RU57628U1 - FILTER FOR CLEANING WATER - Google Patents

Abstract

Usage: The field of filtration, namely in liquid filters designed to purify water from suspended particles in the drain systems from grinding and polishing machines, in heating systems and recycling water supply of industrial and municipal facilities. The essence of the utility model: The filter for water purification contains an intermediate mesh filter element located in the middle of the filter housing between the coarse trap and the fine filter element and made of a mesh with a mesh size 2 ... 3 times that of the mesh of the filter mesh fine cleaning. The filter is equipped with a water collector made in the form of a perforated tubular ring with holes located over the entire surface of the ring. The collector is mounted on the filter cover on its inside. Effect: created a filter for water purification with a high degree of purification from suspended solids and a significant filter life between cleanings with disassembly of 1 n.p.f. and 2 zpf; 1 ill.

Description

The indicated utility model relates to filtering, namely, liquid filters intended for purifying water from suspended particles in drain systems from grinding and polishing machines, in heating and reverse water supply systems of industrial and communal facilities.

A known filter for water purification according to AS No. 563993 MPK ⁶ V 01 D 25/32, published in BI No. 25 08/15/77, containing a housing with inlet and outlet nozzles, a drain valve, a cover, a filter element and a cleaning device made in the form of a membrane mounted under the cover and connected by a stem with a drain valve. The disadvantage of this filter is the insufficiently effective system for cleaning the filter element, the presence of a membrane of elastic material. The loss of elasticity and elasticity of the membrane practically turns off the cleaning system of the filter element. A single-layer filter element very quickly loses performance, as it perceives all mechanical suspensions in the liquid. A diaphragm-opening drain valve, together with settled mechanical particles, releases a large volume of water, which also needs to be cleaned before disposal.

A known filter for wastewater treatment from suspended particles according to AS No. 184187 IPC ⁶ V 03 64/00, published in BI No. 15 on June 24, 2006, consisting of a cylindrical-conical housing located in the upper part of the conical diaphragm housing, an oil retaining shield, devices for supplying and discharging purified and purified water and an inner cylinder with a truncated inner base. The disadvantage of this filter is the absence of an active filter element, which

contributes to the removal of a significant mass of suspended particles in the drain line.

Known liquid filter for water purification and other low-concentrated suspensions according to AS No. 516408 IPC ⁶ V 01 D 25/32, published in BI No. 21 09/14/76, containing a housing with nozzles for introducing the cleaned liquid, drainage of the filtrate and washing liquid, a package filter nets fixed in rings and connected on the periphery by flexible rods, a drive for compressing and expanding a packet of filter nets, a double poppet valve equipped with a spring. The disadvantage of this filter is the complicated design of the compression mechanism and the expansion of the mesh filters, the need for a complex sealing system for its moving elements. The layered arrangement of strainers does not ensure their effective cleaning. The pulsating motion of the washing liquid ineffectively cleans the filter elements, and the absence of elements providing gravitational deposition of a part of the suspended particles leads to rapid contamination of the filter nets and necessitates frequent cleaning.

A device for cleaning liquid according to AC No. 2046669 IPC ⁶ V 03 B 5/62, published in BI No. 30 in 1995, comprising a housing with inclined plates arranged parallel to each other, a supply and drain pipe for outputting solid particles. Inclined plates by means of side additional external plates and jumpers are combined into modules. The upper edges of the first, starting from the drain pipe, and the last plate in each module are associated with additional inclined plates. They form, with the side walls of the module, open at the top and communicating with the atmosphere, liquid waste collectors. The upper edges of the last two plates and the lower edges of the second and last plates in each module are connected by jumpers interfaced with the side walls of the module. The lower edge of every third plate is located above the jumper. Connecting upper edges

jumper plates are located under the liquid waste collectors above the upper edges of the second in each plate module. The cavities under these jumpers are connected to the atmosphere. In the side wall of the device housing, for each module below the level of the liquid to be cleaned, an opening is made between the third and last plates for the outlet of the liquid to be cleaned.

The disadvantage of such a device for cleaning liquids is the need to organize a long loop-shaped path of movement of the cleaned liquid. This leads to the large dimensions of the entire device. With small volumes of cleaned liquid, the use of such devices becomes impossible. The use of inclined plates for cleaning solid particles is inefficient, since part of the particles settle on the plates without precipitating, and thereby reduce the channel cross section.

As a prototype, a device was taken - a filter for water purification AS No. 850138 MPK ⁶ V 01 D 29/00, published in BI No. 28 on 07/30/81, consisting of a body, a bottom and a cover. Inside the housing there is a filter element, inlet and outlet pipes. The filter is equipped with a trap of suspended particles, which is made in the form of a perforated reverse truncated cone. At the top of the cone there is a pipe for the input of purified water. The pipe is made in the form of a diffuser. The trap is placed in the housing between the bottom and the filter element. The filter element is made in the form of a hemisphere and is mounted on the lid with a bulge towards the trap. The outlet pipe is made in the form of a confuser with a passage section smaller than the passage section of the filter element. The disadvantage of this filter is that the filter mesh element perceives all suspended particles after the trap. The load on it is large, so it quickly becomes clogged and requires frequent cleaning. This is due to the disassembly of the filter and the removal of the mesh filter element, as the active cleaning system

absent, which leads to ineffective filter operation and maintenance costs.

