RU2728224C1 - Assembly method of modular pumping station of waste water pumping - Google Patents

Abstract

FIELD: water supply; sewerage.

SUBSTANCE: invention relates to hydraulic engineering equipment and can be used for pumping of domestic and industrial waste water. Method consists in transportation of separate dismountable unified structural units made in factory conditions, assembly of structural units with hoisting equipment when using stitched loops by means of sealed connections according to process scheme, where lower part of pump station is installed on prepared base, after which lower part (1) is fixed to prepared base, pressure pipelines are connected to support couplings of submersible pumps, inlet branch pipe with fittings is installed in pass sleeve through wall of station and reinforcement is fixed. Further, on the servicing platform there laid is a collecting and distributing pipeline header, to which pressure pipelines are connected, connecting upper and lower part of sewage-pumping station by means of tight connection, installing outlet pipes of pressure pipelines in through sleeve through wall of station, fixing ladder, fixing structures of preliminary technical treatment of waste water in frame. Then the collecting and distributing collector is connected to the pressure pipelines and fixed to the support beam. After connecting manifold-distributing header with emergency pipeline, pressure pipes and instrumentation are installed, emergency part of pipeline is installed and ventilation is installed. At the final stage, the pump guides are installed, then the sewage pumps are lowered and installed on the support couplings. Then electric equipment and instrumentation are connected to the control panel, process nodes of the sewage-pumping station are sealed by means of a bentonite cord.

EFFECT: simplified transportation, simplified assembly process and high speed of assembly, as well as tightness and increased strength by means of coupling connection.

8 cl, 6 dwg

Description

The claimed technical solution 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 method of installing a pumping station for wastewater in a mine (see application WO 2015055749 A1, published 23.04.2015).

The method consists in the fact that at least one collection tank for mechanical impurities contained in the wastewater passed through it, a storage tank for a liquid that receives wastewater previously purified from mechanical impurities in said collection tank for mechanical impurities, and connected to the collection to the reservoir for mechanical impurities, the pump for pumping out the storage reservoir for liquid through the specified collection reservoir for mechanical impurities is made in the form of separate structural units. At least the specified collection tank for mechanical impurities and the pump, and, if necessary, also the distributor, the suction line and the pressure line are pre-manufactured in production in the form of unified units and transported to the place of their installation, where this unified unit is combined with the existing one at the work site a storage tank for liquid during installation in an existing sewer well at the work site. The standardized unit and the storage tank for liquid at the work site are connected to each other in at least one connection point. The station contains a collection tank for mechanical impurities, a storage tank for liquid and a pump connected to the collection tank. The collection tank for mechanical impurities, the storage tank for the liquid and the pump are made in the form of separately manufactured structural units. The station was built, in particular, in a sewer well in the way described above. An improved method of plant construction is provided, which leads to significant cost savings, in particular for transportation.

However, the presented technical solution provides for the modernization of existing sewerage systems, but does not imply a prefabricated block-modular sewerage pumping station as a whole. Structural elements do not imply special slinging loops for moving by lifting equipment, which reduces the speed of installation. The use of a composite coupling with elastic sealing elements is not intended to improve 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 valves, level sensors for switching on and off pumps connected to a control panel installed in an 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 placed in the receiving tank, connected to 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 facilitating the transportation of the claimed technical solution to the assembly site, 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 method for assembling a block-modular pumping station for pumping wastewater, which consists in transporting individual collapsible unified structural blocks manufactured at the factory by any type of transport to the construction site, installing structural blocks with lifting equipment using sling loops in a certain sequence using hermetic connections, according to the technological scheme:

install the lower part of the pumping station on the prepared base, and then mount (the lower part) (1) to the prepared base;

connect pressure pipelines (2) with supporting couplings (3) of submersible pumps;

install the inlet pipe with fittings (4) into the bushing (5) through the station wall and fix it (fittings) (6);

a collection and distribution pipeline manifold (8) is placed on the service site (7), to which pressure pipelines (2) are connected;

connect the upper (10) and lower (1) parts of the sewage pumping station using a sealed connection (11);

install the outlet pipes of the pressure pipelines into the bushing through the wall of the station (12);

fix the ladder (13);

fix the structures for preliminary technical wastewater treatment (14) in the frame (15);

connect the collection and distribution manifold (5) with the pressure pipelines (2) and attach to the support beam (16);

after connecting the collection and distribution manifold (5) with the emergency pipeline (18), the pressure pipes (17) and instrumentation (9) are installed;

install the emergency part of the pipeline (18) and install ventilation (19);

at the final stage, the pump guides (20) are installed;

then the sewer pumps (21) are lowered and installed on the support couplings (3);

connect electrical equipment and instrumentation to the control panel;

the process units of the sewage pumping station are sealed with a bentonite cord.

In this case, the upper and lower parts are filled with components (valves, instrumentation, ladders, service platforms, etc.) at the factory, thereby speeding up the assembly process on the site.

In this case, the body is made of fiberglass, polyethylene, polypropylene, reinforced concrete, basalt plastic.

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

In this case, there may be several service areas, pumping groups for different purposes and technological equipment.

In this case, the pumping station is assembled from vertical, inclined and horizontal blocks.

In this case, the fastening is carried out to ground anchors, foundation slab.

At the same time, structures for preliminary mechanical wastewater treatment can be constructively executed in the form of a crusher, grate, sieve.

