RU154005U1 - CONE FILTER - Google Patents

Abstract

1. The cone filter containing a cone filter insert mounted on a ring hermetically fixed between one of the housing flanges and the pipe pipe flange, characterized in that the ring has a cylindrical protrusion centering the filter insert in the housing, the filter insert being made in the form of a polyhedral pyramid, each side of which is made of profiled wire of triangular section, mounted on stringers parallel to each other with a distance equal to the size of the filter gap. 2. A cone filter according to claim 1, characterized in that the stringer is perpendicular to the axis of the housing, and the profiled wire forming a filter gap is located along its axis. 3. A cone filter according to claim 1, characterized in that the filter insert is made of stainless steel. 4. A cone filter according to claim 1, characterized in that a fairing with a centralizer is fixed at the top of the pyramid of the filtering insert. 5. A cone filter according to claim 4, characterized in that the centralizer is made in the form of plates or rods abutting against the inner side surface of the housing. 6. The cone filter according to claim 5, characterized in that according to the external diameter described around the plates or rods, they can be connected by a centralizer ring, the diameter of which is equal to the inner diameter of the housing.

Description

The utility model relates to the oil industry and is intended for purification from mechanical impurities when passing through pipelines of liquid and gaseous media.

Known cone filter of a borehole according to the patent of the Russian Federation for utility model No. 51665. The conical filter of the borehole includes a frame, a wire spiral wound on it and a gripping device, characterized in that a thread is made on the outside of the cone filter on the outside for screwing into the thread of the lower part of the casing. The disadvantage of the conical filter of the borehole is that it cannot be used to clean liquid and gaseous media from mechanical impurities in pipelines.

A known filter according to the patent of the Russian Federation for invention No. 2535050. The invention is intended for the purification of liquids from mechanical impurities and can find application in various industries, mainly in the chemical, oil refining and automotive industries for the purification of hydrocarbon liquids. The filter contains a rigid cylindrical frame closed from the ends and a compressed filter element of elastic porous material, the degree of compression of which increases in the direction of flow of the liquid being cleaned. The frame is impermeable in the form of a housing with a bottom, a cover, inlet and outlet nozzles. The filter further comprises an adjusting sleeve with an external thread and a perforated plate mounted in the lower part of the housing and made with a central threaded hole into which the said adjusting sleeve is screwed. A conical hole is made in the center of the adjusting sleeve, facing a large base to the housing cover. The filter element is equipped with a compression frame made of a deformable sheet metal rolled in the shape of a truncated cone and an upper perforated cover. The lower end of the frame with the filter element is tightly installed inside the conical hole of the adjusting sleeve. The disadvantage of the filter is its high hydraulic resistance and design complexity.

Known slotted centrifugal filter according to the patent of the Russian Federation for the invention No. 2427413. The invention relates to filtering, and in particular to cartridge filters designed for the purification of acidic solutions in radiochemical and other industries. The centrifugal slit filter contains a vertically arranged housing, consisting of an upper cylindrical part, a lower part in the form of an inverted truncated cone, an upper cover and a lower cover with a nozzle for supplying a cleaned medium, a coaxially located filter cartridge with evenly distributed slots, a cowl, a flow swirl made of blades fixedly mounted on the fairing and having end conical bevels, a nozzle, the inlet of which is connected to the bottom cover of the body and is equipped with about the perimeter of the grooves, and the output has an inclination angle equal to the angle of inclination of the conical bevels of the blades. The nozzle and the conical wall of the housing form an annular pocket, which is the receiving chamber. The nozzle inlet is centered in an annular groove grooved in the lower housing cover. The disadvantage of the filter is its high hydraulic resistance.

