• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    ABSTRACT The invention is constituted by a collector module forseparating particles from a flow, in which the collectormodule has at least three outer walls and at least onebaffle where the collector module has a lower openinghaving a lower mounting flange, and an upper opening havingan upper mounting flange. The invention is furtherconstituted by a particle trap system. Fig. l.
    公开号:SE1530201A1
    申请号:SE1530201
    申请日:2015-12-28
    公开日:2017-06-29
    发明作者:Norman Conny
    申请人:Norman Conny;
    IPC主号:
    专利说明:

    COLLECTOR MODULE AND A PARTICLE TRAP ARRANGED WITH AT LEASTONE COLLECTOR MODULE INTRODUCTION The present invention. relates to a collector~ module forseparating particles from a flow, in which the collectormodule has at least three outer walls and. at least onebaffle. The application further discloses a particle trapcomprising at least one collector module.
    BACKGROUND OF THE TNVENTTON,ART PROBLEM DEFINITION AND PRIOR Particles, such as minute fragments or quantity of matter, or different kinds of solid residues, constitute unwelcomesolids in flows such as gas or liquid flows such as processgases different Filtering or other unit operations for removal water, waste water, waste etc. from processes.of particles can also be applied in order to, in a variety of ways, remove, separate, concentrate substances such as solid matter.
    IGCOVGI OI There are a number of methods for filtering particles from a liquid. aqueous or organic flow' or a gaseous flow, inwhich conventional methods often include various filters in There are also other e.g. byExamples of separating which the particles are retained. filtration methods, for separating particles,varying the velocity of the flow.particles in an air flow by varying the velocity of the airTheprinciple for air cleaning through a change of velocity ofan air flow is described in SE 0002782-l, not further described herein. flow are disclosed in patent application SE 0002782-l. the principle isThe device disclosed in SE0002782-l does not comprise a collector module.
    Conventionally, various forms of filters have been used,through which a flow, such as an air stream, containingparticles passes. The filters are arranged such thatparticles are retained by the filters, whilst a purifiedair stream passes through the filter. One important consideration for selection of the filter is the cut-off, i.e. to what extent particles of a certain size can pass the filter.the drawback thatpowerful flow of the air stream,will be limited.has the drawback that the small particles can pass freelythrough the filter.equivalent to air stream could be a stream of a liquid, A filter which blocks too small particles hasclogged,whereby efficiency thereof it easily becomes requires a A filter only filtering larger particles Discussed above is an air stream but such as water, or another medium that is filtered.
    The drawbacks of known filtering methods are, inter alia,that they are loud,efficiency, are bulky and generate a disposable retentate since the filter have low performance, low energy which is not environmentally friendly,often contains various forms of plastics or other toxic orbiodegradable materials or combinations thereof.
    Problems with currently existing solutions according to thethus related tothe possibility of effectively above filtering techniques are noise levels, energy efficiency,filtering various particle sizes with one filter utilizing an environmentally friendly filter which is simple toand to create a filter where it is easy solid transport and fit, to recover or concentrate matters of various substances.
    Further problems which the present invention aims to solvewill be elucidated below in the detailed description of thevarious embodiments.
    OBJECT OF THE TNVENTTON AND ITS DISTTNCTTVE FEATURES The object of the present invention is a collector modulepossible to arrange in a particle trap.
    The invention relates to a collector module for separatingparticles from a flow, in which the collector module has atleast three outer walls and at least one baffle where the collector module has a lower opening having a lowermounting flange, and an upper opening having an uppermounting flange.
    According to further aspects of the improved collector module for separating particles from a flow: the lower mounting flange and the upper mounting flangeare provided with holes. the collector module is arranged with at least four outerwalls forming a substantially square-shaped channelcontaining at least one baffle. the baffle forms a surface, in which the surface whollyor partially slopes towards a point, in which the point isarranged close to or against one or more outer walls towhich said outer walls the baffle is affixed and wherebythe arrangement of the baffle in the collector moduleprovides an opening in the square channel formed by theouter walls. from. made from. steel or tl1e collector module is made other metals.the collector module is arranged with an outlet arranged through at least one outer wall. furtherseparating' particles the invention is constituted. by a. particle trap for According to one embodiment, from a flow, wherein the particle trap comprises at least one inlet nwdule, at least one collector module, and at least one outlet module.
