SU29012A1 - Water tower towers - Google Patents

Description

The proposed water tower i with a column supporting a pressure tank can be constructed of iron or reinforced concrete and is intended for the water supply of railway stations, towns, and so on. The support column is made in a form of a reservoir which communicates with the pressure tank and is used as a sedimentary well.

In FIG. 1 shows a vertical section of a water-pumping station according to AB in FIG. 2; FIG. 2 shows a horizontal section of a water tower according to DE in FIG. one.

The annular water tower consists of a tank (fig. 1), supported by a cylindrical column 2, which is a reservoir that communicates directly with the pressure tank through its bottom, and column 2 is also intended to serve as a sedimentary well. At the base of the column 2 is expanded. Such a device is necessary to accommodate pipelines and to provide stability against overturning under the action of wind. Through the bottom 5 of the column, made of boiler iron, pipe-injection 4m dilution 5

(Fig. 1 and 2). In order to protect the tank and pipelines from freezing, the diluting 4 and discharge 5 pipes are leaked inside the well, where they are surrounded by a layer of water and, therefore, when the column is heated or maintained in it, water circulation is prevented from freezing.

Dangerous places in relation to frost "and are only pipes in places of their exit from the ground for inclusion in buildings and tanks. In the proposed construction, the tank is left without narzzhny isolation. If there is a weak separation, for example, at night, or if the water supply from the tank to the network is temporarily stopped, circulation will not be provided, and therefore it is necessary to have heating in these cases. To install the preheating furnace 6, a special extension 7 is constructed at the base of the column, with an area of approximately 40 square meters. To better maintain heat in the column, its upper part, located outside the extension, can be insulated with boards with an air gap 8 between the rows of boards and the column. The lower part of the column is heated by direct heat transfer from the annex 7, where furnace 6 is installed. The column of water in the column from the bottom horizon to the receiving grid 9 of the separation pipe 5, being in normal conditions without circulation, when heated creates a convection with an overlying mass of water.

In harsh climatic conditions and weak water intake, water heating can be significantly enhanced by skipping over the entire height of colony 2, inside it is the smoke from the heating pipe W of the heating furnace 6. The injection pipe 4 in the proposed design does not need to be brought to the top of the tank. is done; this pipe ends at a height of about 2.50-3 meters above the bottom of the column, and the backflow of water is eliminated by the check valve // supplied when the injection pipe is inserted into the bottom of column J 2. The output of the discharge pipe 4 in column 2 is reduced to improve mixing the water coming from the discharge pipe with heated water at the bottom of the column. In addition, if the smoke exhaust pipe 10 is passed through the entire column 2, the highest temperature will be at the bottom of the column and the conditions for convection, according to the authors, will be very favorable and this will prevent water from freezing.

When building a water tower made of reinforced concrete for protection, the tank - column from water filtration ,.

It is proposed to apply a ceresite-cement layer with the latter applied to the inner surface of the tank and the column from 20 mm to 40 mm with a gradual thickening from the tank to the base of the column as the hydrostatic pressure increases. Plastering should be carried out from above towards the bottom. For a better connection of the cementitious layer with the body of the tank column, the desired layer is applied onto a pre-reinforced Rabbit mesh, to: from which the ends of the wires that the Rabbit mesh and Strengthened are to be released from the body of the concrete mass of the tank. Better watertightness of the column can be achieved by introducing ceresite-cement insulation throughout the concrete, bringing the ratio of the emulsion to 1: 5 with thorough mixing of the solution.

The subject matter of the invention.

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A water tower with a pressure column supporting an annular cross section, the diameter of which is smaller than the diameter of the tank / characterized in that the supporting column 2 is a reservoir that communicates directly with the pressure tank 1 through its bottom and is intended to serve as a sedimentary well as well as for greater stability 6auiHH.

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