RU2625670C1 - Slime pump for radial secondary sediment - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: slime pump consists of a farm 1, a discharge chute 2, a central support 5, a system of suckers 7 and a system of scrapers. The discharge chute 2 is formed with, at least, one longitudinal baffle 6 located along the chute 2, which divides the chute 2 into independent parts 7. The individual suckers or groups of suckers 7 are configured to operate independently, except for mixing slime they extract by supplying this slime to different portions 7 of the chute 2.

EFFECT: invention allows to increase the effectiveness of the slime pump operation.

3 cl, 3 dwg

Description

The invention relates to the field of wastewater treatment, in particular to devices for separating activated sludge from biologically treated water leaving aeration tanks.

Known secondary radial sump Eurasian patent No. 017021 (published 2012.09.28). The sludge farm is made in the form of a bridge, which in plan is an isosceles triangle, the top of the triangle is located on the central support, and the drive system is on its base.

The activated sludge removal mechanism is made in the form of two trays located directly under the sides of the pedestrian farm and rotating with it. Each tray has a series of bottom suckers for collecting sludge, the amount of which varies depending on the diameter of the sump.

The disadvantages of the sludge pump is the high metal consumption of the sludge pump and the inability to separate sludge flows from various suckers.

The technical result, to which the invention is directed, is to increase the efficiency of the sludge pump by reducing the metal consumption of the sludge pump while ensuring the separation of sludge flows from individual suckers or groups of suckers.

The technical result is achieved in the following device.

The ilosos, consisting of a truss, a discharge tray, a central support, a system of suckers and a system of scrapers, is installed inside the sump bowl, which consists of the side and bottom of the sump. The farm is driven (rotated) from the gearmotor by means of rollers that move along the side of the sump. Rotating, the farm carries suckers with scrapers, which, due to hydrostatic pressure, supply activated sludge to the outlet tray, from where the sludge is sent to the central support and then to the outlet pipe. To prevent mixing of sludge extracted from different sections of the bottom of the sump, which is necessary for separating sludge with different particle sizes, the sludge is made with a tray, which is divided into independent parts by at least one partition located along the tray, with individual suckers or groups of suckers feed sludge to different parts of the tray. In the manufacture of such a tray, a general decrease in the metal consumption of the sludge is achieved in comparison with the use of two separate trays of the same cross section for independent removal of sludge from individual suckers or groups of suckers, due to the exclusion of the walls of one of the trays.

The outlet trays can be made with constant or variable rectangular cross-section along their length. In the case of a variable cross-section, an additional reduction in the metal consumption of the sludge pump is achieved, the tray is installed in such a way that the cross-section of the tray is minimal in the vicinity of the side of the sump, so that in the area of the closest suction board the cross-section of the tray is equal to or greater than the cross-section of the pipe of this pine, and in the region of the central support - maximum, so that in the area of the closest to the central support of the pine tree cross-section of the tray was not less than the sum of the cross-sections of all the suckers from which the sludge is fed into this tray. Due to the variable cross-section of the tray, the bottom of the tray can also deviate from the periphery of the sump to its center, which facilitates the movement of sludge extracted by the suckers to the central support and then to the discharge pipe. Moreover, part of the outlet tray is made variable in cross section, with an increase in the cross section from the side to the central support, while in the area of attachment to this part of the tray closest to the board of the pine tree, the section of the tray part is no smaller than the pipe section of this pine, and in the joining area of the sucker closest to the central support, the section of the tray part is not less than the sum of the sections of all the suckers from which the sludge is fed into this part of the tray.

The above shows that the combination of the claimed features ensures the achievement of the goal, namely it allows to increase the efficiency of the sludge pump.

In FIG. 1 shows a general view of the ilosos; in FIG. 2 - a tray with a partition; in FIG. 3 - tray with a partition with connected suckers.

The ilosos consists of a farm 1, a discharge tray 2 and a system of suckers 3, is installed inside the sump bowl, consisting of a side 4, a bottom and a central support 5. The farm is driven (rotated) from the gearmotor by means of rollers that move along the side of the sump. Rotating, the farm carries suckers with scrapers, which, due to hydrostatic pressure, supply activated sludge to the outlet tray, from where the sludge is sent to the central support and then to the outlet pipe.

Under the farm there is one outlet tray 2, divided along one or more partitions 6. Partitions 6 divide the outlet tray into independent parts 7, which are necessary to ensure the independent operation of individual suckers or groups of suckers, as well as to exclude mixing of the sludge they collect.

Thus, the technical result of the invention is achieved in the form of increasing the efficiency of the sludge pump by reducing the metal consumption of the sludge pump while ensuring the separation of sludge flows from individual suckers or groups of suckers.

Claims (3)

1. Ilosos, consisting of a truss, an outlet tray, a central support, a system of suckers and a system of scrapers, characterized in that the outlet tray is made with at least one longitudinal partition located along the tray, which divides the tray into independent parts, and separate the suckers or groups of suckers are configured to provide independent operation with the exception of mixing the sludge extracted by them by feeding this sludge to different parts of the tray. 2. Ilosos according to claim 1, characterized in that the outlet tray is made variable in cross section, with an increase in the cross section from the side to the central support, while in the area of attachment of the closest pine to the side, the cross section of the tray is no smaller than the pipe section of this pine, and in the area of joining of the sucker closest to the central support, the cross-section of the tray is not less than the sum of the cross-sections of all the suckers from which the sludge is fed into this tray. 3. Ilosos according to claim 1, characterized in that at least one part of the outlet tray is made variable in cross section with an increase in the cross section from the side to the central support, while in the area of connection to this part of the tray the section of the tray closest to the board made not less than the cross section of the pipe of this sucker, and in the area where the suction pipe closest to the central support joins, the section of the tray part is no less than the sum of the cross sections of all the suckers from which the sludge is fed into this part of the tray.

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