RU2737240C1 - Block-modular pumping station of waste water pumping - Google Patents

Abstract

FIELD: treatment of water, industrial and household waste water.SUBSTANCE: invention relates to hydraulic engineering equipment and can be used for pumping of domestic and industrial waste water. Pump station includes housing made of glass composite, consisting of manufactured at production of separate detachable unified structural units, mounted with lifting equipment between each other, connected to each other. Pump station includes at least one receiving reservoir (1) for liquid in the form of a wet compartment, consisting of at least one structural unit receiving waste water and containing pump equipment (7), as well as dry compartment (2) containing pipeline valves. Structural units are connected by means of at least one coupling (3) tight connection. Separate structural units are equipped with devices for transportation and installation.EFFECT: simplified assembly, high rate of assembly, tightness and increased strength by means of clutch coupling.7 cl, 1 dwg

Description

The invention relates to a complex of hydraulic equipment and can be used for pumping domestic and industrial wastewater.

An analogue is known from the prior art: a sewage pumping station (patent for a useful model of the Russian Federation 155689, published on 20.10.2015).

Sewage pumping station, consisting of a cylindrical tank, on the bottom of which submersible pumps are installed with guides and pipelines with shut-off valves, pipes for supplying and discharging wastewater, stairs, ventilation system, lattice basket for garbage collection, characterized in that the inlet pipe is made with a cutout for draining the liquid into a container, behind which longitudinal slots are made in the lower part, and plates are fixed on the end part of the cutout and under the slots, between which a rotary plate is fixed on the axis, while under it on both sides on the guides there are two removable lattice baskets for garbage collection.

However, the presented technical solution does not imply the implementation of the body of blocks, partitions, bottoms, elliptical plugs made of composite material, which leads to an increase in the mass of structures and reduces the speed of installation. Structural elements do not imply slinging loops for moving with lifting equipment, which reduces the speed of installation. Also, significant disadvantages of the analogue are that it is not provided for the use of a composite coupling with elastic sealing elements, which makes it possible to increase the tightness of the sewer pumping station without additional sealing operations.

From another analogue of the utility model patent RU 13901 U1 (published 06/10/2000), a sewage pumping station is known, containing a receiving tank in the form of a cylindrical fiberglass body with a lattice container located under the sewage supply pipeline, pumps, pressure pipelines equipped with check valves and gate valves , level sensors for switching the pumps on and off, connected to the control panel installed in the above-ground container block with a lifting device located in it, an overlap with an opening made in it, equipped with a fence, characterized in that submersible pumps are located in the receiving tank, connected with pressure pipelines, installed with the possibility of vertical movement along the guides, and a service platform with openings made in it is located above the sewage supply pipeline.

The station consists of a one-piece body, which reduces the possibility of its transportation by road and makes it impossible to install this station in densely built-up areas or places far from major main roads, which are significant disadvantages of this analogue.

The objective of the claimed technical solution is to eliminate the disadvantages of the prior art.

The technical result consists in providing a simplified assembly process and a high installation speed, as well as in ensuring tightness and increasing strength by means of a coupling joint.

The delivered technical result is achieved by means of a block-modular pumping station for pumping wastewater, which is characterized by the fact that its body is made of glass composite, consists of separate collapsible unified structural units of the pumping station, assembled by lifting equipment, interconnected, according to at least one receiving tank for liquid in the form of a wet compartment, consisting of one or more structural units that receive waste water and containing pumping equipment, also one dry compartment containing pipeline fittings, the structural units are connected by means of at least one sleeve hermetic joint, and individual structural units are equipped with devices for transportation and installation.

The body is made of polyethylene, polypropylene, reinforced concrete, basalt plastic.

In this case, the hermetic connection of the body is made in the form of a flange, welded, adhesive or laminated connection.

In this case, the sleeve connection is made in the form of a one-piece sleeve axial or biaxial connection.

In this case, the device has at least one service platform, a pumping group and at least one technological equipment.

At the same time, the pumping station is assembled from vertical, inclined and horizontal blocks.

