SU592938A1 - Device for pumping waste water - Google Patents

Description

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The invention refers to sewage systems, in part to the installation (Vka1M for disposal and TrainsporT (Irrigation of wastewater from a suitable reservoir | p | va1pra for cleaning the building), and can be used in urban and city sieves and industrial enterprises for pumping containing ruby inclusions.

The known method and installation of pumping wastewater containing floating and large inclusions, water-jet elevators from the collector to the receiving tank with the separation of these waters into two streams, one of which, containing the oyunovoy mass of floating and large B1 inclusions, is discharged with a water-jet elevator, and the other, Exhausted from the indicated components, are pumped over with a pump. The installation according to this method is unreliable in operation, since when the separator separating the waste water is clogged, the latter will flow into the reservoir through the pump, which will adversely affect its operation, moreover, the installation does not ensure reliable removal of large inclusions.

A known installation for pumping sewage, comprising a tank above which a compartment is located, a pump, the suction pipe of which is lowered into the tank, and a gravity flow pipe connected to the nano pipe of the pump. Below this connection, a lattice is installed, shutting off the entire cross section of the pressure pipe, and at the connection point there is a check valve closing the gravity flow pipe when the pump is running. In front of the tank there is a chamber with a filter, an overflow pipe and a gravity well integrated into the manhole, which is connected to the pressure pipe of the pump by means of a check valve. The installation described has the disadvantage that when pumping waste liquid from the receiving tank, the bulk of the large inclusions retained in the in-line grille

at the same time, it is entrained with the first portion of the pumped waste liquid, which leads to clogging of the subsequent gravity flow pipe into which this fluid is being pumped.

Liquid | st.

The closest in technical essence and the achieved result to the described invention is a plant for pumping sewage containing large inclusions without removing them, which partially eliminates the above disadvantage due to maintenance (HE), which has a sedimentary chamber in the form of a knee, and the lattice is located on the pressure pipeline not perpendicular to the flow, but parallel to the flush with the internal surfaces of the caMOTOiiHoro pipeline and the wasp | DOCH: I01 of the chamber. However, the laiKoe constructive solution. does not provide the complete system with the full sea of reliability, as well as the elimination of subsequent pipelines clogging, because when switching the pump operation to AI, the preferred - deposition mode from the sedimentary chamber enters the following pipelines: total mass, but not dispersed; Sediment deposition will be observed And its subsequent dilution in the lower part of the knee, which is indicative of the work of the kama itself (ry.

In order to increase the reliability of the entire sewer system, to avoid clogging of subsequent pipelines, by discharging selected large inclusions in the mass of waste liquid as the pump works, the proposed installation is equipped with a bypass pipe connected to the discharge pipe of a steam chamber.

The drawing shows the installation, general view.

The installation for pumping wastewater consists of tank 1, above which engine room 2 is located, pump 3, suction pipe 4 of which is inserted into the tank, gravity pipe 5 connected to pressure pipe 6 of pump 3. A check valve 7 is installed on the gravity pipe , and on the bottom of the connection - a grid 8, which covers all its cross section: above the specified connection, a sedimentary chamber 9 is installed with a rear B110; in parallel to which a single pipe 11 with a valve 12 is connected to the discharge pipe. reported with the atmosphere through a ventilating pipe 13.

The installation works as follows.

When the pump is turned off, the waste liquid flows through the samatem pipe 5 along the tube 6 and then through the pump 3 and tube 4 into the receiving tank 1. Large (Inclusions contained in the liquid are trapped on the grid 8. As the tank 1 is filled, the air from This is displaced by the ventilating pipe 13. After filling the receiving

the tank. a pump 3 is created. The return valve 7 is created in the pipeline by pressure. and the waste water transferred from the pump 1 of the 1st tank 1 5 together with the waste retained on the inside-pipe grille 8 enters the sediment chamber 9, after filling which, the valve 10 on the pipeline closes and the valve 12 on the bypass pipe I opens. The drains along the bypass pipe AND and the pressure pipe 6 are pumped to the external network. At the same time, from the effluents in the sedimentary chamber, precipitation of the inclusions present in them, which are entrained by the stream of sewage flowing through the pipeline 11, will occur.

After that, as the main part of the large inclusions, the entrance to the settling chamber in the settling chamber will be gradually and carried out through pipes 6, 11 into the external network, the valve 10 is opened and the drains simultaneously through pipeline 11 and through the sediment chamber 9 enter the pipe 6 "further into the external network. Continuing during operation of the pump 3, the inflow of sewage through a similar system of another pump enters the receiving tank. After the receiving tank is emptied, the pump 3 is stopped), the pump is poured, the pump is closed: the pump 12, the check valve 7 is opened, the waste water flows into the receiver tank through the gravity flow pipe 5.

The invention makes it possible to increase the reliability of sewage systems.

Invention Formula

Installation for pumping waste water with large inclusions, containing a pump with

a suction pipe and a pressure head, a lattice overlying its cross section and a sedimentary chamber, a gravity flow pipe with a shut-off device, characterized by a T.SM, which, in order to improve the reliability of operation,

dispersed large inclusions in the mass of waste liquid, the installation is equipped with a bypass pipe connected to the pressure pipe parallel to the sedimentation chamber.