    According to further aspects of the improved particle trapfor separating particles from a flow: enüaodjflnent, two or more collectorsuch that the flow path through theparticle trap is extended by alternately arranging a baffleagainst the first outer wall and the second outer wall, andthe next baffle against the third outer wall and the fourthouter wall.
    According to one modules are placed thefit the lower mounting flange of the first collector module inlet module is arranged with a flange arranged to of the particle trap. thefit the upper mounting flange of the last collector moduleThe last collector module is thecollector module arranged closest to the outlet from theparticle trap and thus closest to the outlet module. outlet module is arranged with a flange arranged to of the particle trap.
    ADVANTAGES AND EFFECTS OF THE INVENTION One advantage of the present invention is that a customtrap could be adaptive number' of collector~ modules. made particle realized by utilizing anFurther advantagesinclude that the collector module is cost-effective in itsdesign, and environmentally friendly both in terms ofproduction and avoidance of any disposable consumables such as a filter.
    FIGURE DRAWING Thewith reference to the attached figures, invention. will be described. in greater~ detail below in which: Fig. l shows a figure of a collector module according to one embodiment of the invention.
    Fig. 2 shows a figure of a collector module in side view according to one embodiment of the invention.
    Fig. 3 shows a figure of a collector module in a view from above according to one embodiment of the invention.
    Fig. 4 shows a figure of a particle trap according to one embodiment of the invention.
    Fig. 5 shows a figure of a particle trap according to one embodiment of the invention.
    Fig. 6 shows inlet module in side view according to one embodiment a figure of anof the invention.
    Figy 7 shows a .figure of an outlet module in side view according to one embodiment of the invention.
    DETAILED DESCRIPTION OF EMBODIMENTS Fig. l shows a collector module in a view from the side.The collector module consists of at least three outer wallsl0, ll, l2 preferably four walls l0, ll, l2, l3,outer wall l0, a second outer wall ll, a third outer walll2 and a fourth outer wall l3.ll, l2, l3 utilized, a channel is and a first Where four outer walls l0, are substantially rectangular formed, where three outer walls are utilized, a substantially triangular channel (not shown inthe figure) is formed. A baffle is a screen or wall of somekind which leads desired direction. gas, liquid, particles or sound in a In a collector module l, at least oneThe outer walls l0, ll, l2,arranged such that a channel 20 is formed, baffle 2 is arranged. l3 arein which one ormore baffles 2 are arranged. The baffle is arranged so thatan opening l4 is formed. The opening l4 could vary in size40% 20 and most preferably between of the cross section area of the channel5% - 20% of theThe length of an outer wall between l% -crosssection area of the channel 20.of the collector module is between 5 mm to l5 m and theheight is between 60 % - l00 % of the length.module l is arranged with a lower opening 2l and an upper The collector opening 22. The outer walls have an inner side and an outerinner side is arranged against the side, in which the channel 20. The lower opening 2l is arranged with a lowermounting flange 23 znmí the upper opening 22 is arrangedwith an upper mounting flange 24. An upper mounting flange24 from a first collector module is possible to arrange toa lower mounting flange 23' of a second collector modulel”. The mounting' flanges 23, 24 could. be arranged. withholes for mounting with bolts or rivets, folded the flanges could also be mounted by clinching, sheet, glued, or attached by a gasket or in another way for attaching two flanges to each other such as welding or soldering. A that also is easily removable,The holesin size and preferred mounting method,is a bolted joint where screws and nuts are used.in the mounting' flanges 23, 24 are adaptedthe bolted joint.rivets and pop second. collector~ module l' is for Rivetsblind flange 23 of a location possible to use include rivets. A lower mountingfacing anupper mounting flange 24 of a first collector module l andin the case holes are utilized a hole in the lower mountingflange 23 of the second collector module l' is facing ahole in the upper mounting flange 24 of the first collectormodule l where a screw could be placed. The mounted screwis secured by a nut on the opposite side of the flange andwashers could also be utilized to secure the mounting. Thein the flanges 23, 24 depends upon the actual implementation of the particle trap and is selected number~ of holesdepending upon the medium used, size of collector module,A. gasket could. be used. between. alower mounting flange 23 and an upper mounting flange 24 to pressure of flow etc. seal the connection between a first collector module l anda second collector module l' and avoid leakage of the used medium. 2 shows the collector module l from the side and thebaffle 2 is partly shown in a cross section perspective. A Fig. point 6 is shown located close to the first outer wall lO and the second outer wall ll. At point 6 the particles from the flow are collected. or otherwise extracted orconcentrated.
