SU763540A1 - Device for waste liquor discharge - Google Patents

Description

one

The invention relates to the field of protection of water bodies from pollution by sewage, namely, devices for the discharge of sewage into watercourses and watercourses, and can be applied in the discharge of sewage from storage tanks and septic tanks.

A device for discharging sewage into a reservoir, including a pipeline and a tip, is known, the latter being in the form of a cylinder having longitudinal slots, to which an inlet pipe is attached at an angle to its axis. In addition, the tip is provided with a guide visor installed under slot 1.

In this device, in order to ensure its efficient operation in the supply pipeline, it is necessary to create a pressure sufficient to impart fluid to the screw movement in front of the cuts, since only under this condition can the increase in the degree of displacement of the waste water with the reservoir water be achieved.

It is also known a device for the discharge of sewage, comprising a pressure pipe with a tip and an ejector with an aeration pipe built into it. The pressure pipe has a bypass line connected to it before and after the ejector 2.

However, this device is not sufficiently effective in operation, due to the fact that the regulation of the discharge of wastewater is carried out by changing the head by means of pumps or by increasing the throughput of the pressure or supply pipelines by changing the position of the valves.

The aim of the invention is to increase

10 of the efficiency of the device due to the supply of additional energy to the wastewater stream in the form of pressure pulses - hydraulic strokes.

The goal is achieved by the fact that the device is equipped with a system for supplying compressed air and a source of electrical power, while the tip is made in the form of a water-carrying chamber fixed on the pipeline, equipped with a valve and a stem installed with the possibility of vertical

Claims (2)