The task of developing a utility model is to ensure the effective operation of the filter for wastewater treatment, increase the degree of purification, as well as increase the duration of the filter between its cleanings.

To achieve this objective, a filter for purifying water from suspended particles, including a housing with a bottom and a cover, is proposed. Inside the housing there are two mesh filter elements having the shape of a truncated cone and installed with small bases towards each other. In the middle part of the housing there is a pipeline for supplying purified water, ending with a diffuser. The suspended particles trap, made in the form of a truncated perforated cone, is located between the bottom and filter elements. The perforated cone is installed with the top down, and the diffuser of the inlet pipe is located in it. In the upper part of the body is the outlet pipe in the form of a confuser. The cover is equipped with an air valve and a collector for forced cleaning of the strainers and trap of suspended particles with a water shower. The conical bottom ends with a neck closed by a lid. In the middle of the bottom there is a fitting for draining the water accumulated above the settled sludge when cleaning the filter.

The degree of water purification from impurities is affected by the flow rate, the presence of hydroresistance, and the mesh size of the filtering nets. To increase the degree of wastewater treatment and to increase the duration of the filter, between the cleanings an intermediate filter is introduced located above the perforated trap. The mesh sizes of the filter mesh were selected 2 ... 3 times larger than the cells of the upper mesh filter located under the filter cover. To increase the duration of the entire filter under the cover is installed

perforated ring collector connected to the water main. This allows you to wash away the settled particles of sludge by intensive irrigation of the inner surfaces of the filter with their subsequent removal.

The following is a preferred embodiment of the proposed device.

The figure 1 presents a diagram of the proposed filter.

The wastewater filter contains a cylindrical housing 1 with a conical bottom 2, a cover 3 with a perforated annular collector 11. Inside the housing there are two mesh filter elements 4 and 5, made in the form of truncated cones and mounted on the inner flanges of the housing 1. Between the bottom and the filter element 5 placed a trap of suspended particles 6, made in the form of a truncated perforated cone. Perforation on the cone of the trap is made in the form of holes 7 located on concentric circles. The perforated truncated cone is installed with a small base down, in which the tip of the inlet pipe 8, made in the form of a diffuser, is located.

In the upper part of the housing 1, an outlet pipe 9 is installed in the form of a confuser, the minimum cross section of which is less than the through section of the filter element 4. The cover 3 is equipped with an air valve 10. The bottom ends with a neck closed by a cover 12.

The proposed filter for wastewater treatment is as follows.

Purified water with suspended particles of impurities enters the inlet pipe 8 and with a significant angle of expansion is directed to the top of the cone of the trap 6, where immediately under the influence of inertial forces and dead weight, large suspended particles fall out. Settled particles in the form of sludge accumulate on the conical bottom 2.

After rough cleaning, water enters the next intermediate cleaning stage in the middle part of the housing on the mesh filter element 5. After passing the middle cleaning step, water enters the fine cleaning in the upper part of the housing with a mesh filter element 4. The purified water is discharged through the confluent pipe 9 to the drain line , and the sludge is periodically removed through the neck in the bottom 2.

The accumulated air is removed through the valve 10 on the filter cover.

The perforated cone 6 lowers the pressure of the backflow of water in the trap and ensures the removal of possibly accumulated air from the liquid, which improves the process of purifying water from suspended particles.

When cleaning the inner surfaces of the filter through the nozzle 13 in the conical bottom 2, the clarified water is drained from the housing when the supply of the cleaned liquid to the pipeline 8 is stopped.

Clean water is supplied to the collector 11 from the pressure line. Through the holes in the collector, the inner surfaces of the filter elements 4 and 5, the housing 1, the trap 6 are abundantly irrigated with a water shower. In this case, the internal surfaces are cleaned, and the particles being washed off in the form of sludge are collected in a conical bottom 2 and removed through the neck.

Claims (3)

1. The filter for water purification, comprising a housing with a bottom and a cover, inside of which there is a mesh filter element made in the form of a truncated inverse cone, an inlet pipe made in the form of a diffuser, an outlet pipe made in the form of a confuser, a suspended particle trap made in in the form of a perforated reverse truncated cone with holes located in concentric circles, characterized in that the filter is equipped with a water collector and an intermediate mesh filter element made in de truncated cone and placed in the housing between the trap and the upper filter element. 2. The filter according to claim 1, characterized in that the intermediate mesh filter element is made of mesh with a cell size 2 ... 3 times the cell size of the upper filter element. 3. The filter according to claim 1, characterized in that the water collector mounted on the lid inside the housing is made in the form of a tubular ring with holes located over its entire surface.