    Fig. 3 shows the collector module l in cross section fromabove. The outer walls lO, ll, l2, l3 are arranged such that the outer wall lO bears against the outer wall ll thatbear against outer wall l2 that bears against the outerwall l3. The outer wall l3, the fourth outer wall, isarranged against the first outer wall lO. The baffle 2 arefixedly arranged against the inner side of the outer walls,in which the first mounting' side 3 of the baffle 2 isarranged against the first outer wall lO and the secondmounting side 4 is arranged against the second outer wallll. Part of the baffle 2 could also be attached by mountingside 5 to the third outer wall l2 and by a mounting side 7 to the fourth outer wall 13. The baffle 2, and the mounting of the baffle 2, is arranged to form the opening 14. Thebaffle 2 spans a surface A. The surface A is arrangedwholly or partially perpendicular to or laterally against one or more outer walls, so that the surface A is arranged against the outer wall, yet projects into the channel 20.The surface A of the baffle is inclined or otherwise slopestowards the point 6, which is arranged close to or againstso that, particles extracted from the flow, one or more outer walls,the flow,stream, are transported or otherwise move towards the point6. At point 6 an outlet, could bearranged to empty the separatedparticles. The outlet is an opening in the collector module1 outer walls 10, 11, 12,formed. between. two outer walls, by virtue of gravity andsuch as an air not shown in the figure, collector module from13 arranged in the intersection,the first outer wall 10 and the second outer wall 11 or in or corner, such aseither the first outer wall 10 or the second outer wall 11close to the point 6. The outlet could. comprise a tubeTheoutlet is arranged to pass through at least one outer wall10, 11, 12, 13.1° - 50°is defined section in which the separated particles are collected.
    The baffle 2 slopes with an angle d between20°.line and most preferably between 5° -thediagonally through the collector module 2 from the The angle d relative cross section A-A goingcorner10 andby thefourth The line A-A is in a plane orthogonal from defined by the intersection of the first outer wallthe second outer wall 11 and to the corner definedintersection. of the third. outer wall 12 and theouter wall 13. the outer walls. Where a plurality of baffles are arrangeda second baffle 2'arranged such that the first mounting side 3' of the secondbaffle 2' is arranged against the fourth outer wall 13 andthe of the arranged against the third outer wall 12. in a collector module 1, is preferably second. baffle 2' isThe second baffleFollowing baffles second nwunting side 4' 2' spans a surface A”. are preferablyplaced so that the flow path through the collector module 1is extended by alternately placimg a baffle against theouter walls 10,walls 12, 13. in the 11 and the next baffle against the outerThe opening 14 is thus alternately arrangedwalls 12, 13, when the11 and when the corner formed by outer baffles are arranged to the outer walls 10, baffles are arranged against outer walls 12, 13 the opening is arranged in the corner formed by outer walls 10, 11 FIG. 4 100comprising three collector modules 1, 1", 1" shows the particle trap in a configurationand one inletmodule 30 and one outlet module 40. The number of collectormodules could be varied depending upon the medium, such as water or air, used for the flow, such as water flow or airthe size,The inletmodule leads the flow into the particle trap 100 and couldcomprise a baffle 2. Thea baffle and arranged toflow to arranged to the inlet module 30. flow and the constitution of the particles, i.e. weight and material properties of the particles. inlet module 30 could. also bearranged without guide or ina first collector