SU1041999A1 - Automatic device for feeding water to reservoir - Google Patents

Abstract

AUTOMATIC DEVICE FOR SUBMITTING WATER TO THE TANK, containing an adjustment unit, a shut-off valve installed on the water inlet pipe, equipped with a diaphragm, hydraulic chamber, the diaphragm of which is connected to the locking valve, and a hydraulic elevator connected to the water outlet and connected to the relief valve, connected to the water outlet, and connected to the inlet pipe, and with the clew, and the cleat, as well, as well, as a 0-m camera, so that, in order to increase the reliability of the device and expand the range of control, the control unit is equipped with a capacity divided by membrane to an air chamber in communication with an elastic sealed chamber placed above the upper water level in the tank, and to a hydraulic chamber in fluid containers connected to the tank cavity at the elevation of the upper and lower levels, the membrane of the tank and the hydraulic diaphragm chamber and the shut-off valve are connected. itself with the possibility of their synchronous movement, and the flexible tubular element on the lower level marker is made in the vi-g de water-jet pump, on the outlet (L of which is installed along lavkovy valve, wherein the water jet pump and the upper end of the flexible tubular member mounted with possibility. of their separate fixed s movement in the reservoir.

Description

The invention relates to the field of water supply and the purpose for automatically controlling the flow of water into reservoirs with a small flow rate of the water supply source. A device for regulating the level of water in tanks is known, including a housing mounted on the inlet pipe and an inlet valve C 13 installed therein. In this device, the full tank process occurs simultaneously with the removal of water from it. The water supply to the tank is stopped only after the end of the water intake and the tank is full to the established upper level. A disadvantage of this device is the impossibility of ensuring a uniform distribution of water in separate tanks, connected to a low-capacity water supply source. , An automatic device for supplying water to a reservoir is known, which contains a control unit consisting of a control tank with a lid and a bottom, an overflow pipe and a shut-off valve. The control unit is equipped with a water insulating casing with a bottom placed outside the control tank, a spring installed between the bottom of the hood and a control tank, a rod connected at one end to the shut-off valve, and the other to the bottom of the control tank. The bypass pipe is made as a composite siphon water outlet with an adjustable elastic section, one end of which is placed inside the regulating vessel and the other in the cavity of tank 2. The disadvantage of this device is that it can simultaneously enter water in the tank with its withdrawal in open shut-off valve mode. i.e. in the period after the water reaches the lower predetermined level and empties the regulating tank. In addition, it is impossible to regulate the upper level of the water in the tank; it is necessary to increase the dimensions of the regulating tank, the protective casing, and the springs between them in the event of an increase in the diameter of the inlet pipe and the pressure in it, which will lead to an increase in the consumption of materials for the device. The closest in technical essence to the present invention is an automatic device for supplying water to a tank, comprising a shut-off valve, a unit for adjusting the water level in the tank, and a control unit for closing the shut-off valve during the withdrawal of water from the tank, containing a hydraulic elevator connected to the outlet pipe, communicated with the cavity of the tank and with a membrane hydraulic chamber, the membrane of which is connected to the valve Gz. The H-units of the known device consist in the impossibility of adjusting the upper level of the water in the tank; premature opening of the shut-off valve due to the release of water from the regulating tank simultaneously with a decrease in the level of water in the tank; limited range of regulation of the lower level of water in the tank; incomplete opening of the shut-off valve due to spring deformation, in the result of which the filling of the tank is slow; increased material consumption of the control unit. The purpose of the invention is to increase the reliability of the device and expand the range of adjustment. The goal is achieved by the fact that in the automatic device for supplying the tank to the tank the control unit is equipped with a tank divided by a membrane into an I air chamber communicated with an elastic sealed chamber located above the upper water level in the tank and a hydraulic chamber connected by a flexible tubular element ; The cavity of the tank at the elevations of the upper and lower levels, the membrane of the tank and the hydraulic diaphragm chamber and the shut-off valve are interconnected with the possibility of their simultaneous movements, and the flexible tubular element at the lower level level is made in the form of a water-jet pump, at the outlet of which a float valve is installed, the water-jet pump and the upper end of the flexible tubular element are installed with the possibility of their separate fixed movement in the reservoir. The drawing shows a diagram of an automatic device for supplying water to a tank. The device is mounted inside the tank 1c with the inlet 2 and the outlet 3 with pipelines. On the vertical section of the inlet pipe 2, a shut-off valve 4 is installed. The control valve for the explosion of the shut-off valve 4, when taking water from the tank 1, contains a membrane hydraulic chamber 5, the membrane of which is connected to the shut-off valve 4 by means of rigid Т51Г 6. through ka- measure the discharge of hydraulic elevator 8 with the cavity of the tank 1. The water level adjustment unit in the tank 1 contains a tank installed on a vertical section of the intake pipeline 