RU2200614C2 - Magneto-mechanical filter - Google Patents

Abstract

FIELD: hydraulic units used for filtering working flow; hot and cold water pipe lines; filtration of nonaggressive media for removal of stable mechanical admixtures (including ferromagnetics). SUBSTANCE: filter has Y-shaped housing with flow-through passage and plugged passage which are connected at obtuse angle relative to incoming flow. Plugged passage is provided with perforated filter with magnetic filter element mounted on holder. Centering circular bores are made on inner end of plug and inside flow-through passage. Perforated filter is made in form of screen at definite size of meshes; magnetic element is made in form of alternating magnetic and non-magnetic washers of various diameters. EFFECT: enhanced reliability. 5 cl, 1 dwg

Description

The proposed solution relates to hydraulic devices, in particular to workflow-filtering devices, and can be used in pipelines, for example, cold and hot water and for filtering other non-corrosive fluids with temperatures up to 150 degrees C and pressure up to 1.6 MPa (16 kgf / cm ² ) for collecting persistent mechanical impurities (including ferromagnets), mainly for installation in front of flowmeter devices.

 A device for filtering fluids is known, including a glass vessel, a porous glass filter septum or a perforated bottom sealed on top of a paper, fabric or mesh filter septum soldered close to its base (BSE, edited by A.M. Prokhorov, ed. 3, vol. 27, M .: Sov. Encyclopedia, 1977, p. 431).

 However, the design of this device limits its use at low flow rates, pressures, and only in a vertical position, not ensuring the retention of fine magnetic particles.

 A device is also known for removing suspended substances from tap water by passing it through granular materials, including sand, gravel, drainage from hole pipes and prefabricated gutters placed in the housing in layers from top to bottom (TSB, edited by A.M. Prokhorov, ed. 3 , v.27, M .: Sov. Encyclopedia, 1977, p. 431).

 However, it does not provide anything other than a vertical arrangement, retention of fine magnetic particles of high performance with small dimensions.

 A known solution is US 3421627 A, cl. 01 D 35/06, 01/14/1969, having a housing made in the housing of the flow channel for a fluid, made at the ends of the flow channel of a means for connecting it to the supply and discharge pipelines, a cylindrical hole filter; installed with the possibility of blocking the fluid flow, made in the housing, connecting to the flow channel at an obtuse angle to the flow of the incoming fluid, a muffled channel with a plug, the hole filter partially located in the cavity of the muffled channel and equipped with a magnetic filter element mounted on the holder.

 The known solution, in particular, has a complex structure, increased hydraulic resistance, low cleaning coefficient of both non-magnetic and ferromagnetic impurities, difficulty in maintenance and low maintainability.

 The technical task is to simplify the design, reduce hydraulic resistance, increase the cleaning coefficient of both non-magnetic and ferromagnetic impurities, simplify maintenance and increase maintainability.

 The essence of the proposed solution lies in the fact that the magnetic-mechanical filter contains a housing in which a flow channel for a fluid is made, connected to the flow channel at an obtuse angle to the flow of the incoming fluid, a damped channel with a plug, means for its implementation are made on the ends of the flow channel connection to the supply and discharge pipelines, partially installed in the muffled channel with the possibility of blocking the fluid flow, a cylindrical hole filter equipped with a magnetic filter with an element mounted on the holder, the housing is made in the U-shape, the hole-shaped cylindrical filter is made in the form of a stainless steel mesh, and the ring grooves centering it are made on the inner end of the plug and on the reciprocal inner surface of the flow channel, the cells of the fine mesh filter element are made with hole sizes in mm from 0.1 • 0.1 to 5.0 • 5.0, the holder is mounted coaxially inside the fine-mesh filter element, fixed to the plug, made in the form of a rod and made of stainless steel steel or copper alloys, the magnetic filter element is made in the form of a set of non-magnetic and magnetic washers placed along the axis of the holder and installed alternately, and non-magnetic washers are made with an outer diameter increasing towards the plug side, and the magnetic washers are made of magnetoplast.

 The essence of the proposal is illustrated graphically.

 The drawing shows a cross section of the device.

 The positions indicate the housing 1, the flow channel 2, the muffled channel 3, the ends 4 and 5 of the flow channel 2, the plug 6, the magnetic-mechanical filter 7, the direction of the fluid is indicated by arrow A, the fine mesh filter element 8, holder 9, non-magnetic washers 10, magnetic washers 11, annular groove 12.

 A groove for centering the filter element 8 (not shown) is also made on the inner surface of the flow channel 2.

 The device operates as follows.

 By means of connecting means (threaded, flanged) located at the ends 4 and 5 of the flow channel 2, the housing 1 is connected to the inlet and outlet pipes (not shown). In the muffled channel 3 is placed a magnetic-mechanical filter 7.

 It is installed in such a way that, blocking the flow channel 2, it allows fluid to pass through its filter elements: through a fine-mesh filter element 8 and then through a set of non-magnetic 10 and magnetic 11 washers. This ensures the retention of mechanical and magnetic-mechanical impurities.

 The fixation of the position of the filter element 8 occurs due to its interaction with the annular groove 12 of the plug 6 and the reciprocal annular groove (not shown) made in the flow channel 2.

 Periodically during operation, the magnetic-mechanical filter 7 is removed by turning the plug 6 out and subjected to cleaning.

Claims (5)

 1. Magnetic-mechanical filter containing a housing, made in the housing of the flow channel for the fluid, made at the ends of the flow channel of the means for its connection with the inlet and outlet pipelines, a cylindrical hole filter installed with the possibility of blocking the flow of fluid, made in the housing connecting to the flow channel at an obtuse angle to the flow of incoming fluid, a silenced channel with a plug, and the hole filter is partially located in the cavity of the silenced channel and is equipped with a magnetic filter element mounted on the holder, characterized in that the magnetic filter element is made of a set of magnetic and non-magnetic placed along the axis of the holder, made with an outer diameter increasing towards the plug side, the washers, the holder of the magnetic filter element is made of stainless steel, fixed to the plug, connected to the muffled channel at its end, the flow channel is made rectilinear.  2. The device according to claim 1, characterized in that the hole filter is made in the form of a stainless steel mesh.  3. The device according to p. 1, characterized in that on the inner end of the plug and on the mating inner surface of the flow channel, centering cylindrical filter annular grooves are made.  4. The device according to claim 1, characterized in that the hole filter cells are made with openings in the light, mm, from 0.1x0.1 to 5.0x5.0.  5. The device according to claim 1, characterized in that the magnetic washers are made of magnetoplastics.