SU981949A1 - Waste consumption mineralization control - Google Patents

Description

The regulator relates to a device for regulating the salinity of water and can be used on irrigation systems, including rice systems, with the use of drainage and waste water. A device for regulating the water levels in the channels is known, which includes a displacement valve with a horizontal axis of rotation, in the case of which a double siphon 1 is installed. However, this device does not allow to regulate the salinity of the flow rate passing to the downstream. The closest in technical terms to the invention is a device for regulating water levels in an irrigation canal, which contains a hollow tank mounted on a horizontal axis of rotation and communicated with inlet and outlet respectively with inlet and outlet openings with valves installed on them, placed a double siphon and a pressure source 2 within the gate. This device also does not control the salinity of the discharge flow. The aim of the invention is to regulate the salinity of the discharge flow, i.e. expanding the functionality of the controller. The goal is achieved by the fact that the waste flow regulator contains a hollow gate mounted on a horizontal axis of rotation and communicated with the upper and lower pools, respectively, of the inlet and outlet openings with valves installed on them, a double siphon and pressure source, source pressure is made in the form of a casing divided by an elastic partition into two chambers, one of which with a membrane sensor placed in it communicates through a semi-aerated membrane with the upper pool and the other rm 1samera membrane and sensor are connected by pipelines with valves installed in the inlet and outlet openings respectively .If chem membrane sensor diaphragm is rigidly coupled to an elastic peregsrodkoy. The drawing shows the proposed controller. The regulator consists of a hollow valve 1 with a horizontal axis of rotation 2, the cavity of which through the inlet 3 and outlet 4 holes communicates respectively with the upper and lower tails. Inside valve 1, there is a double siphon with a common drain pipe 5 with an elbow 6, discharge pipe 7 and two different: elbows 8 and 9 which communicate with the cavity of the valve 1 pipe 10 and with the upper tail pipe 11. The valve 1 has a source of pressure out of the hull 12, divided by elastic peg: rod1soy 13 into two 1-measures - working 14 and driving 15. Working jcaMepa 14 is filled with an aqueous solution, having an osmotic pressure equal to the osmotic pressure of water in the upper side at a given concentration (mineral tion), and communicated with the upper pool by poluproni-permeable membrane 16. Paul; r1ronitsaema membrane 16 has access system property Katyas water molecules, but agilis permeable to dissolved substances. This membrane may be from Gshetshulopluza, treated with magnesium perchlorate or from other materials. The working chamber 14 houses a membrane sensor consisting of the housing 17 and the membrane 18, which is connected to the elastic partition 13 with the rod 19. This sensor is connected by a pipe 2O to a valve that throttles the inlet 3 and consists of the housing 21 and the membrane 22. The cavity of the drive chamber 15 is connected by pipeline 23 to another valve that throttles the outflow opening 4 and consists of housing 24 and membrane 25. The pressure source housing 12 can also be placed outside the gate 1. The regulator operates as follows. When water is mineralized in the upper reach, the osmotic pressure of the solution exceeds the osmotic pressure of the solution in the working tank 14. Due to this, the water molecules diffuse through the semipermeable membrane 16 into the upper reach. Due to this, the elastic partition 13 progresses to the side of the chamber 14, acting through the rod 19 on the membrane 18. As a result, the membrane 22 covers the opening 3, and the membrane 25 opens the opening 4, which leads to the outflow of water from the gate 1 and, consequently, to its rise . Water with povnennoy, compared with a given, mineralization is discharged into the lower pool. When water is mobilized in the upstream below a given molecule, water penetrates into the working chamber 14 from the upper pool, which leads to the opening of the hole 4 and opening of the hole 3 "The cavity of the valve 1 is filled with water and the valve 1 is lowered, stopping the flow of water into the pool. When reaching the level of the upper reaches of the maximum mark, water enters the siphon with the knee 9, which is charged and creates a vacuum in the knee 8 of the other siphon. The latter is also charged and the water from the gate 1 is discharged to the lower reach through the nozzle 10. The shutter 1 is raised until the water level in it drops to the 2 nd hole of the nozzle 10 or the level in the upper reach goes to the nozzle 11. Thereafter Newly siphons are partially or completely discharged by air entering through nozzles 10 or 11. The water level is maintained at elevations below the maximum or at elevations. Thus, executing the pressure washer as an elastic partition into two chambers, one of which, with a membrane sensor, is connected to it, communicates through a semipermeable membrane with upper bump and is filled with an aqueous solution, and the other chamber and membrane sensor are connected to valves with valves, allows you to regulate the salinity of water discharged to the downstream. By installing such a regulator as a blocking wall at the collector drain, it is possible to maximize the use of drainage-waste water: water with a higher salinity than the specified transit enters the drainage-waste water receiver, while water with less salinity Repeated isolation

Claims (2)

The claims -15 1. The mineralization regulator of the discharge flow, comprising a hollow valve installed on the horizontal axis of rotation and communicated with the upper and lower downstream-20 mi inlet and outlet, holes, with valves installed on them, a double siphon and a pressure source placed inside the valve, 5 981949 6 characterized in that, with a circuit for expanding the functional capabilities of the regulator, the pressure source is made in the form of a housing divided by an elastic partition into two chambers, one of which is placed by means of a semi-permeable membrane with a membrane located above. downstream, and the other chamber and the membrane sensor are connected by pipelines with valves installed on the outlet and inlet, respectively. 2. The regulator according to π. 1, characterized in that the membrane of the membrane sensor is rigidly connected with an elastic partition.