module The outlet module 40 is arranged to a collector module 1"' another way lead theand receives the flowfrom the last collector module 1" of the particle trap100. Theoutlet module 40 could also be arranged without a baffle 2lead the flow fromfrom the particle The outlet module 40 could comprise a baffle 2. and arranged to guide or in another waythe last collector module 1" and outtrap 100. The outlet flow, through theflow with of particles particles are collected in the particle trap 100. outlet opening 41, is a reduced number where the Fig. 5 shows the particle trap 100 in cross section wherethe baffles are shown for the inlet module 30, the threecollector modules 1, 1' and 1", and the outlet module 40.The flow path 25 for the flow through the particle trap 100is shown in the figure. The flow is arranged to the lowerthe inlet, in a flow path 25 and leave the particle trap opening 31,trap 100through an outlet opening 41. and meanders through the particleParticles are removed, or inanother way extracted,the baffles 2. from the flow and stay at point 6 on Fig. 6 inlet module 30 fronl the side and. thebaffle 2 is partly shown in a cross section perspective. shows an The inlet module 30 could also be arranged without a baffle2. Theopening 34, inlet module 30 is preferably arranged with ana bottom wall33. The inlet module 30 is arranged with a lower opening 31The inlet module 30 could also be arranged with means for affixing or four side walls and a fifth wall, to guide the flow into the particle trap 100. mounting the inlet module 30, and thus the particle trapl00, Theinlet module 30 is arranged with an upper mounting flange32 at the upper opening of the inlet module 30. to a holder or support, not shown in the figure.
    Fig. 7 shows an outlet nwdule 40 from the side and thebaffle 2 is partly shown in a cross section perspective.The outlet module 40baffle 2.an opening 44,43. The outlet module 40 is arranged with an outlet opening4l to guide the flow out from the the particle trap l00.The outlet module 40 is flange 42 at the lower opening of the outlet module 40. could also be arranged without aThe outlet module 40 is preferably arranged with four side walls and a fifth wall, a top wall arranged. with. a lower mounting The particle trap l00, and thus the collector modules l andthe inlet module 30 and outlet module 40, comprises fourouter walls l0, ll, l2, l3 that are placed such that theouter walls are perpendicular to the nearest adjacent outerwall, so that the first outer wall l0 is perpendicular tothe fourth outer wall l3 and the second outer wall ll and,way, so that the third wall l2 is perpendicular to the second outer wall ll and the fourth in the same outer outer wall l3, forming a substantially rectangular channel20. The particle trap l00 preferably includes a number ofcollector nwdules l. and hence baffles 2predetermined distance which is adapted on the basis of thethe trap l00 the desiredefficiency of the separation. Since the heavier particleswhich are separated off by the particle trap l00 end up onthe baffles 2 which are closer to the lower opening 3l ofthe flow, the configuration of the baffles can be adaptedsuch that baffles suited to heavier particles are arrangedin the lower part of the particle trap l00 and bafflessuited to lighter particles are arranged in the upper partof the particle trap l00 close to the outlet opening 4lfrom the particle trap l00. separated. by a dimensions of particle and The collector module l, the inlet module 30 and the outletmodule 40 could be made of metal such as stainless steel,plastic or other solid material. The material is selecteddepending upon the intended use of the particle trap l00. Aparticle trap l00 made of stainless steel could withstandhigh temperature and have a high resistance towards wear.
