RU43889U1 - INDUSTRIAL INSTALLATION WATER SUPPLY DEVICE - Google Patents

Abstract

The utility model relates to devices for increasing the pressure of water at the inlet of an industrial installation in a building with high floors and can be used in cooling systems and cold water consumption systems with the required pressure located on the upper floors of multi-storey buildings. The problem to be solved is to reduce energy consumption while providing the necessary water pressure to supply the installation located on the top floor of a multi-storey building. The essence of the utility model lies in the fact that the water supply device of an industrial installation installed on the top floor of a multi-storey building, containing a riser of drinking water, connected through a first inlet valve to the cold water main pipe, and an electric pump, characterized in that it additionally contains a technical supply pipe installation connected through the second inlet valve to the initial section of the riser of the drinking water supply before the first inlet valve oh, a pressure switch, the output of which is connected to the control input of the on / off unit of the electric pump installed in its power supply circuit, and a storage tank connected via a flexible hose to the gap of the supply pipe of the technical installation between the output of the electric pump and the pressure switch, while the electric pump and the storage tank is located immediately before the industrial installation, and the pressure value at the outlet of the electric pump satisfies the condition: P≥H / 10 + ΔP, where N is the height of the water , ΔР is the minimum pressure value at the inlet of the storage tank.

The list of designations for the drawing: 1 - trunk pipeline; 2 - the first valve; 3 - the second valve; 4 - riser household drinking water; 5 - supply pipeline technical installation; 6 - a storage tank; 7 - electric pump; 8 - flexible hose; 9 - pressure switch; 10 - block on-off electric pump; 11 - power source,

Description

The utility model relates to devices for increasing the pressure of water at the inlet of an industrial installation in a building with high floors and can be used in cooling systems and cold water consumption systems with the required pressure located on the upper floors of multi-storey buildings.

Currently, the water pressure provided by the central water supply system is not sufficient for the reliable operation of industrial plants located on the upper floors of administrative and industrial buildings.

Known devices that solve the problem of increasing the pressure of water, for example, the device of an internal fire water supply [1].

The internal fire pipeline is combined with drinking water or industrial and technical water supply. To activate the fire hydrant automatically or remotely turn on the fire pumps located at the pumping station or in the basement of the building, providing a given flow rate in the taps.

Closest to the proposed device, the analogue adopted for the prototype is the device of the internal fire water supply of a high-rise building, the description of which is given in [2, p. 212, Fig. 65].

The prototype device comprises a lower ring of the main pipeline located on the first or basement of the building, a water supply network with risers, to which fire hydrants are connected, and fire pumps connected to the main pipeline.

The disadvantage of the prototype device is the need to use high power electric pumps to increase the pressure of water in the pipeline, which leads to additional material costs and, in addition, can cause rupture of pipelines and valves due to high pressure.

The problem to be solved is to reduce energy consumption while providing the necessary water pressure to supply the installation located on the top floor of a multi-storey building.

To solve the problem, an electric pump with the given parameters is installed immediately before the industrial installation, and the pump parameters are selected depending on the height of the floor. As a result, the required water pressure is provided at a relatively low pump power and, accordingly, a reduced power consumption.

The essence of the utility model lies in the fact that the water supply device of an industrial installation installed on the top floor of a multi-storey building, containing a riser of drinking water, connected through a first inlet valve to the cold water main pipe, and an electric pump, characterized in that it additionally contains a technical supply pipe installation connected through the second inlet valve to the initial section of the riser of the drinking water supply before the first inlet valve oh, a pressure switch, the output of which is connected to the control input of the on / off unit of the electric pump installed in its power supply circuit, and a storage tank connected via a flexible hose to the gap of the supply pipe of the technical installation between the output of the electric pump and the pressure switch, while the electric pump and the storage tank is located directly in front of the industrial plant, and the pressure value at

the output of the electric pump satisfies the condition: P≥H / 10 + ΔP, where H is the height of the water, ΔP is the minimum pressure at the inlet of the storage tank.

The essence of the utility model is illustrated by the scheme of the water supply device of an industrial installation, on which are indicated:

1 - main pipeline

2 - the first valve

3 - the second valve

4 - riser of drinking water supply,

5 - the supply pipe of the technical installation, 6, - the storage tank,

7 - electric pump,

8 - flexible hose

9 - pressure switch,

10 - block on-off of the electric pump,

11 - power source.

The water supply device of an industrial installation installed on the top floor of a multi-storey building contains a ring of the main pipeline 1, located in the basement or on the first floor of the building, a riser 4 of drinking water supply connected through the first valve 2 to the main pipeline 1, and a supply pipe 5 of the technical installation, connected through the second valve 3 to the initial section of the riser 4 in front of the valve 2. For ease of installation, the supply pipe 5 is made of metal plastic.