At the same time, a wet receiving tank that contains a wastewater pre-treatment facility and can be structurally executed in the form of a crusher, grate and sieve. In the shown drawing, the following structural elements are indicated under the positions:

pos. 1 - receiving tank in the form of a cylindrical glass-composite body;

pos. 2 - dry chamber of cylindrical shape;

pos. 3 - clutch;

pos. 4 - inlet pipe in the form of a glass-composite sleeve;

pos. 5 - manual or automated valve;

pos. 6 - channel grinder;

pos. 7 - submersible sewage pumps;

pos. 8 - pressure pipelines from stainless steel;

pos. 9 - check valves;

pos. 10 - gate valves;

pos. 11 - electromagnetic flow meters;

pos. 12 - outlet pipes made in the form of glass composite sleeves;

pos. 13 - ventilation exhaust branch pipe;

pos. 14 - carbon filter;

pos. 15 - fan;

pos. 16 - stairs;

pos. 17 - opening with stainless steel service hatches;

pos. 18 - opening with stainless steel service hatches;

pos. 19 - deflector;

pos. 20 - deflector;

pos. 21 - openings with stainless steel service hatches;

pos. 22 - opening;

pos. 23 - opening.

The station contains a receiving tank (in the standard version of the device there will be one tank, but there may be several of them, they will be located in the lower part next to each other) in the form of a cylindrical glass composite body - 1, a cylindrical dry chamber - 2 and a coupling connecting them - 3 (in the standard version of the device, when the lower and upper parts, then one coupling is used, but it is also possible to perform a multi-piece device, respectively, there will be several couplings and they will be installed the same way, at the place where separate parts are assembled). In the receiving tank 1, an inlet pipe is mounted in the form of a glass composite sleeve - 4, at the inner end of which there is a manual or automated valve - 5, installed in a glass composite tray connecting the valve 5 and a channel grinder - 6. In tank 1, submersible sewage pumps - 7 (for example, two pumps), to which pressure pipelines made of stainless steel are connected by means of an automatic pipe coupling, for example, grade AISI 304 - 8. Part of pipelines - 8 located in a dry chamber - 2, are equipped with check valves - 9, gate valves - 10, and electromagnetic flowmeters - 11. Pressure pipelines 8 exit from chamber 2 through, outlet pipes made in the form of glass composite sleeves - 12. Pumps - 7 are installed with the possibility of vertical movement along the guides. A carbon filter 14 and a fan - 15 are installed on the ventilation exhaust pipe - 13, located in the tank 1 and coming out through the top of the chamber - 2. On the wall of the chamber 2 for servicing the pumping station, a ladder - 16 is installed. services made of stainless steel - 17 and 18. The upper parts of the ventilation pipes that come out to the surface through chamber 2 are equipped with deflectors - 19, 20. On the glass composite ceiling located in tank 1, there are openings with stainless steel service hatches - 21 and openings - 22, 23.

Analysis of the totality of all essential features of a block-modular pumping station for pumping wastewater proves that the exclusion of at least one of them leads to the impossibility of fully ensuring the achieved technical result.

An analysis of the prior art shows that such a device is unknown, which has features identical to all essential features of this technical solution, which indicates its unknown and, therefore, novelty.

The above also proves the compliance of the claimed device with the inventive step criterion.

In the implementation of the invention, the presence of the proposed object is actually realized, which indicates its industrial applicability.

Claims (7)

1. A block-modular pumping station for pumping wastewater, characterized in that its body is made of glass composite, consists of separate collapsible unified structural units of the pumping station, assembled by lifting equipment, interconnected, at least one receiving tank for a liquid in the form of a wet compartment, consisting of at least one structural unit receiving waste water and containing pumping equipment, as well as a dry compartment containing pipeline fittings, the structural units are connected by means of at least one sleeve hermetic connection, and the individual structural units are equipped devices for transportation and installation. 2. Block-modular pumping station for pumping wastewater according to claim 1, characterized in that the body is made of polyethylene, polypropylene, reinforced concrete. 3. Block-modular pumping station for pumping wastewater according to claim 1, characterized in that the structural blocks are connected by at least one flange, welded, adhesive or laminated connection. 4. Block-modular pumping station for pumping wastewater according to claim 1, characterized in that the coupling is made in the form of a one-piece coupling axial or biaxial connection. 5. Block-modular pumping station for pumping wastewater according to claim 1, characterized in that it has at least one service platform, a pumping group and at least one processing equipment. 6. Block-modular pumping station for pumping wastewater according to claim 1, characterized in that the pumping station is assembled from vertical, inclined and horizontal blocks. 7. Block-modular pumping station for pumping wastewater according to claim 1, characterized in that it contains a preliminary wastewater treatment facility and can be structurally executed in the form of a crusher, grate and sieve.

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