RU2042017C1 - Water supply system - Google Patents

Abstract

FIELD: pure-water reservoir constructions. SUBSTANCE: cylindrical supporting tower is installed in a pure-water reservoir along its axis, it is made of tubing blocks with ports in the bottom part for water passage. A chamber with air filters is installed in the top part of the tower. EFFECT: improved design. 8 dwg

Description

 The invention relates to the field of water supply and for water supply systems.

 A known water supply system containing a clean water tank and a chamber with air purification filters in the tank, located in a separately located buried structure made of precast concrete blocks and floor slabs and having a common embankment with the tank.

 One of the drawbacks of this pure water tank design is the complex internal load-bearing frame, laborious to manufacture and saturated with metal embedded parts requiring protection against corrosion. This design does not allow to increase the height of the tank (or its volume) due to insufficient bearing capacity and stability of the columns of the frame and circulation partitions.

 The disadvantages of the design of the structure for accommodating filter-absorbers for cleaning the air entering the tank are the need to allocate space in the sanitary zone of the water supply facility for their placement (how many tanks are so many separate structures for filter-absorbers), the high cost of materials and the high estimated cost of the structure, and also a large length of air ducts from filters to the top of the tank.

 The objective of the invention is to provide a water supply system, consisting of one structure, combining a clean water tank and a room for accommodating air purification filters entering the tank, eliminating the need for erecting circulating walls inside the tank and the possibility of formation of stagnation zones of clean water when water flows inside the tank, as well as the creation of an easily erected powerful supporting structure inside a tank of high height, perceiving the load from the coating of the tank and with Filter-equipment-absorbers, simultaneously performing the function of circulating the partitions and the exclusion of air by connecting the air cleaning filter directly to the reservoir through the openings in the coating.

 This is achieved by the fact that the water supply system containing a clean water tank and a chamber with air purification filters in the tank is equipped with a cylindrical support tower installed in the clean water tank along its axis and made of tubing blocks with windows in the lower part for water passage, This chamber with air purification filters is installed in the upper part of the support tower.

 In FIG. 1 shows a clear water tank, cross section; in FIG. 2 the same plan; in FIG. 3 chamber with air purification filters, plan; in FIG. 4, section AA in FIG. 3; in FIG. 5 anchoring of the support tower to the monolithic reinforced concrete bottom of the tank; in FIG. 6, section BB in FIG. 5; in FIG. 7 layout of blocks of a cylindrical support tower; in FIG. 8 node pairing blocks of a cylindrical support tower with each other; in FIG. 9 a section BB in FIG. 8.

 In the tank 1 of pure water of the water supply system, the outer walls of which are made of tubing blocks, a centrally located cylindrical support tower 2 is erected, which has a chamber 3 in the upper part to accommodate air purification filters, air ducts and control valves, and in the lower part of the pit 4 to accommodate a funnel for taking water from the tank. Tower 2 is made of reinforced concrete block tubing 5, interconnected by steel studs 6 and mounted with the formation of windows 7 for water passage. Installation of the tubing blocks can be carried out in parallel or after the construction of the outer walls of the tank 1. To connect the tower with the outer walls of the tank for the period of installation of the tower, temporary metal ties 8 (six pieces) are installed, evenly spaced around the circumference of a continuous eleventh row of tubing blocks. After the final alignment of the tower blocks, steel studs 6 with nuts and washers are protected from corrosion by cement-sand mortar. The lower ring of the tower blocks 2 is attached with anchor bolts 9 to the embedded parts 10 of the monolithic concrete frame 11, which is welded to the metal beams 12 of the tank bottom. The fastening of the first tower ring to the bottom can be done in any other known manner. The monolithic reinforced concrete ceiling of the tower is made on the same level as the tank cover and serves as the floor of the chamber 3. In the ceiling, openings 13 are provided for passing condensate discharge pipelines from the filters and an opening 14 for inserting the air duct into the tank. The chamber with filters is made of the same tubing blocks, but with a brick insert and a doorway 15. The coating of the chamber 3 is monolithic reinforced concrete with sleeves for passing air ducts. The roof and cover structures of the chamber with filters and the tank are the same.

 In addition to reducing the estimated cost of building a water supply system, the construction time is reduced by reducing the total amount of earthwork, construction and plumbing. Safety measures are increased during construction and installation works, since the invention provides for the execution of only one installation operation inside the tank, mounting the tubing blocks. Installation is carried out from an inventory site, hung inside the tower and rearranged up as the tower is erected. The absence of embedded parts and metal structures inside the tank eliminates complex work to protect them from corrosion by zinc coating (metallization).

Claims (1)

 WATER SUPPLY SYSTEM, comprising a clean water tank and a chamber with air purification filters in the tank, characterized in that it is equipped with a cylindrical support tower installed in the clean water tank along its axis and made of tubing blocks with windows in the lower part for water passage, This chamber with air purification filters is installed in the upper part of the support tower.

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