RU2106165C1 - System of household, drinking and fire-prevention water supply - Google Patents

Abstract

FIELD: hygiene equipment of buildings. SUBSTANCE: system includes supplying pipeline, fire pipeline with fire-service pumps combined with household and drinking water supply pipeline which is connected with supplying pipeline. Fire-service pumps fulfil the function of household, drinking water pumps which are also used in the form of circulating-boosting pumps of hot water installed on combined fire and household, drinking water supply pipeline. All pumps are provided with regulated drives controlled by feedback transducers that provides for automatic operation of system, both under normal conditions and in case of fire. EFFECT: higher reliability and economic efficiency. 1 dwg

Description

 The invention relates to sanitary equipment of buildings, and in particular to systems of household and fire water supply of buildings.

 A well-known drinking water and fire water supply system, including a supply pipe, a fire pipe, a fire and household drinking pumps (see. P. Spyshnov, Design of pipelines in residential and civil buildings. M., 1951).

 Closest to the invention, the technical solution (prototype) is a drinking water and fire water supply system, including a supply pipe, a fire pipe with fire pumps and drinking water pumps (see A. p. N 1174044, class A 62 C 37/04 , 1985).

 Significant disadvantages of the known solutions are low reliability due to the complexity of the design scheme, as well as high cost.

 The aim of the invention is to increase the reliability and efficiency of the system.

 The essence of the invention lies in the fact that in the system of drinking water and fire water supply, including a supply pipe, a fire pipe with fire pumps and a drinking water pipe connected to a supply pipe, and cold water fire pumps and circulating pumps are used as household drinking pumps - booster pumps for hot water installed on a combined fire and household drinking pipeline, while fire and circulation booster pumps supply wives adjustable drives controlled by feedback sensors.

 Compared with the prototype, the invention contains new features, namely, that the fire pipeline is combined with a drinking water pipe connected to a supply pipe, and cold water fire pumps and hot water circulation booster pumps installed on combined fire and drinking water piping, while fire and circulation booster pumps are equipped with adjustable drives controlled by feedback sensors .

 The drawing shows a diagram of a drinking water and fire water supply system.

 The system includes a supply pipe 1, a combined pipe 2, combining the functions of a fire and drinking water supply with cold water through a fire pump 3 and a similar backup pump 4, which are simultaneously boosting pumps for cold water supply.

 On the combined pipeline 2 are installed and circulation-boosting pumps 5 and 6 for hot water supply, as well as a water heater, respectively, the first stage 7 and second stage 8.

 The hot water supply piping system includes a circulation pipe 9.

 Pumps 3 and 4, through adjustable drives 10, are each connected to their own electrical input to a central heat point (CTP) (not shown in the drawing).

 The operation of the adjustable drives 10 and 11 is controlled by feedback sensors 12 and 13, which monitor the parameters of the system.

 A water meter 14 and valves 15 are also installed on the supply pipe 1, and valves 16 on the hot water pipelines.

 The dotted line in the drawing shows the electrical connection of adjustable drives and feedback sensors. "A" is the distribution point of cold water at home and the first stage water heater 7. "B" is the distribution point of hot water at home after the first stage water heater 7.

 The system operates as follows.

 At the inlet of the city water supply network on the supply pipe 1 and on the combined pipe 2, all valves are open. Water from the city network through the water meter 14 is fed to the suction boosting fire-fighting pumps 3 and 4 on the combined pipe 2. One of the pumps 3 with an adjustable drive 10, due to the presence of the feedback sensor 12, maintains a constant pressure at point “A”, the value of which is determined by the height building.

 From point "A", water is fed through a combined pipe 2 to houses and to the first stage of a water heater 7, and then to the suction of hot-water circulation pumps 5 and 6, each of which provides the design pressure and flow rate necessary for the normal operation of the hot water system at any level of water intake.

 An adjustable actuator with feedback sensor 13 ensures that the constant pressure of hot water supply at point "B" is maintained regardless of the drawdown. It is the presence of feedback sensors 12 and 13, which respond to changes in the system parameters and thus control through the adjustable drives 10 and 11 the performance of the pumps 3, 4 and 5, 6, which ensures stable and automatic operation of the system both in normal mode and in the case of fire occurrence. Due to this, and also due to the absence of any other fire-fighting equipment in the building, requiring the use of manual control, the reliability of the system increases and its design scheme is simplified.

 In addition, the combination of fire and drinking water pipelines and pumps reduces the cost of the system by more than half.

 Thus, the invention makes it possible to provide water supply both for household needs and for fire-fighting without any external influences on the systems by humans or additional control devices and communication lines.

Claims (1)

 The drinking water supply and fire water supply system, including the supply pipe, the fire pipe with fire pumps and the drinking water pump, characterized in that the fire pipe is combined with the drinking water pipe connected to the supply pipe, and fire trucks are used as household drinking pumps cold water pumps and hot water circulation booster pumps installed on a combined fire and drinking water pipeline, while firefighters and Circulator-booster pumps are provided with variable speed drives, controlled by the feedback sensors.