RU2446856C1 - Filter - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to filtration of fluids and may be used in chemical, oil processing, automotive industries, etc. Proposed filter comprises casing with outlet branch pipes accommodating cylindrical perforated barrel with conical bottom. Hollow perforated rod is arranged axially symmetric inside said barrel. Perforated barrel cover represents truncated cone with hollow cylindrical ledge with closed top part fitted on perforated hollow rod to axially displace thereabout. Branch pipe arranged on rod end is rigidly fitted in casing and bottom to feed fluid to be filtered. Filtration element is arranged between barrel wall and perforated rod and made up of bed made from elastic porous deformable filtration material. Said filtration element is glued to barrel bottom and cover and compressed before filtration by coil spring tightly fitted on cover cylindrical ledge to rest on casing.

EFFECT: higher contaminant capacity, longer life.

3 cl, 1 dwg

Description

The invention relates to the field of filtering, in particular to liquid filters, intended mainly for the purification of hydrocarbon liquids from mechanical impurities and water, and can be used in chemical, oil refining, automotive and other industries.

To improve the performance of the filter and extend its life, methods of forced regeneration are widely used, which, after the filtration process, can restore or improve the dirt capacity of the filter.

A known filter that is designed to implement the method of cleaning the filter element according to the copyright certificate of the USSR No. 1274727, IPC B01D 29/38, publ. 1986, and serves to clean the particles of the dispersed phase. The filter according to the indicated certificate consists of several layers of a metal filter mesh having a diamond-shaped mesh at the filtering stage due to external compressive force and a square mesh at the regeneration stage due to external tensile force. By moving the wire mesh, the separation of the contaminant particles and their removal by the backwash fluid from the filter is ensured. However, this design of the filter has the complexity associated with the need to ensure periodic deformation of the cells, and as a result, leads to an increase in the cost of production and operation, and also has a low degree of purification.

A known filter for cleaning liquid or gas according to patent RU 2254901, IPC B01D 29/62, B01D 29/48, B01D 46/00, publ. 06/27/2005. The filter contains a frame in the form of a spring and a hollow perforated rod placed coaxially inside the frame. A fixed cover is attached to the lower part of the stem, and an upper cover is attached to the upper end of the spring, which is mounted on the stem with the possibility of axial movement. The filter surface is a filter cloth worn on the coil of the spring along its entire length. To ensure regeneration, the spring is made in the form of a tube uniformly perforated along the entire length, and is equipped with a nozzle for supplying flushing water or purge gas. This design reduces regeneration time, increasing filter performance. However, such a filter design is difficult to manufacture and use and therefore not economically viable.

Known cartridge filter according to the author's certificate of the USSR No. 1722531, IPC B01D 27/00, publ. 1992, designed to clean the particles of the dispersed phase. This known filter, the closest in technical essence to the claimed, and adopted as a prototype. The cartridge filter contains a spring-shaped frame fixed by end caps, a regeneration device made in the form of a hollow perforated rod mounted axisymmetrically, and on which the lower cover (filter bottom) is fixedly mounted, and the upper one is mounted with axial movement. In the lower part of the rod there is a pipe for draining the filtrate and supplying flushing liquid or gas. On the side surface of the frame placed filter material from a tubular elastic fabric. Compression and tension of the spring with the filter material is forcibly carried out using a nut screwed onto the stem. When the filter is in operation, the material allows for the smallest distance between the upper and lower covers and the greatest compression of the micropores in the filter material to catch particles smaller than the mesh size of the filter material in a free state. However, such a filter design does not allow effective cleaning of hydrocarbon liquids from mechanical impurities, since it does not provide a gradual decrease in pore size along the flow of the filtered liquid, and the initial porosity of the filter material decreases with the accumulation of contaminants in the filter, which results in poor cleaning quality; filter washing is required. Hence the increase in performance of such a filter is due to regeneration.

The objective of the invention is to increase the filter performance by increasing the operating time of the filter element without forced regeneration, thereby increasing the efficiency and service life of the filter before replacing the filter material while maintaining the quality of cleaning.

The technical result that allows us to solve the problem lies in increasing the dirt capacity of the filter directly during the filtration process by automatically adjusting the first space in the filter material in the course of liquid filtration and in increasing the volume of the pore space as dirt accumulates in the filter material.

The technical result aimed at solving the problem is achieved as follows.

The inventive filter, as well as the prototype, contains a frame with a bottom and a cover, a filter element made of porous elastic deformable material fixed between the bottom and the cover, a hollow perforated rod mounted axisymmetrically inside the frame and ending with a nozzle fixedly mounted in the bottom of the frame, and the frame cover is installed on the stem with the possibility of axial movement.

Unlike the prototype, the filter according to the invention further comprises a housing with an outlet pipe, and a pipe at the end of the rod is fixedly mounted in the housing and is a pipe for supplying a filtered fluid. The frame is freely placed inside the body and is made in the form of a cylindrical perforated glass with a conical bottom, and the frame cover is made in the form of a truncated cone with a cylindrical hollow and top-closed protrusion mounted on a hollow perforated rod with the possibility of axial movement. In addition, the filter is equipped with a cylindrical coil spring, which is tightly mounted on the cylindrical protrusion of the cover and rests against the housing, and the filter element is made by stuffing the filter material between the walls of the frame and the perforated rod and glued to the bottom and cover of the frame. In special cases of execution, the difference is also that by means of a spring put on the protrusion of the cover, the filter element is compressed before filtering, the filter element is made of polyurethane foam PPU-EO-130.

