RU175999U1 - TUBULAR ANTENNA MAST WITH SUPPORT - Google Patents

Abstract

The utility model relates to the field of construction, namely to antenna mast structures, aimed at reducing energy consumption and reducing the overall dimensions of the box for equipment. The antenna mast contains a tubular body mounted on a concrete foundation with a embedded tubular element with a flange in its upper part. In its upper part, the internal cavity of the mast body communicates with the atmosphere, and the box for technological equipment is aerologically connected with the internal cavity of the tubular mast body via a technological channel located above the foundation. The equipment box is installed on the ground. The technological equipment is placed in an additional box, while both boxes are mounted above the ground on either side of the mast body.

Description

The utility model relates to the field of construction, namely to antenna mast structures.

It is well known that the underground element is the critical element of antenna-mast structures for their fastening in the ground. Moreover, the type of underground support of the foundation used depends on the magnitude of the load acting on it, as well as on the geological and hydrogeological characteristics of the construction site.

It is known from the prior art that, as an underground concrete support of an antenna mast structure, if it has guy wires, foundations are used, consisting of a reinforced concrete slab and steel rod directed along the resultant tensile forces of the guy wires. The slab for such a foundation is concreted above the ground and only after it has hardened is lowered into the design position. The rod is installed using bolts. To prevent the effects of the corrosion process on the bolts and traction in this support, the bolts are concreted on a steel mesh, and the traction is coated twice with hot bitumen (see Antenna mast constructions. Savitsky AG, State Publishing House of Literature on Communications and Radio. Moscow 1962, p. 159-160).

The disadvantage of such an underground support for tubular antenna mast structures is the need for their concreting at the location, as well as the difficulties that arise when installing traction with the required accuracy in a given direction.

A well-known underground concrete support for installing a tubular antenna mast structure made in steps and containing reinforcing steel rods (see Antenna mast structures, Savitsky A.G. State Publishing House of Literature on Communications and Radio. Moscow. 1962, p. 157-158 )

The disadvantages of this support include the need for large-scale excavation work, as well as the likelihood of its “bulging” negatively affecting the strength of the entire antenna mast structure.

From the prior art, a base is known for securing a power transmission tower support containing a concrete foundation with a vertical embedded element containing an upper flange for securing a power transmission mount flange (RU, No. 2451784, C1, 2012).

The disadvantages of this design are: the need for a large amount of earthwork, as well as its limited scope, namely only as supports for attaching power lines.

The closest analogue to the proposed solution is a support for a tubular antenna mast containing a concrete foundation and a vertical embedded element located therein, having an upper flange on which the counter flange of the tubular antenna mast is fixed using fasteners, as well as technological cable channels made in the foundation (RU, No. 144,483, U1, 2014).

The disadvantage of this design is the need to use additional equipment for cooling electrical appliances associated with the mast, and will also require additional energy consumption.

The technical objective of the proposed solution is to overcome the above disadvantages of the closest analogue and is aimed at reducing energy consumption for cooling and reducing the overall dimensions of the box for equipment.

The technical result of the proposed device is to provide ventilation of the internal hollow space of the mast, to reduce the temperature of its outer and inner surfaces, preventing overheating of electrical devices associated with the mast. Moreover, this technical result is manifested when using the proposed device due to the fact that when the duct is connected to the internal hollow space of the mast, natural ventilation (draft) of air through it is provided, which reduces the temperature of both the internal and external surfaces of the mast.

The proposed technical result is achieved by the fact that in the antenna mast containing a tubular body mounted on a concrete foundation with a technological channel and a embedded tubular element with a flange in its upper part, the upper cavity of the mast housing communicates with the atmosphere, and the technological channel is made aerological in the form of a tubular element, one end of which is associated with a mortgage element, and the other with a box for technological equipment.

The equipment box is located on the surface of the earth.

The equipment box is located underground.

In FIG. 1 shows a general view of a support for a tubular antenna mast with a box buried in the ground for technological equipment and a composite upper-air channel; in FIG. 2 - the same with a box installed on the surface of the earth; in FIG. 3 and 4 - masts with a single upper-air channel.

The antenna mast comprises a tubular body 1 with an opening in the upper part (not shown), a concrete foundation 2 with a vertical tubular embedded element 3. An opening (not shown) is made in the upper part of the tubular body 1, connecting the internal cavity of the housing 1 with the external environment.

Technological equipment necessary for the functioning of the antenna is located in box 4, located on the surface of the earth or mounted externally on the housing of the 1 mast. Technological equipment of the antenna is located in two boxes 4 mounted on the body of the mast 1, which are located on its opposite sides.

The internal cavity of the box (s) 4 is connected with the internal cavity of the housing 1 by means of a technological upper-air channel 5, through which the communications necessary for the operation of the antenna are laid from technological equipment.

The upper-air channel 5 can be made integral, parts of which are connected by means of a flange connection (Fig. 1 and 2) or integral (Fig. 3 and 4).

The lower part of the inner cavity of the embedded element 3 is filled with concrete.

The device operates as follows.

External air through the ventilation holes in the walls enters the box 4, washes the working process equipment (not shown), cools it, after which, under the influence of natural draft, air passes through the technological aerological channel 5 into the internal cavity of the antenna housing 1, and then through an open hole into its upper part - into the atmosphere.

A significant advantage of the utility model is the removal of air flow far from the box walls, thus preventing its re-entry into it through ventilation holes (not shown).

Claims (3)

1. An antenna mast containing a tubular body mounted on a concrete foundation with a embedded tubular element with a flange in its upper part, characterized in that in its upper part the internal cavity of the mast body communicates with the atmosphere, and the box for technological equipment is made with ventilation holes in walls and aerologically connected with the internal cavity of the tubular mast body through a technological tubular channel located above the foundation. 2. The antenna mast according to claim 1, characterized in that the equipment box is mounted on the surface of the earth. 3. The antenna mast according to claim 1, characterized in that the processing equipment is located in an additional box, while both boxes are installed above the ground, which are fixed on both sides of the mast body.

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