane is offset relative to the connection of the internal flanges of the previous section by 60 ° .. / RU 2280137, 2006 /

The well-known support is structurally complex, involves considerable laboriousness in manufacturing, installation and maintenance, is limitedly applicable for relaying signals from artificial satellites from space, and is unnecessarily capital-intensive in manufacturing and maintenance.

The closest is the antenna mast, made of a tubular frame equipped with tubular carriages connected to hand winches, used to lift the antennas and the mast table lifting mechanism, an inclined screw mechanism is installed at the base of the mast, the nut of which is made in the form of a composite carriage connected by a rod with the eye of the mast barrel, and the base of the mast is made in the form of a container equipped with compartments for ballast. / SU A.S. No. 248795, 1985 /

The well-known support is not technologically advanced in maintenance and installation, it involves significant costs for the manufacture of foundations, it is limitedly applicable for relaying signals from artificial satellites from space, and it is unnecessarily capital-intensive during maintenance. The objective of the utility model is the ability to relay radio and television signals, for example, from communication satellites, increasing the reliability of operation while expanding the functionality, reducing the cost of manufacturing and installation and operation.

The problem is solved in that in an antenna-mast structure, including a mast with antennas, a ballast support in the form of a hollow container, according to the solution, the latter is a container-hardware and is equipped on the external surface with a volumetric power frame mounted on unshallow foundations and rigidly connected to the mast by profile braces, which are located along the planes of the two vertical forming walls of the container-equipment room, made with heat-insulated walls, the possibility of sealing the body and the capacity of placement inside the last receiving and transmitting equipment and ballast weights, while in the upper part of the mast there are transmitting antennas, and on the container-hardware - receiving antennas

Distinctive features are:

- the hollow container is a container-hardware and is equipped on the external surface with a volumetric power frame mounted on undeveloped foundations and rigidly connected to the mast by profile braces (which provides enhanced functionality, reduced manufacturing and installation and operation costs);

- the container-hardware is made with the possibility of placing inside the last receiving and transmitting equipment and ballast weights (which ensures the expansion of functionality, increased manufacturability, reduced manufacturing and installation and operation costs);

- profile braces are located along the planes of two vertical forming walls of the container-equipment room (which eliminates the shielding of receiving antennas, increases the reliability of operation);

- the container-hardware is made with heat-insulated walls with the ability to seal the case, (increasing the reliability of operation);

- transmitting antennas are located in the upper part of the mast, and receiving antennas are located on the container-hardware (which ensures the manufacturability of the service, expanding the functionality, reducing the cost of manufacturing and installation and operation);

Comparison of the proposed solutions with analogues and other known solutions did not allow to identify in them the signs that distinguish the claimed solution from the prototype, which allows us to conclude that the criterion of "novelty".

The solution is illustrated by drawings, where in Fig. 1, a general view is shown, in Fig. 2 is a side view, Fig. 3 is a top view, Fig. 4 is a sectional view of the container wall along AA.

The antenna-mast structure contains a mast 1, transmitting antennas 2, receiving antennas 3, a hollow container 4 with a volumetric power frame 5, shallow foundations 6, profile braces 7, the inner wall of the container 8, the outer wall of the container 9, insulation material 10, sealant 11.

The antenna-mast structure operates in the receiving-transmitting device mode and can operate autonomously in automatic mode at extreme ambient temperatures. Profile braces 7 installed in two mutually perpendicular planes and a volumetric power frame 5 provides reliable installation and fixation of the mast 1, and together with the walls 8, 9 and heat-insulating material 10 - anti-vandal protection and thermal insulation. The presence of sealant 11 solves the problem of protection against precipitation. Rigid fastening of the shallow foundations 6 to the bottom of the hollow container 4 allows to ensure the reliability of the ballast load, and the possibility of placing additional ballast in the hollow container (when installed in areas with strong gales) increases the versatility of the installation.

Antenna mast structure is transported and mounted as follows.

For example, a trailer is installed on a transport platform with a hollow container 4 filled with transceiver equipment and ballast weights with an attached volumetric power frame 5, and the other equipment disassembled, followed by transportation to the installation and installation site. The installation of the antenna-mast structure is carried out in the following sequence: the installation of unfilled foundations 6, which are reinforced concrete blocks with embedded fasteners, is carried out, a hollow container 4 with a volumetric power frame 5 is installed, the latter is fixed on the foundations and the mast 1 is lifted according to the known technology with the frame 5 If necessary, load the container with ballast, for example stones, bricks, sandbags. Receiving antennas 3 are installed on the roof of the container, all feeder connections are brought into operation, and power sources are connected.

Antenna mast construction provides the possibility of relaying radio and television signals, for example from communication satellites, increasing the reliability of operation while expanding the functionality, reducing the cost of manufacturing and installation and operation.

Claims (5)

1. Antenna-mast structure, including a mast with antennas, a ballast support in the form of a hollow container, characterized in that the latter is a container-hardware and is equipped on the outer surface with a volumetric power frame mounted on unshallow foundations and rigidly connected to the mast by profile braces. 2. The antenna-mast structure according to claim 1, characterized in that the container-apparatus is configured to be placed inside the last receiving and transmitting equipment and ballast weights. 3. The antenna-mast structure according to claim 1, characterized in that the profile braces are located along the planes of two vertical forming walls of the container-equipment room. 4. The antenna-mast structure according to claim 1, characterized in that the container-apparatus is made with heat-insulated walls with the ability to seal the housing. 5. The antenna-mast structure according to claim 1, characterized in that in the upper part of the mast there are transmitting antennas, and receiving antennas on the container-hardware.