The output section of the supply pipe 5 is equipped with an electric pump 7 installed immediately before the industrial installation, and a pressure switch 9, which is installed in the pipeline 5 after the output of the electric pump 7. In addition, the pump installation includes a storage tank b, connected by a flexible hose 8 s the gap of the pipe 5 between the output of the electric pump and the pressure switch 9. The signal output of the relay 9 is connected to the control input of the on / off unit 10 of the electric pump installed in the circuit connecting the power supply 11 to the pump power input. Block

10 on-off is made in the form of a relay with normally closed and normally open contacts. As the source 11 of the power used AC voltage.

The device operates as follows.

In the initial state, the electric pump 7 is turned off, and the storage tank 6 is filled with water supplied through a plastic pipe 5 and a hose 8 from the riser of the drinking water supply through the valve 3.

To start the operation of the industrial plant located on the top floor of the building, a certain pressure of water is required in the outlet section of the pipeline 5. To do this, turn on the power source 11, closing the switch or start button on the switchboard.

The electric pump 7 is turned on by the on-off unit 10, which closes the power supply circuit of the electric pump when there is a signal from the pressure switch 9 on its control input, which is formed when the pressure in the supply pipe 5 becomes less than the specified minimum.

During the operation of the electric pump 7, the pressure in the supply pipe 5 increases, ensuring the normal operation of the installation. When the specified maximum pressure is reached in the pipeline 5, the pressure switch 9 generates a control signal to turn off the pump, by which the on-off unit 10 opens its power supply circuit. Further, as the pressure decreases in the pipeline 5, when the specified minimum pressure is reached, the pump turns on and the cycle repeats.

For example, an industrial installation requires a supply network pressure of at least 2 ^KGS / _SM ² and not more than 4 ^KGS / _SM ² for its operation. The minimum water flow rate is 4 ^L / _min . In this case, the electric pump 7 is turned on using the block 10 at a pressure in the network less than 2 ^KGS / _SM ² , and turns off when the pressure exceeds 4 ^KGS / _SM ² .

The choice of the type of electric pump is carried out depending on the required minimum pressure and the height of the floor on which it is installed in accordance with the condition Р≥Н / 10 + ΔР, where ΔР is the outlet pressure

pump, N - the height of the water, AR - the minimum value of the pressure at the inlet of the storage tank.

Given that when water rises for every 10 m, the water pressure decreases by about 1 ^KGS / _SM ² , to ensure a pressure of 4 ^KGS / _SM ² at the inlet of an industrial installation located at a height of 20 m, it is necessary that at a minimum pressure ΔР = 2 ^KGS / _CM ² pump provided a pressure of P≥20 / 10 + 2≥4 ^KGS / _SM ² .

With the pump parameters selected in this way, reliable operation of the industrial installation is guaranteed.

Thus, by placing the electric pump directly near the industrial installation and automatically maintaining the set water pressure, reliable operation of the installation is ensured while saving energy and maintaining the integrity of water supply networks.

The industrial applicability of the utility model is determined by the fact that the proposed device can be made in accordance with the above description and drawing from known components and used for water supply to industrial plants located on the upper floors of multi-storey buildings.

LIST OF REFERENCES

1. Certificate of the Russian Federation No. 17436 for a utility model, IPC A 62 C 35/00, publication April 10, 2001

2. M.G. Shuvalov. Firefighting Basics. - M .: Stroyizdat. -1983, the prototype.

Claims (1)

The water supply device of an industrial installation installed on the top floor of a multi-story building, containing a riser of a domestic drinking water supply connected through a first inlet valve to a cold water main pipe, and an electric pump, characterized in that it further comprises a supply pipe of a technical installation connected through a second inlet valve to the initial section of the riser of the drinking water supply in front of the first inlet valve, pressure switch, the output of which is connected to the control by the input of the on / off block of the electric pump installed in its power supply circuit and the storage tank connected via a flexible hose to the gap of the supply pipe of the technical installation between the output of the electric pump and the pressure switch, while the electric pump and the storage tank are located immediately before the industrial installation , the electric pump is turned on by an on-off unit that closes the power supply circuit of the electric pump if there is a signal on its control input la of the pressure switch, which is generated when the pressure in the supply pipe becomes smaller than a predetermined minimum, and when it reaches a predetermined maximum pipeline pressure switch generates a control signal to turn off the pump, through which unit opens the on-off of its supply chain.