Known downhole filter according to the patent of the Russian Federation for the invention No. 2334081. The invention relates to the oil and gas industry and can be used in the extraction of oil from wells using borehole electric pumps. The downhole filter includes a housing in the form of two coaxially arranged pipes with side openings for the passage of the filtered fluid, two conical bushings connecting the ends of the filter element to the ends of the pipes. A filter element is fixed in the space between the pipes. The upper and lower locks with centralizers are attached to the filter housing with threaded connections. In the upper part of the filter is an electro-acoustic transducer equipped with a device for its connection to a current-supply cable. The length of the filter and the length of the filter element are multiples of the half-wave length of ultrasonic vibrations excited by an electro-acoustic transducer. The technical result is the preservation of the working flow rate of the well by repeatedly restoring the filter capacity due to its regeneration without extraction from the well. The disadvantage of the downhole filter is the need for power supply to the electro-acoustic transducer.

Known mechanical filter according to the patent of the Russian Federation for invention No. 2329086. The invention relates to equipment for cleaning liquid and can be used in pipeline systems of various technological installations, where when operating under pressure, it is necessary to purify water from mechanical impurities that adversely affect the operation of pumping units, shutoff valves, heat exchangers, other devices and mechanisms. The filter includes a housing with inlet and outlet nozzles, a pipe installed inside the housing with longitudinal slotted slots and a filtering mesh element. The pipe is connected to a conical diffuser. Longitudinal slotted slots are made on the pipe in the inner part of the diffuser and are evenly spaced around its perimeter. A filter element is installed around the pipe. The housing by means of a throttle annular diaphragm is divided into two parts - the upper and lower with the formation of an annular gap between them, and the volume of the lower part of the housing is greater than the volume of its upper part. In parallel with the filter along the working fluid, a second filter of the same type can be included, while the housings of both filters are mounted on a single collector. The disadvantage of a mechanical filter is the complexity of its design.

Known centrifugal gas-liquid separator filter according to the patent of the Russian Federation for the invention No. 2295999 (prototype). The invention relates to equipment for the purification of gas and liquid from mechanical impurities and can be used in gas, oil, energy and other industries. The filter contains a vertical housing with a conical cover and a bottom, a tangential mixture inlet, an axial tube, shielding conical plates, outlet pipes for purified gas and liquid with corresponding valve assemblies that do not allow liquid or gas to pass through. The bottom cone is equipped with a device for selecting solid fractions. The axial tube is made in the form of a set of perforated nozzles, the lower part of which is telescopically inserted into the upper part of another perforated nozzle with the possibility of limited rotation. The lower perforated nozzle telescopically enters the outlet pipe of the purified liquid, which is bent to the side and is configured to recirculate the liquid. The upper end of each perforated nozzle, with the exception of the upper, is provided with conical plates. The upper perforated pipe is rigidly connected to the cleaned gas outlet pipe. The outlet pipe of the purified gas is hermetically installed in the conical cover with the possibility of rotation and fixation in extreme positions, made with the possibility of recirculation of gas. The holes of the perforated nozzles are blocked externally by filters, which are configured to change their throughput when the perforated nozzles rotate relative to each other. Filters are made in the form of cylindrical meshes tightly and coaxially inserted into each other with the possibility of rotation relative to each other. The upper end of one of the cylindrical nets is hermetically connected to the perforated nozzle above the holes, and the lower end of the other cylindrical mesh is to the upper edge of the other perforated nozzle or outlet of the purified liquid into which the perforated nozzle with the first cylindrical mesh is inserted. The disadvantage of a centrifugal gas-liquid separator filter is the design complexity.

The task of creating a utility model is to reduce the complexity of manufacturing a filter, as well as improving the quality of purification of the produced product from mechanical impurities.

The solution to these problems was achieved due to the fact that the filter is conical, contains a conical filter insert mounted on a ring hermetically fixed between one of the flanges of the housing and the flange of the pipe, the ring has a cylindrical protrusion, centering the filter insert in the housing, and the filter insert is made in the form polyhedral pyramid, each side of which is made of profiled wire of triangular section, mounted on stringers parallel to each other with a distance equal to Filtering gap. The stringers are located perpendicular to the axis of the housing, and the profiled wire forming a filter gap is located along its axis. The filter insert is made of stainless steel. At the top of the pyramid of the filter insert, a fairing with a centralizer is fixed. The centralizer is made in the form of plates or rods abutting against the inner side surface of the housing. According to the outer diameter described around the plates or rods, they can be connected by a ring whose diameter is equal to the inner diameter of the housing.