In the inventive filter, which includes a filter packing pressed out by a bottom and a cover by means of a spring mounted on a lug protrusion, purposeful molding is provided to gradually reduce the pore size along the flow of the filtered liquid. The initial porosity of the filter pack increases with the accumulation of contaminants in the filter due to the appearance of new pores in the space between the parts of the filter material in the pack due to the pressure drop inside and outside the filter pack and deformation of the filter material, thereby increasing the dirt capacity of the filter. Therefore, the quality of cleaning does not decrease and the filter life until the filter pack is replaced is increased.

The presence of a conical bottom and cover provides targeted molding of the filter packing and reduces pore size along the flow of the filter. In this case, the movable conical cover as the pores of the filter material are clogged by the internal pressure of the liquid, compressing the spring, can move upward, gradually increasing the volume of the filter material adhered to its surface, i.e. the volume of pore space, while the quality of treatment does not change, because the sediment in the pores increases the pore volume and begins to act as a filter, providing additional porosity. Therefore, the dirt capacity and, consequently, the filter life increase.

The set of essential features that characterizes the claimed invention in known sources of information is not found. This confirms the novelty of the invention.

In known technical solutions, for example, in the above filters, according to USSR copyright certificates No. 1274727, 1722531, according to RU patent No. 2254901, to increase the filter service life after filtering is completed, the filtering material is forcedly stretched to wash pores from pollutants. In the inventive filter, as in the filter according to patent RU No. 2254901 and in the filter according to the prototype, the filter element in the initial state is also compressed by means of a spring. But to stretch the filter element (for washing) in known filters, the spring is forcibly straightened after filtration. In the inventive filter, the stretching of the filter material occurs automatically by compression of the spring during filtration. At the same time, the volume of pore space increases and the dirt capacity increases.

In the prior art, no filters have been identified in which an increase in their dirt capacity and, as a result, an increase in its life before replacing the filter pack would be automatically solved by increasing the pore volume when moving the movable conical cover, which compresses the spring, with the same quality of cleaning when the sediment is contaminated begins to fulfill the functions of a filter. Despite the simplicity of the technical solution, the invention does not explicitly follow from the prior art, which means that it meets the criterion of "inventive step".

The invention is further illustrated by the drawing, which shows the inventive filter.

The filter consists of a housing 1 with an inlet pipe 2 at the end of the perforated rod 3. Inside the housing 1 there is a cylindrical perforated glass 5 with a conical bottom 6. The filter contains a filter element 4 in the form of a packing of an elastic deformable porous material enclosed between the bottom 6 of the stationary glass 5 and movable conical cover 7 and glued to them. The cover 7 is made with a hollow cylindrical protrusion, on which a spring 8 is tightly mounted, abutting against a seat in the housing 1. An outlet pipe 9 serves to drain the filtrate.

Filter operation example.

In the normal state, before filtering, the filter material 4 is compressed by the cover 7 and the bottom 6 by means of a spring 8. The force of pressing the spring is selected from the condition of equality of the force necessary to keep the clean elastic filter pack in a compressed state. The filtered fluid enters the inlet pipe 2 and through the perforation of the rod 3 into the filter packing 4 (flow from inside to outside). In this case, the conical bottom 6 and the cover 7 provide targeted molding of the filter packing 4, providing a reduction in pore size along the flow of the filter. Then, through the perforation on the side surface of the glass 5, the filtered liquid enters the filter housing 1 and through the outlet pipe 9 comes out. As a filter packing, a deformable elastic porous material, for example, polyurethane foam PPU-EO-130, is used. As the pores of the filter material are clogged, a pressure differential occurs inside and outside the filter packing. In this case, the movable conical cover 7 under the action of the internal pressure of the liquid, compressing the spring 8, can move upward, gradually increasing the volume of the filter material adhered to its surface, i.e. the amount of feather space, while the quality of cleaning does not change, because the sediment in the pores begins to act as a filter. Thus, the dirt capacity and, consequently, the filter life are increased.

The selection of the geometric parameters of the upper movable conical cover 7 and the characteristics of the spring 8, you can set the required and permissible operating modes of the filter before replacing the filter packing 4. Moreover, during the operation of the filter, all of its accessories can serve as long as you like. Only filter packing 4 is subject to replacement, which will reduce the cost of manufacturing and operating the filter.

Claims (3)

1. A filter comprising a frame with a bottom and a cover, a filter element made of a porous deformable filter material fixed between the bottom and the cover, a hollow perforated rod mounted axisymmetrically inside the frame and ending with a pipe fixedly mounted in the bottom of the frame, and the frame cover is mounted on a rod with the possibility of axial movement, characterized in that it further comprises a housing with an outlet pipe, and the pipe at the end of the rod is fixedly mounted in the housing and is a pipe for filterable fluid, the frame is freely placed inside the housing and made in the form of a cylindrical perforated glass with a conical bottom, and the frame cover is made in the form of a truncated cone with a cylindrical hollow and top-closed protrusion worn on a hollow perforated rod with the possibility of axial movement, in addition , the filter is equipped with a cylindrical coil spring, which is tightly mounted on the cylindrical protrusion of the cover and abuts against the housing, and the filter element is made by stuffing with an elastic filter them the material of the space between the walls of the frame and the perforated rod and glued to the bottom and cover of the frame. 2. The filter according to claim 1, characterized in that by means of a spring the filter element is compressed before filtering. 3. The filter according to claim 1, characterized in that the filter element is made of polyurethane foam PPU-EO-130.