20 reciprocating motion, as well as an electromagnet and a membrane installed at the end of the tip. Three holes are made on the walls of the airborne chamber: one of them has the shape of a saddle and is located at the bottom of the chamber, the second is on the side wall of the chamber and connects to the compressed air supply system, and the third is on the side wall and is equipped with a spigot. FIG. 1 schematically shows the release of wastewater; in fig. 2 - section A-A of FIG. one; in fig. 3 schematically shows the installation of a membrane and an electromagnet with the power supply circuit of the latter. A device for the discharge of sewage contains a pressure pipe 1 and a tip 2. The pressure pipe 1 is connected to a tank 3 (storage tank or settler) of waste water and has a valve 4. The valve 4 can be installed in a special well 5. The end of the pressure pipe 1 with a tip 2 is removed into the drain or pond 6. The cap 2 is made in the form of a pipe 7 and has water-air chambers 8, a membrane 9 and an electromagnet 10. Water-air chambers 8 are fixed on top of the pipe 7. Each of them has three holes 11, 12 and 13. An opening 11 connects the inner lanes 14 chamber 8 through the air duct 15 with a compressed air supply system. The air line has a non-return valve 16. Hole 12 is provided with a nozzle 17 and connects the internal cavity 14 of the chamber 8 to the pond 6. The hole 13 connects the cavity 14 of the chamber 8 to the cavity 18 of the pipe 7 and on the side of the water-air chamber 8 is designed as a valve seat 19 with a rod 20. At the end of the pipe 7, a membrane 9 is installed with a seal with an electromagnet 10 insulated from the environment by a cover 21. A normally-open contact 23 connected to the water-air circuit is connected to the power supply circuit connected to the electromagnet 22 measure 8. If tip 2 has two or more water-air chambers 8, then in this case a normally open contact is mounted in one of them. Valve stem 20 of valve 19 is intended to act on a normally open contact 23 when valve 19 is closed, i.e. valve 19 is in the seat of cavity 18. When valve 4 is closed, valve 19 is in its lowest position and, under its own weight, tightly closes the hole 13; The internal cavity 14 of the water-air chamber 8 is filled with water coming from the reservoir 6 through the opening 12, and the air coming from the air duct 15. The power supply unit 22 of the electromagnet 10 with the valve 4 closed is disconnected from the mains. A device for the discharge of wastewater works as follows. At the beginning of the spring flood or rain flood, the valve 4 is open and the power supply unit 22 of the electromagnet 10 with a normally open contact 23 is connected to the power grid. When the valve 4 is open, the wastewater can flow from the tank 3 via the pressure pipe 1 to the top. Since at the beginning of the flood or flood the water level in the drain is relatively low, and the tank 3 is filled with wastewater, the difference in the level of wastewater in tank 3 and the water in the reservoir 6, which characterizes the pressure on valve 19, is relatively large. If the pressure on the valve 19 exceeds its own weight of the valve, valve 19 will rise and the opening 13 will open. At the same time, the wastewater enters the water-air chamber 8, and then through the opening 12 and pipe 17 - into the reservoir 6. Over time, the wastewater level in the tank 3 decreases due to the departure of sewage from the tank to the watercourse, and the water level in the watercourse, on the contrary, increases as the flood or flood develops. At the same time, the difference between the sewage marks in the tank 3 and the water in the reservoir 6 decreases, and hence the pressure on the valve 19 decreases. At the moment when the pressure on valve 19 drops to a value slightly lower than the valve weight, the valve is lowered and the contacts 23 are closed by means of the rod 20. After the contacts are closed, the electromagnet 10 is activated and actuates the membrane 9. A sudden movement of the membrane 9, directed against the movement of wastewater head 2, causes a water hammer. At the moment of passing the direct wave of the surge, a sharp increase in pressure is observed in the tip 2. This causes the valve 19 to rise from the saddle of the hole 13. As a result of the increased pressure, a certain portion of the wastewater will flow from the cavity of the pipe 7 into the cavity 14 of the water-air chamber 8, compressing the air there that accumulates the energy of the hydraulic shock. When the valve 19 moves upward, the action of the rod 20 on the normally-open contact 23 is removed, the contact is opened, and the electromagnet 10 is disconnected from the power supply unit 22. When the direct wave of the water hammer drops and the electromagnet 10 is turned off, the membrane 9 returns to its original position, the valve 19 lowers and closes the hole 13, the rod 20 re-closes the normally-open contact 23, which turns on the electromagnet 10, the movement of the diaphragm causes a new water hammer, and the next portion of the waste water comes under high pressure from the pipe cavity 7 into the cavity 14 of the water-air chamber 8, compressing the air therein. During long-term operation of the device, the air supply in the water-air chamber is reduced due to its dissolution in the waste liquid and subsequent entrainment into the reservoir 6. In order to prevent this occurrence, the air supply to the compressor 24 through the air duct 15 is provided. As the compressed air accumulates in the compressed air chamber 8 increases and considerably exceeds the pressure generated only by the difference in the level of wastewater in the tank 3 and the water in the reservoir 6. Under the action of this pressure, The treatment of wastewater through the opening 12 of the nozzle 17 into the reservoir 6. With repeated cycles with hydraulic shocks, the steady flow of wastewater through the opening 12 will occur. This ensures the achievement of the goal — an increase in the efficiency of the device, which manifests itself in an increase in the discharge of wastewater into water flow during the period of spring flood or rain flood, when the water flow assimilating capacity is greatest. The described device can be applied to gravity-free releases of wastewater from storage tanks to ensure full utilization of the assimilating capacity of the watercourse during the period of high water or rain flood. Full use of the assimilating capacity of the watercourse allows for optimal disposal of accumulated wastewater, and thus ensure the normal operation of the enterprise in the subsequent period, before the onset of the next flood or flood. Claims 1 Sewage discharge device containing a discharge pipe with a tip, characterized in that, in order to increase the efficiency of the device by supplying additional energy to the flow of waste water in the form of hydraulic pressure pulses, it is supplied with a compressed air supply system power supply, with the tip made in the form of a water-air chamber fixed on the pipeline, equipped with a valve and a rod mounted with the possibility of vertical return nopostupatelnogo motion, as well as an electromagnet and the membrane installed in the end of the tip. 2 A device for the discharge of wastewater according to claim 1, characterized in that holes are made on the walls of the water-air chamber: one of which is saddle-shaped and located at the bottom of the chamber, the second is on the side wall of the chamber and connected to the compressed air supply system and the third on the side wall and provided with a pipe. Sources of information taken into account in the examination 1 USSR author's certificate number 296870, cl. E 03 F 1/00, 1/13/70. 2 USSR author's certificate No. 431286, cl. E 03 F 5/00, 26.05.72.   , , L., fig.i ue 2