RU2091176C1 - Device for cleaning waste and other liquids - Google Patents

Abstract

FIELD: cleaning of waste water and other liquids. SUBSTANCE: device includes filter, hydraulic cyclone and sediment collecting hopper. Filter element is made in form of horizontal detachable perforated disk with any filtering material. In center of disk there is scraper mounted on shaft and made in form of rectangular plates located oppositely and additionally provided with controllers for working layer on filtering surface which are provided with cutting appliances in head portion in way of rotation of scraper and with pressing appliances in tail portion. Lower part of filter housing is connected with hydraulic cyclone whose taper portion includes two truncated cones with circular space between them; lower portion of hydraulic cyclone is connected with sediment collecting hopper. EFFECT: enhanced efficiency. 2 cl, 1 dwg

Description

 The invention relates to devices for purification and clarification of wastewater of various origins and other liquids from suspended particles of impurities, in particular to apparatus for filtering contaminated water in oil refining and petrochemicals and at car wash stations, including with reverse water supply systems.

 A known filter for wastewater treatment [1] is made in the form of a vessel with inlet and outlet pipes, divided internally into two chambers of different volumes by a vertical mesh filtering partition. The efficiency of such a filter is a variable, initially increasing (with the formation of a working layer on the filter surface and increasing its thickness to optimal), and then, as the filter clogs, it falls, which requires stopping the device for backwashing or changing the filter.

 A device is known for mechanical wastewater treatment [2] in a cylindrical container of which a treatment system is located, including precipitators, scrapers, a ring with a rotation mechanism, a central support and screeds, in the upper part of which precipitators are installed made in the form of hollow concentric elements of triangular section, and at the bottom are scrapers. This system is difficult to manufacture and very metal intensive.

 For cleaning and washing the mesh conical filter element, a rotating device is placed inside the latter, on the outer surface of which a spiral dirt collector is made [3] However, this device does not provide the creation of an optimal working layer on the filter surface of the element.

 A self-cleaning filter (its variants) [4] is known, in the housing of which a cylinder-conical filter element is installed for rotation, comprising a scraper element in the housing. The complicated design of the filter provides only self-cleaning continuity, but does not optimize the thickness of the working layer on the filter surface.

 Closest to the proposed device is a filter VSF [5] including a housing with inlet and outlet pipes, a hollow vertical shaft with a drive, a horizontal perforated disk with a filter element and a flushing box. The disadvantage of this filter is the low degree of water purification, since it does not provide the optimal thickness of the working layer on the filter surface.

 The proposed device eliminates the inherent prototype and a number of well-known analogues of the disadvantages. This is achieved by using a device for treating wastewater and other liquids, including a filter, hydrocyclone, inlet and outlet pipes, a scraper with a shaft and a drive, and a hopper for collecting sludge. The filter element is made in the form of a horizontal detachable perforated disk with any filter material, in the center of which a scraper is placed on the shaft, made in the form of opposing rectangular plates, equipped with additional controllers of the working layer on the filter surface, containing a cutting part in the head in the direction of rotation of the scraper, and in the tail part of the ironing device, the lower part of the filter housing is combined with a hydrocyclone, the conical part of which is made in the form of two overturned x relative to each other of the truncated cones with an annular space therebetween for discharging sludge in the hopper.

 The drawing shows a diagram of the proposed device.

 The hydrocyclone 1 with the inlet pipe 2 is combined with the lower part of the filter housing 3 with the outlet pipe 8, in which a horizontal disk filter element 4 is placed, in the central part of which a scraper is fixed on the shaft 6 with the drive 5. The lower part of the hydrocyclone 1 is connected to the hopper 9 for sediment collection.

 The device operates as follows.

 The raw raw water enters through a nozzle 2 into a hydrocyclone 1, in which it is freed from large inclusions, penetrates through a filter element 4 and is discharged through a nozzle 8 for further purification or use in a circulating system. Particles suspended in water are retained on the filter element, forming a working layer, and with further growth of the latter they can finish off the filter and cause the device to stop, rinse or change the filter element. Thanks to the scraper 7 rotated on the shaft 6, the excess part of the working layer is continuously cut off and the necessary part remaining on the filter surface is ironed. The cut off sediment is discharged through a hydrocyclone 1 into the hopper 9.

 The filtering efficiency is increased due to the preliminary separation of large inclusions, the creation and continuous maintenance of an optimal working layer on the filter surface due to the shearing-ironing design of the scraper.

 The advantage of the proposed device, along with the increased duration of continuous filtering, are low metal consumption and energy consumption, as well as a decrease in the height of the dimensions of the device.

Claims (2)

 1. A device for treating wastewater and other liquids, comprising a housing in which a filter element is arranged in the form of a horizontal detachable perforated disk with filter material, an inlet and outlet pipe, a scraper with a shaft and a drive, a hopper for collecting sludge, characterized in that the scraper made in the form of oppositely arranged rectangular plates and placed on a shaft passing through the center of the disk, while the lower part of the body is made in the form of a hydrocyclone from two oppositely directed truncated cones s, which form an annular space between themselves, and is connected to a hopper for collecting sediment.  2. The device according to claim 1, characterized in that the rectangular plates are equipped with additional controllers of the working layer on the filtering surface, containing cutting parts in the head along the side of the scraper rotation and ironing devices in the rear part.