The claimed invention is characterized by drawings.

FIG. 1-6 shows the stages of the technological scheme according to the assembly method.

A method for assembling a block-modular pumping station for pumping wastewater, which consists in the installation of structural blocks with lifting equipment, for example, a crane, in a certain sequence according to the technological scheme.

Initially, the lower part of the sewage pumping station is installed on the prepared base, after which the (lower part) is fastened with anchor bolts or other known methods so that the station is not exposed to external factors, (for example, when the water level rises, the station may float, because inside there is free space) to the foundation slab or to the ground anchors.

Then connect (flanged / welded joints) the pressure pipelines with the support couplings of submersible pumps.

Install the inlet pipe with fittings into the bushing through the wall of the station and fix it (fittings).

Next, a collection and distribution pipeline manifold is placed on the service site, to which pressure pipelines are connected, if necessary, equipped with instrumentation (water meter / flow meter).

Connect (using a coupling) the upper and lower parts of the sewage pumping station.

The next step is to install (flanged / welded joints) the outlet pipes of the pressure pipelines into the bushing through the station wall. Secure (bolt) the ladder. Attach the crusher to the frame. Connect (flanged / welded joints) the manifold with pressure pipes and fasten to the support beam with clamps. After connecting the collection and distribution manifold to the emergency pipeline, install (flange / welded joints) a branch pipe and instrumentation.

Following this, the emergency part of the pipeline is installed (flange / welded joints) and the ventilation is installed (insert the ventilation pipeline into the prepared positions, for example, there is a sleeve in the body and the ventilation pipeline is put on it).

At the final stage, the pump guides are installed, then the sewer pumps are lowered and installed on the support couplings.

Connect electrical equipment (pumps, valves with an electric drive, fan) and instrumentation (flow meters, monometers) to the control panel;

Sealing is performed (bentonite is clogged in the slots and holes, then it swells and thereby ensures tightness) of the technological units of the sewage pumping station using a bentonite cord / resin strand.

The stages of assembly of the sewage pumping station can be varied, but an important detail that should be taken into account is that before installing the upper part on the service site, it is necessary to put a collection and distribution manifold, since the dimensions will not allow it to be placed through the existing hatches.

As for the issue of the lower part with respect to the upper one, the coupling will ensure tightness, but during installation it is necessary to correctly (mark on the body in several places and assemble them) to orient one part relative to the other. The fixation of the position of the structure of the sewage pumping station is provided by the weight of the upper part and the sealing soil.

Thus, tests of the prototype, using the method proposed for patenting, showed that it is achieved to simplify the transportation of the claimed technical solution to the assembly site, to simplify the assembly process and high speed of installation, as well as to ensure tightness and increase the strength by means of a coupling joint.

Analysis of the totality of all the essential features of the proposed invention 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 method 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 method with the inventive step criterion.

The proposed object has already been implemented, which indicates its industrial applicability.

Claims (23)

1. A method of assembling a block-modular pumping station for pumping wastewater, which consists in the transportation of separate collapsible unified structural blocks, manufactured at the factory, installation of structural blocks with lifting equipment when using slinging loops using hermetic connections according to the technological scheme: install the lower part of the pumping station on the prepared base, after which the lower part (1) is fastened to the prepared base; connect pressure pipelines (2) with supporting couplings (3) of submersible pumps; install the inlet pipe with fittings (4) into the bushing (5) through the station wall and fix it (fittings) (6); a collection and distribution pipeline manifold (8) is placed on the service site (7), to which pressure pipelines (2) are connected; connect the upper (10) and lower (1) parts of the sewage pumping station using a sealed connection (11); install the outlet pipes of the pressure pipelines into the bushing through the wall of the station (12); fix the ladder (13); fix the structures for preliminary technical wastewater treatment (14) in the frame (15); connect the collection and distribution manifold (5) with the pressure pipelines (2) and attach to the support beam (16); after connecting the collection and distribution manifold (5) with the emergency pipeline (18), the pressure pipes (17) and instrumentation (9) are installed; install the emergency part of the pipeline (18) and install ventilation (19); at the final stage, the pump guides (20) are installed; then the sewer pumps (21) are lowered and installed on the support couplings (3); connect electrical equipment and instrumentation to the control panel; the process units of the sewage pumping station are sealed with a bentonite cord. 2. A method of assembling a block-modular pumping station for pumping wastewater according to claim 1, characterized in that the upper and lower parts are filled with components - valves, instrumentation, ladders, service platforms in the factory, thereby accelerating the assembly process at site. 3. A method for assembling a block-modular pumping station for pumping wastewater according to claim 1, characterized in that the body is made of glass composite, polyethylene, polypropylene, reinforced concrete, basalt plastic. 4. A method for assembling a block-modular pumping station for pumping wastewater according to claim 1, characterized in that the hermetic connection of the body is made in the form of a sleeve, flange, welded, adhesive or laminated connection. 5. A method for assembling a block-modular pumping station for pumping wastewater according to claim 1, characterized in that there can be at least two service platforms, pumping groups and processing equipment. 6. A method for assembling a 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. A method for assembling a block-modular pumping station for pumping wastewater according to claim 1, characterized in that the fastening is made to ground anchors, a foundation slab. 8. A method for assembling a block-modular pumping station for pumping wastewater according to claim 1, characterized in that the construction of preliminary mechanical wastewater treatment can be designed in the form of a crusher, grate, sieve.

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