RU2121865C1 - Batter ballistic air cleaner - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: air cleaner has plastic round- section confusing-and-diffusing elements with dust catcher in central position and side dust removing branch pipes arranged symmetrically. Confusing-and-diffusing elements are sectional ones. They consist of two parts: nozzle-diffuser and dust catcher. Nozzle-diffuser is provided with hexahedral skirts from the outside at its input and output. Wedge-type projections are made on each of three adjacent ends of skirts, and the remaining three ends have recesses of similar configuration. Framework of air cleaner has U-shaped profile in section. Device features simplified technology of battery assembly and disassembly into separate members. EFFECT: enhanced air cleaning efficiency. 18 dwg

Description

 The invention relates to the field of purification of air / gas / from solid and liquid aerosol particles, and more particularly to inertial type gas scrubbers, and is intended for use in air supply and cooling systems of power units and electrical equipment of vehicles, as well as for general industrial use.

 Known battery ballistic air purifier / see journal "Diesel and Gas Turbines Progress", 1968, 34, No. 1, p. 49, Art. "Development of an Advanced Air Cleaner Concept for Army Vehicular Gas Turbines", ed. Du Racher L., Giannotti H., Journal. An ASME Publication, Art. "Ballistic air purifier for gas turbine engines of army vehicles", ed. Du Roche, Gionnatti X, 1976 /, assembled from ballistic elements fixed in tube boards, with the central dust collection tubes of each of the elements communicating with a common dust extraction channel in a row. In-line channels, in turn, must have an outlet to the collection channel / one or two /, common to the battery / or unit /. The central dust collection tubes are fixed in the diffusers of the elements with the help of single mounting rods, which during assembly of the element causes difficulties in alignment with respect to its axis.

 The main disadvantage of this device is the organization of the removal of contaminants in the axial direction along the air, which inevitably requires equipment with a common in-line channel, which, in order to avoid cluttering the live section, can only have limited dimensions “in the light” and, therefore, is prone to clogging with trapped contaminants / if the size is increased of the general dust removal channel in the direction of the air flow, the dimensions of the battery accordingly increase, which sharply reduces its layout capabilities / and determines Parts Required frequent flushing, thereby increasing the operating costs. In addition, the limited passage section of the dust extraction channel, when it is of considerable length, leads to increased hydraulic resistance, which leads to an increase in power consumption for the drive of the suction fan, which is necessary to suck the trapped dirt from the battery; also, due to the complexity of the design of the battery, the process of assembling and disassembling is complicated, which increases the cost of maintenance.

 Also known battery "Air Cleaner" by AS USSR N 1161149, class B 01 D 45 / 04.1985, containing round-shaped confuser-diffuser elements fixed in installation tube boards, with individual element dust collecting tubes having access to the total inter-cell volume of the battery by means of two or more additional lateral branch pipes used to remove contaminants trapped by the element, and the inter-element volume is used as a dust extraction channel common to the battery, and the element is non-separable / prototype /.

 The above features of this design can significantly simplify the battery in both structural and technological aspects, mainly due to the lack of autonomous common dust extraction channels, to improve the operational performance of the device / the clogging of the dust removal path during operation due to a significant increase in its cross-section is reduced, the assembly is simplified - disassembling the battery to clean it from contamination. However, the presence of tube plates necessitates the hermetic fastening of elements in the holes, strictly coaxial installation of the tube tubes themselves through the holes relative to each other. These boards themselves with a large number of elements in the battery are rather complex parts due to the presence of numerous large-diameter holes. In addition, the assembly-disassembly of such a battery for cleaning areas contaminated during operation is still quite complex technological operations, associated mainly with the need to remove the elements from the tube plates / while the cells were sealed in the holes of the boards /, in connection with than deformation or damage to elements or boards is possible.

 The implementation of the Central dust collection tube, side pipes and nozzle-diffuser in the form of a non-separable element excludes the possibility of disassembling it into components in order to clean them from dirt that has settled on the surfaces.

In addition to the above-mentioned disadvantages, the lateral branch pipes of the prototype form an angle of 45 ^o with the vertical, which can contribute to the accumulation of large fractions of solid contaminants in the dust collection tube / at partial operating modes of the device, i.e. at a low suction rate / and even the accumulation of moisture on the bottom of the tube, which, on the one hand, will lead to the formation of a hard-to-remove sediment / contamination of the element /, and on the other hand, to a decrease in the efficiency of trapping drip moisture, as well as, in part, of a large fraction of dust.

