SU633817A1 - Grate for removing fouling from waste water - Google Patents

Claims (2)

The invention relates to the cleaning of moving liquids from large contaminants, for example, when cleaning a washing machine pumped by a pumping unit to protect it from breakage and other malfunctions that occur when large contaminants get caught. There are known grids for trapping large loads knowledge. They contain a fixed lattice itself and a sports wagon with movable rakes to remove them from the fixed lattice of soils and remove them from the fluid i. The effectiveness of such devices during operation is reduced, as when cleaning with a rake moving in front of the grate along the flow of fluid, large soils push the rake through the grate towards the cleaned fluid, and when cleaning with a rake resting behind the grate along the flow of the fluid knowledge those that do not pass through the arches overlap the lattice flow area, reduce fluids, and, consequently, the cleaning rate of the fluid volume. In addition, when rubbing rakes with contaminants on a fixed grid, there is an intense wear of the sliding parts and their breakage is possible. Also known is a grate for removing contaminants from wastewater, including a conveyor with a filtering web and devices for regenerating the filtering web 2. A disadvantage of this device is the high metal consumption of the structure and unreliability in operation, since metal parts in the water quickly exit short-circuit systems. In the proposed grid, the conveyor belt filter fabric is made of sections including elastic cylindrical nozzles adjacent to each other along the generators, each section being provided with a tray. Figure 1 shows the lattice, side view; figure 2 is a view along arrow A in figure 1; on fig.Z - section bb in figure 2. The grille is integrated in a conveyor having a drive wheel 1, a driven wheel 2, an ascending branch 3 of the conveyor belt and a descending branch 4. The side chains 5 of the conveyor belt are connected with rods 6, on which elastic pipes (rubber) 7 are lowered. Thanks to that the distance with rods 6 is equal to the diameter of cylindrical pipes 7, the latter are connected to each other along the generators. The nozzles are approximately coaxial with the flow direction of the fluid. Part of the nozzle; {s equipped with trays 8, protruding above the plane of the other nozzles and dividing the canvas into sections. The cylindrical profile of the bottom 9 of the tank under the grille is aligned with the driven wheel 2 of the conveyor. The conveyor has a slope to the vertical in the direction of the descending branch 4, above the upper part of which there is a container 10 for collecting soils, padakndih from the conveyor belt. The lattice works as follows. The conveyor belt moves counterclockwise (fluid flows from right to left). The liquid passes through the nozzles 7 and trays 8 of the canvas of the conveyor. Large soils of delaying the conveyor belt in the nozzles 7 and trays 8 either roll into the cylindrical part of the bottom 9 under the conveyor and are caught there by trays 8. When the contaminants move to the downward branch 5, the soils fall into the container 10, which is periodically empty . 6 4 Contaminants that are stuck in the pipes 7 and 8 are released on the descending branch 4 when moving around the driven wheel 2 due to the elastic compression of the internal part of the pipe and the expansion of the external one. In this case, cyiiwH are centrifugal force and throttling. As a result, all of the gaps are cleaned continuously. Claims for removing contaminants from wastewater, including a conveyor belt with a filtering web and a device for regenerating a filtering web, characterized in that, in order to reduce the metal structure, improve the lattice reliability and improve the efficiency of wastewater water, the filter conveyor belt is made of sections, including elastic cylindrical nozzles adjacent to each other along the generators, each section being equipped with tray. Sources of information taken into account during the examination: 1 ... I Kovlev S.V. Kalitsun V.N. Mechanical sewage treatment. M., 1972, p. 4-16. 2. USSR author's certificate t; .273745, cl. C 02 C 1/18, 1968. i .2