SU1071717A1 - Hydraulic structure - Google Patents

Abstract

1HYDROTECHNICAL CONSTRUCTION, containing inlet manifold and enclosed in a cylindrical housing machine room pumping station, located in a cylindrical receiving tank, characterized in that, in order to expand technological capabilities while simplifying the design, the receiving tank is equipped with partitions having windows with valves, section on sections, each of which is equipped with a device for removing floating impurities and pipelines for removing clarified water and precipitated axle They are equipped with corresponding pumps in the machine room, while the ratio of the volume of one section to the volume of the entire receiving tank corresponds to the ratio of the minimum and maximum volumes of wastewater, and the windows are located at the level of the inlet manifold. (S 2. The construction according to claim 1, from l and S, such that the device for removing floating impurities is made in the form of an annular tray located along the perimeter of the machine room at a level corresponding to the minimum volume of clarified water. S 1 -h1

Description

The invention relates to the field of wastewater pumping with partial pre-treatment and can be used in rainwater sewage systems of industrial enterprises. Hydrotechnical structures are known that contain receiving tanks and machine rooms of a pumping station located under them G1. The disadvantage of such facilities is that the receiving-tank has a small volume and therefore cannot be used for the accumulation and partial treatment of wastewater. Closest to the invention is a hydraulic structure comprising a supply manifold and a pump room, enclosed in a cylindrical housing, a stationer located in a cylindrical receiving tank G2. The drawbacks of the known hydraulic structure are that the structure of the receiving tank does not allow temporarily augment the wastewater and clarify it by sludge. Therefore, for a one-time transfer of a large amount of wastewater (for example, in the case of showers), it is necessary to have powerful pumps that, in the case of the absence of atmospheric water, will not be used. The need to have a large number of powerful pumps increases the area occupied by the 1st bus room of the pumping station, complicates and increases the cost of the whole structure and leads to a narrowing of the technological capabilities of the known hydraulic structure. The purpose of the invention is the expansion of technological capabilities with the recent simplification of the structure. The goal is achieved by the fact that in a hydraulic structure containing an inlet manifold and enclosed in a cylindrical body of a pump room, located in a cylindrical receiving tank, the receiving tank is equipped with partitions having openings with flaps that divide it into sections, each of which it is equipped with a device for removing floating impurities and pipes with a wire for removing clarified water and precipitates deposited, connected to the corresponding pumps of the tank room, while The volume of one section to the volume of the entire receiving tank corresponds to the ratio of the minimum and maximum: the volume of wastewater, and the windows are located at the level of the inlet collector. In this case, the device for removing floating impurities was made in the form of an annular tray located along the perimeter of the moss room at a level corresponding to the level of the minimum volume of clarified water. FIG. 1 shows the proposed hydraulic structure, -. general form; in fig. 2 is a section A-A in FIG. 1. The proposed hydraulic structure contains a cylindrical receiving tank 1, in which the machine room of the pump station 2 is located coaxially. The machine room of the pump station 2 is enclosed in a cylindrical body 3, hermetically connected to the bottom of the receiving tank 1, equipped with a supply manifold 4. The bottom of the receiving tank 1 is located along relative to the inlet manifold 4 at a depth that provides the required (calculated) storage volume for wastewater. On the inlet manifold 4, a grating 5 for holding large impurities and a distributing device 6 is installed. The receiving tank 1 is divided into sections 7 by partitions 8, which have a UI of a window 9 with flaps 10 to ensure the accumulation of each section. Each section is equipped with devices 11 for removing loose impurities, pipelines 12 flushing, suction pipelines 13 for removing clarified water and lines 14 for removing precipitated waste connected to the corresponding pumps 15 and 16 installed in the machine room of the pumping room 2. For accumulation of floating admixtures , removable by devices 11, a tank 17 with a pump 18 is attached to them. The pump room 2 of the pump room is equipped with lifting and transport mechanisms 19 and a gallery of pipelines 20. The proposed hydro-technological servation works as follows. The wastewater enters the cylindrical receiving tank 1 through the inlet manifold 4 through the grate 5, on which large impurities are trapped, and the distribution device 6, which distributes the flow of wastewater to one of the sections 7 (in the event that cannot for one reason or another accumulate waste water). After filling one of the sections 7, the waste water through the open window 9 of the partition 8 flows into the next section and fills it. Depending on the amount of wastewater received, the corresponding number of seconds is filled, 7 of the receiving tank 1. If necessary, isolate any of the sections (for example, in case of repair) of the window 9 of the partitions 8 of this section are closed with slits 10. After settling the accumulated waste water the floating impurities are removed by the devices 11 and enter the tank 17 / from, which is directed by the pump 18 to the destination. The clarified water through pipelines 13 is pumped by pumps 15 for subsequent purification. The sediment is washed with hydraulic wash 12 and pumps 16 through pipe 14 outside the construction. .

. In order to provide installation or repair of equipment installed in the machine room of the pump room 2, lifting and transport mechanisms 19 are used. All pipelines from the engine pumps are output through the gallery of pipelines 20.

The proposed hydraulic structure (Equipped with heating, ventilation and control panel of pump electric motors ((not shown,.

The design of the proposed hydraulic structure will expand its technological capabilities, i.e. it will ensure its operation in conditions of overflow of the sewage network and exclude pumping of untreated sewage even when the intensity of precipitation exceeds the estimated one.

In addition, the proposed design is simple and compact and allows to unify the structure by changing only one diameter of the receiving tank with a constant diameter of the machine room, depending on the area of the PROMPONATION within 30-90 hectares.

Claims (2)

(57 HYDROTECHNICAL STRUCTURE, containing a supply manifold and a pump room of a pumping station enclosed in a cylindrical housing located in a cylindrical receiving tank, revealing that, in order to expand technological capabilities while simplifying the design, the receiving tank is equipped with partitions with windows with dampers \ dividing it in sections, each of which is equipped with a device for removing floating impurities and pipelines for removing clarified water and precipitated sediment, φο βdynennymi with appropriate pumps the machine room, wherein the ratio of the volume of one section to the total volume of the reservoir corresponds to the ratio of minimum and maximum volumes of waste and the windows are located at the level of the inlet manifold. _with 2. Construction on π. 1, t l i- (8, characterized in that the device for removing floating impurities is made in the form of an annular tray located along the perimeter of the machine room at a level corresponding to the level of the minimum volume of clarified water. Figure 1 of the annular tray located around the perimeter of the engine room at a level corresponding to the level of the minimum volume of clarified water. In FIG. 1 shows the proposed hydraulic structure, general view, * in FIG. 2 is a section AA in FIG. one.