 The technical problem solved by this invention is to facilitate the technology of assembling and disassembling the battery into individual elements while ensuring the tightness of the connections, as well as similar operations with respect to the parts making up the element, as well as reducing the clogging of the elements by trapped contaminants while improving the efficiency of cleaning air from moisture to increase technological and operational characteristics of the device.

 The increase of these technical indicators is achieved by the fact that in a battery-powered ballistic air purifier containing round confuser-diffuser elements with a central dust collector equipped with symmetrically located side dust extraction nozzles opening onto the diffuser outer surface, the diffuser-diffuser elements are made of plastic and prefabricated in two parts - a diffuser nozzle and a dust collector, and side dust extraction nozzles are arranged vertically, while a diffuser nozzle at the inlet and outlet it is equipped with hexagonal skirts from the outside and has slots in the rear part of the diffuser wall in the back (along the air), the configuration of which coincides with the external configuration of the side dust extraction nozzles, and the inner surface of the nozzle-diffuser slot is equipped with two opposite locking protrusions, and on each of the three wedge-shaped protrusions are made adjacent to the ends of the skirt, grooves of a similar configuration are made on the remaining three, and, in addition, the air cleaner frame is made U-shaped, having a U-shape in cross section the first profile, wherein the L-shaped frame section is equipped with rigidly attached to it front and rear plates, and the adjacent rectilinear frame portion is provided with front and rear plates rigidly interconnected spacer and configured extendable relative to said chassis; the closing wall with rigidly fixed plates is made removable and extendable relative to the U-shaped frame, while all plates have cutouts, the configuration of which coincides with the configuration of the skirts of the adjacent nozzle-diffusers, and are equipped at the tops of the cutouts with mounting plates fixed to their internal surfaces.

 The implementation of the diffuser-diffuser elements with plastic from two parts: a diffuser nozzle with slots and fixing protrusions and a dust collector ensures the assembly of the element and its disassembly for cleaning in operation, providing a strict fixation of the dust trap relative to the diffuser nozzle with simultaneous sealing on the bonding surfaces.

 The vertical arrangement of the lateral dust extraction pipes of the dust trap allows for intensive drainage of trapped moisture, as well as the removal of large fractions of solid contaminants, which helps to reduce pollution of the element in operation and increase the efficiency of air purification from moisture, especially in partial modes of operation of the device.

 The equipment of the nozzle-diffuser at the inlet and outlet with hexagonal skirts with the implementation of sealing wedge-shaped protrusions and corresponding grooves on their end sections allows for element-wise assembly-disassembly of the battery of confuser-diffuser elements while simultaneously sealing the elements at the junction of the hexagons and their axial fixing relative to each other , i.e. exclude tube plates and provide the technology of the specified assembly-disassembly.

 The implementation of the air cleaner frame U-shaped with a sliding adjacent rectilinear section and a removable sliding closing wall allows the assembly of battery cells without the use of additional technological devices. In this case, the U-shaped frame from the open end is sequentially filled with elements installed in-line in the dimensions of the frame. The elements are fixed in the battery due to lateral cross-compression by a sliding adjacent rectilinear section and a removable sliding closing wall connected by fasteners to a U-shaped rigid frame.

 The execution of all plates with cutouts, the configuration of which coincides with the configuration of the skirts of the adjacent confuser-diffuser elements of the battery, allows the sealing of the elements in the battery along its perimeter.

 Fixing the tops of the cutouts on their inner side of the mounting plates provides the installation of the skirts of the elements from the front and back of the battery / relative to the air flow / in one plane, while simultaneously securing the elements in the axial direction.

 In FIG. 1-4 shows a general view of a battery ballistic air cleaner; the confuser-diffuser element of the air cleaner is shown in FIG. 5-7, the constituent parts of the confuser-diffuser element are shown in FIG. 8-9 a diffuser nozzle; and FIG. 10-12 dust collector.

 The individual components of the air cleaner are shown in FIG. 13-18. U-shaped frame 2 with front and rear plates - in FIG. 13, 14, a rectilinear section of the frame 23 - in FIG. 15, 16, the closing wall 24 - in FIG. 17, 18.

 The air purifier (Fig. 1, 2, 3, 4) contains an arbitrary number of confuser-diffuser elements 1 installed end-to-end within the U-shaped frame 2 and bounded by the front 3, 4, 5 along the air and the rear 6, 7, 8 plates ( Fig. 14, 16, 18), while the plates 3 and 6 are rigidly and hermetically fastened to the frame 2, forming a L-shaped section 22, the plates 4 and 7 are rigidly and hermetically fixed to the connecting element 9, forming an adjacent rectilinear section of the frame 23 and can move relative to the frame 2 on the fasteners 10, and I close the plates 5 and 6 s wall 24 rigidly and hermetically fastened to the connecting member 11.