The proposed technical solution has novelty and industrial applicability, i.e. all the criteria of a utility model. The novelty of the technical solution is confirmed by patent research. Industrial applicability is due to the fact that well-known materials and technologies are used in the manufacture of a cone filter.

The essence of the utility model is illustrated in Fig 1 ... 4, where:

in FIG. 1 shows a longitudinal section through a cone filter,

in FIG. 2 shows a view A of the filter element, the housing and the centralizer are not shown,

in FIG. 3 shows a section of a centralizer,

in FIG. 4 is a front view of the centralizer.

The cone filter consists of a cone filter insert 1 mounted on a ring 2, hermetically fixed between one of the flanges 3 of the housing 4 and the flange 5 of the pipe 6, the ring has a cylindrical protrusion 7, centering the filter insert 1 in the housing 4, and the filter insert 1 is made in in the form of a multifaceted pyramid, each side of which is made of profiled wire 8 of a triangular section, mounted on stringers 9 parallel to each other with a distance equal to the filter gap “δ”. Stringer 9 is located perpendicular to the axis of the housing 4, and the profiled wire 8, forming a filter gap "δ", is located along its axis. The filter insert 1 is made of stainless steel. At the top of the pyramid of the filter insert 1, a fairing 10 with a centralizer 11 is fixed. The centralizer 11 is made in the form of plates or rods 12 resting against the inner surface of the housing 4. According to the outer diameter described around the plates or rods 12, they can be connected by a ring 13, the diameter of which equal to the inner diameter of the housing 4.

The filter cone works as follows. The filter insert 1 is inserted into the housing 4. In this case, the filter is centered in the housing by a cylindrical protrusion 7 and a centralizer 11, if any, and is tightly fixed between the flange 3 of the housing 4 and the flange 5 of the pipe 6. The gaseous or liquid product entering the pipeline passes through the filter the gaps "δ" formed by a profiled wire 8 of a triangular cross section, mounted on the stringers 9. Mechanical impurities, the size of which is smaller than the filter gap, pass behind the filter, and those that accumulate more before the filter uyuschim element 1 and are periodically extracted from the housing 4 during its purification. The implementation of the filter insert 1 in the form of a multifaceted pyramid, allows for separate flat faces to provide higher accuracy of the positioning of the wire 8 relative to each other, which provides higher filtering accuracy, and also improves the conditions for cleaning individual faces from filtered mechanical impurities.

Application of the utility model allowed:

1. To increase the degree of purification of the extracted product.

2. Reduce the complexity of manufacturing a cone filter.

3. Improve the reliability of the cone filter.

4. Reduce the maintenance time of the cone filter.

Claims (6)

1. The filter is a cone, containing a conical filter insert mounted on a ring hermetically fixed between one of the flanges of the housing and the flange of the pipe, characterized in that the ring has a cylindrical protrusion centering the filter insert in the housing, the filter insert being made in the form of a polyhedral pyramid, each side of which is made of profiled wire of triangular cross section, mounted on stringers parallel to each other with a distance equal to the size of the filter gap. 2. The cone filter according to claim 1, characterized in that the stringer is located perpendicular to the axis of the housing, and the profiled wire forming a filter gap is located along its axis. 3. The cone filter according to claim 1, characterized in that the filter insert is made of stainless steel. 4. The cone filter according to claim 1, characterized in that a fairing with a centralizer is fixed at the top of the pyramid of the filtering insert. 5. The cone filter according to claim 4, characterized in that the centralizer is made in the form of plates or rods abutting against the inner side surface of the housing. 6. The cone filter according to claim 5, characterized in that according to the external diameter described around the plates or rods, they can be connected by a centralizer ring, the diameter of which is equal to the inner diameter of the housing.

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