RU137285U1 - SUBSTATION WATER PRESSURE COMPLEX STORAGE AND DISTRIBUTION OF SOURCE AND DRINKING WATER - Google Patents

Abstract

The complex water-pressure substation for storing and supplying source and drinking water contains hydraulically unrelated source water storage tank and clean water storage tank, each of them contains respectively analog pressure sensors, level indicators and overflow lines, at the outputs of storage tanks butterfly valves and centrifugal pumps equipped with pressure gauges, the source water storage tank is provided at the inlet with a feed water supply line to the storage tank spruce of the source water, and at the exit - the line of supply of source water to the water treatment station, the reservoir of clean water at the inlet is equipped with a line of supply of clean water from the water treatment station, and at the exit - a line of supply of clean water to the water supply network, at the line of clean water supply to the water supply network includes an ultraviolet water disinfection unit, a flow meter, a digital pressure gauge with an analog output and outlets to a water dispensing gun and a tap for household needs of maintenance personnel, does the substation also include pressure discharge into the sewer, it consistently contains a drainage tank equipped with a sink for washing the hands of service personnel, a centrifugal pump and a warning pressure gauge, the discharge line into the sewer communicates with overflow lines and the lower parts of storage tanks, the substation is equipped with shutoff valves, including ball valves taps, butterfly valves and check valves.

Description

Complex water-pressure substation for storage and supply of source and drinking water belongs to the field of water supply and can be used for water supply to villages.

A well-known system of supplying water to consumers is described on the website http://libian.ru/20/, however, it is not suitable for centralized uninterrupted supply of drinking water to the water supply network, does not provide constant pressure in the water supply network and requires large capital expenditures for water supply to villages .

A known system of supplying consumers with water (patent RU 99502 for a system for supplying consumers with drinking water of improved quality) having a reservoir located directly in the consumption zone for storing a water supply, at least one pump equipped with technological shut-off and distribution valves and at least one means of accounting for water.

The disadvantage of the system is the impossibility of centrally providing high-quality drinking water to settlements and maintaining constant pressure in the distribution water supply network.

It is known that groundwater, as well as surface water of rivers, lakes or reservoirs do not meet the requirements for drinking water. They can be used for drinking water only after purification at water treatment plants.

When organizing centralized water supply for construction villages remote from large settlements, serious problems arise, primarily due to the lack of nearby water sources suitable for drinking water after treatment. Laying water conduits from remote water sources, as a rule, is not economically profitable, and sometimes simply impossible.

The task is a centralized supply of high-quality drinking water to remote villages.

The technical result is an increase in the quality of water centrally supplied to consumers and maintaining a constant pressure in the distribution water supply network with minimal capital costs.

The task and technical result are achieved by the fact that the water-pressure substation complex for storing and supplying source and drinking water contains hydraulically unrelated source water storage tank and drinking water storage tank, each of which contains analog pressure sensors, level indicators and lines, respectively overflow, rotary-disk locks and centrifugal pumps equipped with indicating pressure gauges are sequentially placed at the exits of storage tanks, the storage tank The source water is provided at the inlet with a source water supply line, and at the outlet, a source water supply line to the water treatment station, the drinking water storage tank at the inlet is equipped with a drinking water supply line from the water treatment station, and at the outlet, a drinking water supply line to the water supply network , an ultraviolet water disinfection unit, a flow meter, a digital pressure gauge with an analog output and outlets to a water dispensing gun and a water taps are installed on the drinking water supply line to the water supply network For domestic needs of the maintenance personnel, the substation also includes a pressure discharge line into the sewer, on which a drainage tank is equipped with a two-position sensor for operating and minimum levels, a sink for washing the hands of maintenance personnel, a centrifugal pump and a warning pressure gauge, and a pressure discharge line to the sewer with overflow lines and lower parts of storage tanks, in addition, the substation is equipped with shutoff valves, including ball valves, butterfly valves and check valves.

Figure 1 shows a diagram of a substation water-pressure integrated storage and supply of source and drinking water.

The complex water-pressure substation for storing and supplying source and drinking water contains hydraulically unrelated source water storage tank 1 and drinking water storage tank 2. Each storage tank contains analog pressure sensors 3 and 4, level indicators 5 and 6, and lines, respectively overflow 7 and 8. At the outputs of the storage tanks, rotary disk locks 9 and 10 and centrifugal pumps 11 and 12 are sequentially placed. Centrifugal pumps 11 and 12 are equipped with indicating gauges 13 and 14. Pitel 1 is provided with untreated water inlet line 15 for supplying the source water in the storage tank of source water, and the output - a line for supplying source water 16 to the water treatment station. The drinking water storage tank 2 at the inlet is provided with a drinking water supply line 17 from the water treatment station, and at the outlet, a drinking water supply line 18 is supplied to the water supply network. On the drinking water supply line 18, an ultraviolet disinfection unit 19, a flow meter 20, a digital pressure gauge with analogue output 21, and taps: tap 22 to the water dispensing gun 23, tap 24 to the water taps for domestic use by maintenance personnel 25 are installed in the water supply network.

The substation includes a pressure outlet line into the sewer 26, on which a drainage tank 27 is arranged sequentially, equipped with a two-position sensor for working and minimum levels 28, a sink 29 for washing the hands of maintenance personnel, a centrifugal pump 30 and a signaling gauge 31. The pressure sewer line 26 is connected to the lines overflows 7 and 8 and the lower parts of storage tanks 1 and 2.

The substation is equipped with shutoff valves, including ball valves, butterfly valves and check valves, which open and close depending on the operation of the substation, when the substation is stopped and during its maintenance.