 The locking wall 24 is removable and sliding relative to the frame 2 by means of fasteners 12. At the tops of the cutouts of the plates 3-8, fixing plates 13 are fixed on the inside.

 The confuser-diffuser element 1 (Fig. 5, 6, 7) contains a diffuser nozzle 14 and a dust trap 15, while on the outer surface of the diffuser nozzle (Fig. 8, 9) hexagonal skirts 16 are made at the inlet and outlet, at the ends of which there are wedge-shaped protrusions 17 and wedge-shaped grooves 18. Slots 19 are made in the wall of the diffuser nozzle, having fixing protrusions 20 on the inner surfaces, which serve for installation and fixing of dust traps, respectively (Figs. 10, 11, 12), which are introduced into the slots 19 side dust extraction pipes 21 (Fig. 12).

 In this case, it is preferable to manufacture confuser-diffuser cells of the battery from elastic plastics, for example polyethylene. The assembly of the element consists in pushing the dust trap into the slot 19 of the diffuser nozzle to failure, while its position in the nozzle diffuser will be fixed as a result of the entry of the side dust extraction nozzles 21 into the inner surface of the slots 19 and the fixing protrusions 20.

 The air cleaner assembly consists in sequentially ordered filling of the U-shaped frame 2 from the side of its open end with confuser-diffuser elements 1, while the perimeter-mounted elements are supported by the skirts 16 on the fixing plates 13 of the plates 3, 6. Next, the rectilinear section of the frame is shifted by means of fasteners 10 23, the closing wall 24 is mounted and slid toward the center of the battery using fasteners 12.

 Disassembly of the air purifier and the element, respectively, is carried out by performing operations that are inverse to the action relative to the above when they are performed in the reverse order of the above.

 Thus, the proposed design allows you to easily remove the dust trap, which, as shown by tests, is subjected to the greatest pollution during operation of the device. Moreover, in the aspect of long-term operation, it is possible both to clean the dust trap and to replace it / due to its low weight and low cost /.

 When the device is operating, the contaminated air stream enters (Fig. 1, 2, 5) at the inlets of the air cleaner elements 1, where, moving along curved paths convex to the axis of the diffuser nozzle 14, it narrows, while aerosol particles receive not only axial, but and directed / radial / acceleration, due to which they are accelerated in the direction of the axis. Due to inertia, particles in the diffuser continue for some time to move in a directional manner, which leads to their concentration in the central region of the diffuser. Concentrated contaminants having a significant axial velocity reach the inlet section of the dust trap 15, which ensures their separation from the air stream. Trapped concentrated contaminants are sucked out through the side dust extraction pipes into the inter-element space of the air cleaner. The exhaustion of contaminants from the battery together with part of the air is produced by a vacuum source (for example, a fan), not shown in the figures.

Claims (1)

 Battery ballistic air cleaner containing round-shaped confuser-diffuser elements with a centrally located dust collector, equipped with symmetrically located lateral dust extraction nozzles opening onto the outer surface of the diffuser, characterized in that the diffuser-diffuser elements are made of plastic and prefabricated in two parts: a diffuser nozzle and a dust trap, and the side dust extraction pipes are arranged vertically, while the nozzle diffuser at the inlet and outlet is equipped with a snare and hexagonal skirts and has slots in the rear (along the air) part of the diffuser wall, the configuration of which coincides with the external configuration of the side dust extraction nozzles, and the inner surface of the nozzle-diffuser slot is provided with two opposite locking protrusions, and on each of the three rows of end faces of the skirt wedge-shaped protrusions, on the remaining three - grooves of a similar configuration, in addition, the air cleaner frame is made U-shaped, having a U-shaped profile in cross section, while the L-shaped one the drain of the frame is equipped with front and rear plates fixed to it, and the adjacent rectilinear section of the frame is equipped with a front and rear plates, rigidly interconnected by a spacer, and made sliding relative to the specified frame; the closing wall with rigidly fixed plates is made removable and extendable relative to the U-shaped frame, while all plates have cutouts, the configuration of which coincides with the configuration of the skirts of the adjacent nozzle diffusers, and are equipped at the tops of the cutouts with mounting plates fixed to their internal surfaces.

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