RU2012744C1 - Building water supply system - Google Patents

Abstract

FIELD: construction. SUBSTANCE: hydrant stand pipes of the upper zone are connected to the opposite stand pipes of the lower zone. Additional return valves are installed in the stand pipe coupling area. EFFECT: enlarged operating capabilities. 1 dwg

Description

 The invention relates to sanitary equipment, and in particular to water systems of buildings operating in conditions of significant pressure fluctuations in the external water supply network and periodic insufficiency of this pressure.

 A well-known water supply system (I. F. Shanaev and others. "Sanitary-technical devices and gas supply to buildings", - M.: Higher school, 1972, p. 11, Fig. 5), containing the input, pumping unit, water tank, highway feeding and folding risers. The disadvantage of this system is the need for the pump unit to operate during periods of insufficient pressure in the external network, in addition, the pressures at the intake valves of the lower floors constantly significantly exceed the standard free pressures.

 Closest to the proposed is a device containing a supply pipe, pipelines of the lower and upper zones, intake risers of the lower and upper zones, a water tank with a check valve [1].

 The disadvantage of this water supply system is the low reliability of the water supply in the upper zone, due to the fact that the water is supplied to the tank in the upper zone through a single pipeline or through two fire risers in buildings with a fire water supply. This is also the reason for significant pressure losses when water is supplied to the upper zone.

 The aim of the invention is to increase the reliability of the water supply of the upper zone and reduce pressure losses.

 This is achieved by the fact that the water supply system is equipped with additional check valves, while the intake risers of the upper zone are connected to the opposite risers of the lower zone, and additional check valves are installed at their junction.

 The drawing shows a diagram of a water supply system of a 9-story building.

 The system operates as follows.

The water supply system comprises an input 1, a lower pipe 2, intake pipes 3 equipped with check valves 4, an upper pipe 5 and a water tank 6 with a capacity of 1.5 m ³ . With sufficient pressure in the external network, water enters the system through input 1, then through the line 2 it is supplied to the intake risers 3, while the check valves 4 are open, partially disassembled by consumers, and the remainder along the upper line 5 is accumulated in the water tank 6. When the pressure decreases in the external network, under the influence of water pressure in the water tank, the check valves on the intake risers are closed. To the intake fittings above the check valves (upper zone), water is supplied from the water tank. Water is supplied to the water fittings below the check valves (lower zone) from the external network.

 With increasing pressure in the external network, the cycle repeats.

 The use of such a scheme in the building under consideration is most appropriate when changing the pressure in the external network sufficient to maintain the required free pressure at the 5th floor intake fittings, which is the most disadvantageous, during periods of minimum pressure in the external network, sufficient to fill the water tank during periods of minimum pressure in external network.

The capacity of the water tank is determined by the dynamics of pressure changes in the external network and should be 4-6% of the daily water consumption by consumers receiving water from the tank (upper zone). With a population of 120 people on the four floors of the upper zone, the tank capacity is about 1.5 m ³ .

Claims (1)

 BUILDING WATER SUPPLY SYSTEM, comprising a supply pipe, main pipelines of the lower and upper zones, standpipes of the lower and upper zones, a water tank with a check valve, characterized in that it is equipped with additional check valves, while the standpipes of the upper zone are connected to opposite risers of the lower zone , and additional check valves are installed at their junction.

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