SU808606A1 - Debris-trapping device of sewage pumping station - Google Patents

Description

(54) SOROZADERZHIVAKHTSEE DEVICE

SEWAGE PUMP STATION

1. The invention relates to wastewater treatment plants for large contaminants and can be applied in urban and industrial sewage networks. Lattices are known that are installed on sewage stations for retaining large contaminants from the sewage containing a metal frame / inside of which a series of parallel rods ij is installed. Known gratings are installed in special rooms for their maintenance, which leads to an increase in the building volume of the pumping station, making it cumbersome, and in the room where the grate is installed, unfavorable sanitary conditions are created. A trap holding device of a sewage pumping station is known, which includes a housing with inlet and outlet openings and a grate placed in it, made of parallel-mounted plates. However, the known device is installed directly on the pump pipe and does not require special equipment. room, and the grill is low-capacity and quickly clogs. The purpose of the invention is to increase the grain capacity. The goal is achieved due to the fact that the ends of the plates of the lattice, facing the inlet, are uneven. Fig. 1 shows the proposed device in Fig. 2 — a sewage pumping station. The proposed drainage device includes a housing 1 with an inlet 2, an outlet 3 and unequal lattice plates 4. 7, Chamber 5 is connected to the engine room 8 by a gravity pipe 9 and an overflow pipe 10. The gravity pipe 9 is connected by means of a check valve 11 to the bottom hydrochloric pipe 12 of the pump 13, in the discharge pipe 12 installed sorozaderzhivayuschee device. having a grid with uneven plates 4. The pump is connected by a suction pipe 14 to a receiving reservoir 15, which is connected to the atmosphere through a ventilation pipe 16 to which the overflow pipe 10 is connected. The pumping station works as follows. When the pump is turned off, the waste liquid entering chamber 5 flows under the filter b into the gravity flow pipe 9 and then through the check valve 11, the housing 1 with the plates 4, the pump 13 and the suction pipe 14 into the tank 15. The large inclusions contained in the waste liquid retained on the lattice by plates 4, with the largest inclusions retained on the protruding plates, and smaller ones on the ones installed below. After the receiving tank is filled, the pump 13 is turned on. By the pressure of the waste fluid created in the pipeline, the check valve 11 is closed, the flow of waste fluid through the flow pipe 9 itself stops. Large inclusions retained by the grate are carried by the flow of fluid through the pressure pipe 12. The liquid flowing into chamber 5 at that time without outlet through pipe 9 accumulates in chamber 5, passes through filter b and then flows through the transfer pipe 10 to the vent pipe 16 to the reservoir 15. When the pump 13 stops, the pressure in the pressure pipe 12 drops, the check valve 11 opens, and the accumulated

Claims (2)

(puf 1 in chamber 5, the fluid flows through the self-flowing pipe 9 through the grate, the pump 13 and the suction pipe 14 enters the reservoir 15. With a large capacity, two or more pumps with a similar piping system can be placed in the pump station. In this case, when one pump is running The waste liquid from chamber 5 enters the reservoir 15 through the system of another pump, and if the system of the second pump does not ensure the passage of everything, the wastewater flow from chamber 5 to reservoir 15, then the rest of the wastewater enters reservoir 15 through filter 6, The intake pipe 10 and the ventilation pipe 16. Formula of the invention: The drainage device of a sewage pumping station, comprising a housing with inlet and outlet openings and a grating arranged therein, made of parallel-mounted plates, in order to increase the heat capacity, the ends of the plates grids turned to the inlet are made of different heights.Sources of information taken into account during the examination 1.Shishkin Z.N., Karelina Ya.A., Kolobanov S.K. , Yakovlev S.V. Sewage. M., Gosstroyizdat, 1961, p. 166, 172, 244. 2. Water supply and sanitary equipment, 1972, 4, pp.36-37.