RU2561098C1 - Build up lamellar filter - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: build up lamellar filter contains device casing, filter elements and intake nozzle. The filter elements are made in form of hollow perforated plates lined with mesh, located in central part of the casing, and using the couplings are connected with receiving vessel, that is connected with cleaned water silo, its location can be regulated through height using the geared motor. In top part the casing is provided with column, on which the brushes are installed with possibility of vertical reciprocating movement along the filtering elements. In bottom part of the casing there is bottom scrap conveyor, its movement is ensured by the motor.

EFFECT: high cleaning degree.

3 cl, 4 dwg

Description

The invention relates to water purification in the alluvial layer and can be used in enterprises for the purification of water and aqueous liquids.

Known filter element and filter for water purification according to application No. 2009138386 (IPPM SB RAS Tomsk). The filter element contains a perforated frame, on each side of which there is a filter material and one layer of protective material, while the frame, protective material and filter material are fixed along the contour in the form of a flat rectangle, square, etc. The filter element is used in a filter that contains a chamber with inlet and outlet for water. The filter elements are housed in a casing and operate sequentially.

The specified filter element is non-regenerable, the duration is limited, the layers of thin filter material allow it to be used on small volumes due to performance limitations, there is no possibility of purifying water from dissolved particles contaminating it.

Known filter device according to patent No. 2004126588, comprising several substantially horizontal filter zones located one above the other in the direction of the vertical central axis of the filter, with which at least one central distribution pipe, at least one common non-filtrate channel for passing the filtered liquid are connected (non-filtrate), as well as at least one common filtrate channel for draining the filtered liquid (filtrate) and from which each zone has at least one a filter layer that is worn on the filter element and is intended to wash at least one wash-up layer formed by at least one filter aid and separating the filtrate collection zone that exits into the filtrate channel from the sludge cavity located above it and which also contains a filter element and covering the central axis of the filter, an annular receiving pipe, which enters along its periphery at a larger, first radial distance from the central axis of the filter the outlet to the sludge cavity and at a shorter, second distance from the central axis of the filter has at least one inlet for non-filtrate in communication with the non-filtrate channel, while the output of the non-filtrate channel surrounded by filter zones is provided in the region of the central axis of the filter, characterized in that each filter the element and / or group of filter elements is provided with at least one fluid valve located in the drain of the filtrate.

In the known filter device there is no possibility of regeneration, which makes it impossible for its continuous operation.

The technical problem is to develop the design of the in-wash filter with a filtering time an order of magnitude higher than the time of its regeneration with a high degree of purification from both suspended and dissolved particles.

The technical problem is solved by the claimed device.

The washing lamella filter includes a device body, filter elements and a receiving pipe, characterized in that the filter elements are made in the form of hollow perforated plates covered with a mesh, are located in the central part of the body and are connected to the receiving vessel by means of couplings, which is connected to the purified water tank , the position of which can be adjusted in height using a gear motor, also in the upper part of the body is equipped with a column on which brushes are installed with the possibility of vertical reciprocating stupid movement along the filter elements. In the lower part of the body there is a bottom scraper conveyor, the movement of which is provided by an electric motor. The movement of the brushes can be transmitted using a gear motor, which is mounted on the column.

The invention is illustrated by the figures:

In FIG. 1 shows a main view of the device;

In FIG. 2 shows a side view of the device;

In FIG. 3 shows a plan view of the device;

In FIG. 4 shows the filter lamellas in the cleaning mode.

The inventive device includes a housing 1 provided with a receiving pipe 2 for purified water. In the lower part of the casing there is a bottom scraper conveyor 3, the movement of which is ensured by an electric motor 4. In the central part of the casing there are installed filter elements 5, which are hollow perforated plates covered with a mesh. The filter elements 5 with the help of couplings 6 are connected in parallel with the vessel 7. The vessel is connected to the hopper 8 for purified water, the position of which is regulated in height by means of a gear motor 9. In the upper part, the housing is equipped with a column 10 on which brushes 11 are mounted with the possibility of vertical reciprocating movement along the filter elements 5. The movement of the brushes can be transmitted using, for example, a gear motor 12, which is mounted on the column 10 (Figure 2).

The inventive device operates as follows: in the housing 1 through the inlet pipe 2 serves purified water. When the water reaches the level of the filtering elements 5, a washing process begins: the water passes through the mesh, and the flocculent deposits coagulating at the previous stages of cleaning clean it on the outside of the mesh, thereby forming an alluvial layer. During the washing process, the purified water after the filter elements 5 is fed through the pipe 2 back to the cleaning. Washing occurs until the surface of the filter elements 5 is completely covered with a thin uniform alluvial layer. After that, the cleaning process begins: mechanical suspensions located in the water to be purified, settle in the alluvial layer on the surface of the filter elements. As they pass, water flows into the vessel 7 and then through the flexible hose to the hopper 8, the position of which is adjusted in height using, for example, a gear motor 9. The hopper and the vessel in this case play the role of communicating vessels. Therefore, the higher the hopper, the higher will be the column of water in the vessel 7, which, accordingly, will slow down the movement of water through the filter elements. Thus, the necessary speed of water treatment is adjusted. When the grids on the filters are contaminated by means of a gear motor 12, the brushes are lowered and the sludge particles and the alluvial layer deposited on the filters are removed. Further, the above process is repeated.

Cleaning the filter elements is carried out directly during operation of the device, which allows the maximum use of the claimed device in time. The sludge settled at the bottom is removed using the bottom scraper conveyor, which can operate continuously or turn on periodically depending on the contamination of the water and the deposition rate.

Claims (3)

1. Washer lamella filter, including the device housing, filter elements and a receiving pipe, characterized in that the filter elements are made in the form of hollow perforated plates covered with a mesh, are located in the central part of the housing and are connected to the receiving vessel by means of couplings, which is connected to the hopper for purified water, the position of which can be adjusted in height using a gear motor, also in the upper part the casing is equipped with a column on which brushes are installed with the possibility of vertical return -postupatelnogo movement along the filter elements. 2. The device according to p. 1, characterized in that in the lower part of the housing is located a bottom scraper conveyor, the movement of which is ensured by an electric motor. 3. The device according to p. 1, characterized in that the movement of the brushes can be transmitted using a gear motor that is mounted on the column.

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