2, which is divided by a membrane into an air chamber 9, which is connected to the tube 10 with an elastic sealed chamber 11 located above a given upper water level in the tank 1, and to the diaphragm hydraulic chamber 12, the membrane of which through the air chamber .9 is connected by rigid plugs 13 to rigid rods 6.and to the shut-off valve 4, Elastic chambers p, 11 intended for receiving air emogo displaced from the chamber 9, with a deflection of the membrane, t.e. when closing the valve 4, and also prevents the formation of condensate in the tube 10 and its connection in the air KciMepe 9. The membrane hydraulic chamber 12 communicates through the flexible tubular element 14 with the cavity of the tank 1 for two. level x In the zone of the lower water level, the flexible tubular element 14 has a water-jet pump 15, the external outlet opening is directed downwards and interacts with the float valve 16, which is made with limited vertical movement of the outlet part of the water-jet pump 15. At the top of the water-jet pump 15 From the side of the flexible tubing connected to it. element 14, connected to the chamber 12, mounted an air outlet valve 17, which is prednazn. started to release air from chamber 12 upon initial filling of tank 1. The upper end of the flexible tubular element 14 is held by a rigid grill 18, and the water-jet pump 15 with a float valve 16 is rigid bar 19.. By means of rigid rods 18 and 19, a separate fixed vertical movement is carried out respectively on the upper end of the flexible tubular element 14 and the water jet pump 15 with the float valve 16, thereby controlling the upper and lower water levels in the reservoir 1.; The device works as follows. In the mode of water withdrawal from the tank 1 through the outlet pipe 3, starting from the top to the bottom of the specified water levels in the tank 1, the shut-off valve 4 is in the closed position. The hydrostatic pressure of the column contained in the flexible tubular element 14 is amplified by the membrane of chamber 12, and with a rigid body of 13, it is transferred to the shut-off valve 4 and reliably presses it to the saddle of the vertical section of the intake pipe 2. When the water reaches the lower level mark in the tank, the float valve 16 is lowered and the outlet in the water-jet pump 15 is opened, as a result of which water from the upper portion of the flexible tubular element 14 flows into the tank 1. The hydrostatic pressure in the chamber 12 decreases , and the shut-off valve 4 under the influence of water pressure in the inlet pipe 2. opens, in the result of which part of the water from chamber 12 is displaced - by its membrane through the flexible tubular element 14 and water; JETTING. Pump 15 to tank 1, - thereby eliminating water up to; the upper free end of the flexible tubular element 14, and the water from the inlet conduit 2 fills the tank 1, the water in which occurs until either the water begins to withdraw from the tank 1, or until the water reaches the upper level. At the moment of water extraction through the water inlet pipe 3 in the dilution chamber of the hydraulic elevator 8, a reduced pressure is created, due to which the hydrostatic pressure decreases. cell 5, so that its membrane, and consequently the shut-off valve 4, is lowered, stopping the flow of water into the tank 1 until the water withdrawal from it stops. In this case, the membrane of the chamber, which communicates with the cavity of tank 1, both in the case of the closed and open outlet of the water-jet pump 15, is also lowered, and part of the air from the air chamber 9 is displaced by ito tube 10 into the elastic chamber 11. With the termination of water withdrawal of tank 1, it begins to fill again until the water reaches the upper level. After that, it goes through the funnel end. The flexible tubular element D4 completely fills it and the water-jet pump 15. At this point, hydrostatic pressure builds up in chamber 12, which is reinforced by its membrane, and; - by means of rigid pipes r 13, the force is transmitted to a shut-off valve 47 which reliably blocks the water supply pipe. 2 ,. stopping the water supply to tank 1. At the same time, part of the air in the air chamber 9. displaced by the air tube 10 into the elastic Xm1mer 11. Compared with the known devices of similar purpose, the proposed invention improves the reliability of the devices, as well. expands the range of adjustment of the upper and lower water levels in the tailgate, prevents premature opening of the shut-off valve until the water reaches the lower predetermined level, ensures reliable closing of the shut-off valve

valve in a wide range of diameters of the inlet pipe and pressure in it, reduces the consumption of materials of the structure.

Claims (1)

AUTOMATIC WATER SUPPLY DEVICE FOR RESERVOIR RESERVOIR containing a control unit, a shut-off valve mounted on a water inlet pipe equipped with a membrane, hydraulic chamber, the membrane of which is connected to a shut-off valve, and a hydraulic elevator connected to the water outlet pipe and in communication with the cavity and the reservoir hydraulic chamber, with the exception of the fact that, in order to increase the reliability of the device and expand the regulation range, the control unit is equipped with a tank divided by a membrane to the air chamber in communication with an elastic sealed chamber located above the upper water level in the tank, and to the hydraulic chamber communicated by a flexible tubular element with a cavity of the tank at the marks of the upper and lower levels, the membrane of the tank and the hydraulic membrane chamber, and the shut-off valve are connected . between themselves with the possibility of their synchronous movement, and the flexible tubular element on the. marking of the lower level is made in v-§ de water-jet pump, on the outlet of which is installed floats th valve, wherein water jet pump and the upper end of the flexible tubular member mounted to their separate fixed displacement ^ in the tank. 01 “ns 4* With With CO>