The complex water-pressure substation for storing and supplying source and drinking water works in conjunction with a water treatment station of almost any known design.

The complex water-pressure substation for storing and supplying source and drinking water works as follows: water is delivered to the object of the substation from the nearest underground or surface water source by a tanker. From the tank truck through the source water supply line 15, the source water storage tank 1 is filled. In this case, the water level in the source water storage tank 1 is controlled by an analog pressure sensor 3 and a level indicator 5. When the source water 1 reaches the maximum predetermined level, it turns on a centrifugal pump 11 and through a rotary disk shutter 9, a centrifugal pump 11, the source water through the supply line of the source water 16 is supplied to the water treatment station, while the working pressure developed by the centrifugal m pump 11, is controlled by a indicating pressure gauge 13.

Upon receipt of the source water from the source water storage tank 1 of the substation of the water-pressure integrated storage and supply of source and drinking water, the water treatment station is turned on and cleans it to the requirements for drinking water. Then, the water purified at the water treatment station is fed through the drinking water supply line 17 to the drinking water storage tank 2. The filling of the drinking water storage tank 2 is controlled by an analog pressure sensor 4 and a level indicator 6. When the drinking water storage tank 2 reaches a predetermined level, it opens the rotary disk lock 10, the centrifugal pump 12 is turned on and the drinking water is supplied by the centrifugal pump 12 to the ultraviolet disinfection unit of water 19, and from it to the supply line of drinking water 18. tchikom-flow meter 20, its flow rate is measured, and digital pressure gauge with analogue output 21 - outlet pressure in the water pipe network. The centrifugal pump 12 maintains a constant pressure in the centralized distributing water supply network of the settlement, maintaining a constant pressure in it with uneven water consumption.

Ultraviolet disinfection does not affect the chemical composition of purified water, ensuring its high quality and bacteriological safety.

Upon reaching the maximum specified level of drinking water in the reservoir tank of drinking water 2, which is controlled by an analog pressure sensor 4, it receives a signal to turn off the water treatment station, the flow of drinking water into the reservoir of drinking water tank 2 is stopped. When the level drops to the minimum specified, according to the signal from the analog pressure sensor 4, the water treatment station is turned on, and drinking water again begins to flow into the reservoir of drinking water 2.

When the source water level in the source water storage tank 1 decreases to a predetermined minimum level, the source water storage tank 1 is refilled from the tanker to the maximum predetermined level, thus ensuring the uninterrupted operation of the water treatment plant, and as a result, maintaining the supply of drinking water to the centralized distributing water supply network of the settlement.

The complex water-pressure substation for storing and supplying source and drinking water is made in block design, it provides for the point-based selection of drinking water for domestic needs. From the supply line of drinking water 18 through the outlet 22, drinking water is supplied to a water dispensing gun-valve 23 located outside the substation for the possibility of local water intake of drinking water in a consumer’s tank, and through a drain 24 to a water-dispensing valve 25 for household needs of service personnel, for example, for washing hands.

Water is drained into the drainage tank 27 of the pressure discharge line into the sewer 26 through the drainage valves 32 and 33 when the storage tanks 1 and 2, overflow lines 7 and 8, and sink 29 for washing the hands of service personnel are completely empty. The on-off sensor of the working and minimum level 28 monitors the level in the drainage tank 27. When the maximum permissible level in the drainage tank 27 is reached, a signal is sent to the centrifugal pump 30 to turn it on from the on-off sensor of the working and maximum level 28, as a result, the waste water is pumped out to the external sewer the drainage tank 27. In this case, the pressure developed by the pump 30 is controlled by a indicating signaling pressure gauge 31. Upon reaching the specified minimum level in the drainage tank spine 27 centrifugal pump 30 is switched off, the discharge of water drains into the outer stops.

Thus, the water-supply complex substation in block execution, working as part of a water treatment complex, provides:

- uninterrupted operation of the water treatment plant to improve the quality of water before drinking;

- ultraviolet disinfection of drinking water that does not affect its chemical composition, while maintaining its high quality and bacteriological safety;

- continuous supply of purified and disinfected drinking water to the centralized distributing water supply network of the settlement and maintaining a constant predetermined pressure in this network.

In addition, when supplying water to remote temporary settlements in the case of laying pipelines to them from surface water sources, the construction of water intakes for them would require large capital expenditures. The presence in the substation of water-pressure integrated storage and supply of source and drinking water of reservoirs of source water 1 and drinking water 2 eliminates the significant capital costs for the construction of water intake facilities and the laying of water pipes from water sources to the water treatment station.

Claims (1)

The complex water-pressure substation for storing and supplying source and drinking water contains hydraulically unrelated source water storage tank and clean water storage tank, each of them contains respectively analog pressure sensors, level indicators and overflow lines, at the outputs of storage tanks butterfly valves and centrifugal pumps equipped with pressure gauges, the source water storage tank is provided at the inlet with a feed water supply line to the storage tank spruce of the source water, and at the exit - the line of supply of source water to the water treatment station, the reservoir of clean water at the inlet is equipped with a line of supply of clean water from the water treatment station, and at the exit - a line of supply of clean water to the water supply network, at the line of clean water supply to the water supply network includes an ultraviolet water disinfection unit, a flow meter, a digital pressure gauge with an analog output and outlets to a water dispensing gun and a tap for household needs of maintenance personnel, does the substation also include pressure discharge into the sewer, it consistently contains a drainage tank equipped with a sink for washing the hands of service personnel, a centrifugal pump and a warning pressure gauge, the discharge line into the sewer communicates with overflow lines and the lower parts of storage tanks, the substation is equipped with shutoff valves, including ball valves taps, butterfly valves and check valves.

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