Water device


E03B11/12 - of high-level tanks

 

(57) Abstract:

The invention relates to a water device and can be used in water. The technical challenge is to maintain stable water quality parameters in the reservoir at variable hydrodynamic modes and changing climatic conditions. The device includes a reservoir connected to the main conduit podwodami-outlet piping, sensors maximum and minimum liquid levels in the tank, the overflow pipe is extracted from the reservoir, the pressure valve installed on podwodami-outlet lines, and control equipment. The tank is equipped with a flexible hose, the upper end of which is connected to a widening in the form of a truncated cone with the inner curved grooves nozzle rigidly attached to the float. The lower end of the flexible hose is connected to the tee installed on podwodami-outlet lines, while the tee is connected to the bottom of the tank with the pipe. 2 Il.

The invention relates to a water device and can be used in water.

Famous water tower (see and.with. 568716, MKI E 04-Nitroboy the outlet pipe with regulating devices.

The disadvantage of this water tower is the lack of water circulation in the tank and the possibility of recontamination it with compressed air.

Known water device (see and.with. N 1108182, MKI E 04 H 12/30; G 05 D 27/00, 1984, bull. N 30), containing reservoir in communication with the main conduit podwodami-outlet piping, sensors maximum and minimum liquid levels in the tank, the overflow pipe is extracted from the reservoir, and pressure equipment installed on podwodami-outlet lines, and control equipment.

The disadvantage of this storage device is the possibility of decay of the water in the tank, with the development of anaerobic processes due to insufficient water circulation and its freezing in the winter.

The technical task of the invention is to maintain stable water quality parameters in the reservoir at variable hydrodynamic modes and changing climatic conditions, which is achieved by placing the flexible hose in the tank on the float, while the free end of the flexible hose ends extending nozzle with curved kanakamedala tank, in communication with the main conduit podwodami-outlet piping, sensors maximum and minimum liquid levels in the tank, the overflow pipe is extracted from the reservoir, a management apparatus, a flexible hose, the upper end of which is connected to a widening in the form of a truncated cone with the inner curved grooves nozzle, which is rigidly fixed to the float. The lower end of the flexible hose is connected to the tee installed on podwodami-outlet lines. Tee is also connected to the bottom of the tank by a pipe through the check valve.

A flexible hose having at the top (free) end of the nozzle mounted on the float provides height to the appropriate level of water in tank pumps, thereby eliminating the creation of pumps excessive pressure. Check valve installed in the pipeline that connects the tank with lifting and discharge pipeline and provides for varying values of water consumption water flow in the tank only through a flexible hose with a nozzle, and a water outlet through its bottom. Internal curved groove nozzles located near the wall of the tank, ensure the creation of waves NY mode under changing climatic conditions, and form eddies that trap available in the water components (oxides, corrosion products, and silt particles).

In Fig. 1 shows a diagram of the intake device of Fig. 2 given scan the inner surface of the nozzle with curved grooves.

The device comprises a tank 1, is in communication with the main conduit 2 podwodami-discharge pipe 3, the sensors maximum minimum 4 and 5 levels of liquid in the tank 1, the overflow pipe 6 is extracted from the tank 1, the pressure valve 7, a flexible hose 8 with the nozzle 9 with the inner curved grooves 10 and the float 11. The lower end of the flexible hose 8 is connected to the tee 12. The pipe 13 is connected with the bottom of the tank 1 through the check valve 14, and the discharge valve 7 is connected electrically with the control apparatus 15.

Water the device operates as follows.

When reducing water consumption in the water in the tank 1 of the main conduit 2 comes on podwodami-discharge pipe 3, a flexible hose 8 is attached to the tee 12 through the nozzle 9, mounted on the float 11 and having an internal curved groove 10. When the maximum level is located on podushe-lead trubute 3, and the filling of the vessel 1 is stopped.

If the water in the system increases and, consequently, decreases the pressure in the main conduit 2, the sensor triggers minimum 5 water level, which sends a signal to open the discharge valve 7 on podushe-discharge pipe 3. The pipeline 13 water can only flow out of the tank 1 due to the presence therein a check valve 14.

Thus, by the entry of water into the tank 1 at the level of the top of the glass of water with a minimum amount of water in the system and the water outlet through the bottom of the tank 1 when the maximum amount of water in the system circulates water to the height of the tank 1. Due to the formation of waves on the water surface created by the nozzle with the inner curved grooves 10 and tangential her entrance and circulates the water in the horizontal plane. This creates a thermal regime due to hydrodynamic processes, which eliminates the possibility of water freezing in the winter and provides heat removal from the water surface in summer. The increase in the intensity of heat removal is achieved by increasing the surface of contact with air due to the formation of waves, and St the practical height of rise of the water pumps and the energy required to create the necessary pressure in the system for normal water intake by consumers.

The originality of the proposed water device is in the rational use of hydrodynamic forces generated in the system by creating circulation and twist the water flow that maintains a stable water quality and reduce energy consumption.

Water device containing a reservoir connected to the main conduit podwodami-outlet piping, sensors maximum and minimum liquid levels in the tank, the overflow pipe is extracted from the reservoir, the pressure valve installed on podwodami-outlet lines, and a management apparatus, wherein the tank is provided with a flexible hose, the upper end of which is connected to a widening in the form of a truncated cone with the inner curved grooves nozzle rigidly attached to the float, and the lower end of the flexible hose is connected to the tee installed on podwodami-outlet lines, while the tee is connected to the bottom of the tank with the pipe.

 

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The invention relates to utilities and used for water supply of settlements and various industrial enterprises
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