    The outer walls and the baffle are preferably assembled bywelding or soldering. The particle trap l00 could also bemade of a plastic or other polymer based material or paper,cardboard, chipboard, synthetic fibre-based material. wood or other natural and/or The particle trap l00 can consist of a number of collectormodules l, in which each collector module l contains atleast one baffle 2.an inlet, The inlet module 30 is arranged with athrough which the inlet of theThe outlet module 40 is arranged with an lower opening 3l,flow is arranged.an outlet opening 4l, through which the flow pass after theparticle trap l00 has been passed through. trap l00 with three collector modules l, l", l" For a particlethe loweropening 2l of a first collector module l is arranged to theopening 34 of the inlet module 30.is arranged against the upperThe arranged The lower opening 2l ofa second collector module l'of theof a third collector module l" is opening 22 first collector module l. loweropening 2lagainst the upper opening 22 of the second collector modulel”. And the opening 44 of the outlet module 40 is arrangedto the upper opening 22 of the third collector module l".arranging two or more modulestrap l00 to beoptional number of modules and thus with an optional numberof baffles 2.module 30 collector module l and the flanges are mounted by a number The process of together enables a particle assembled with anThe upper mounting flange 32 of the inletis arranged to the lower mounting flange 23 of aand nuts. of screws An upper mounting flange 24 of a first collector module l is arranged to a lower mounting flange23 of za second collector nwdule l'mounted by a number of screws and nuts.additional collector modules could be connected. mounting flange 24 of the last collector module l"' is and the flanges areIn the same mannerThe upperarranged. to the lower mounting' flange 42 of the outputmodule 40 and the flanges are mounted by a number of screwsand nuts.change and could be between l to 30 collector modules and is preferably between 3 to 9 collector modules.
    The number of collector modules is possible to Each module is preferably placed such that the flow paththrough the particle trap lwith the baffle 2 being alternately placed in a first and a is extended, by the nwdules 11 second direction respectively. Preferably, an assembledparticle trap 100 is arranged such that the flow path iswinding or that the flow path meanders through the particle trap 100. inlet nwdule 30. The flow isthat will bein which the A flow is arranged to the containing particles, such as minerals, transported through the particle trap 100,particles will be separated or otherwise extracted from theflow against baffles 2 arranged in the particle trap 100,which baffles 2 are arranged sloping' towards the outerwalls 10, 11, 12, 13 of the collector modules 1, so thatthe particles, as a result of gravity, are placed on the baffle 2 against the wall of the collector modules 1 of the particle trap 100, the flow flows onward out through theoutlet module 40 of the particle trap 100. Due toturbulence generated by the baffles 2 the particles in the flow will fall to the baffles and stay on point 6 locatedbaffles 2. collectedcollected or in another way removed from the particle trap100. on the Particles at point 6 is The flow could be an air flow that is provided by a fan ora water flow provided by a pump or other flow provided byan apparatus arranged to create a flow.
    The particle trap can also be provided with a conventionalfilter,solids from a fluid, such as a carbon filter or a filter to separatefor example, in order to filter away solids, organic substances, gases and odours.
    ALTERNAT IVE EMBODIMENTS the embodiments in different ways not limited tobut can be variedwithin the scope of the patent claims.
    The invention is specifically shown, that the number ofand baffles,the integral elements and component parts, It will be appreciated, for example, collector modules, particle traps, as well asis adapted tothe filter system(s), and other systems and other current design characteristics. 12 It will be appreciated that the above-described method forthe extraction of particles can be applied, in principle,to all systems for cleaning or separating particles fromgases, liquids or solid materials in particle form. Byseparating it could also mean extracting, concentrating or KGITIOVG .
    权利要求:
    Claims (1)
    [1] 1. Collector module (1) for separating particles froma flow, in which the collector module has at leastthree outer walls (10), (11), (12), (13) and atleast one baffle (2), wherein the collector module(l) has a lower opening (21) having a lowermounting flange (23), and an upper opening (22)having an upper mounting flange (24). Collector module (1) for separating particles froma flow according to claim 1, wherein the lowermounting flange (23) and the upper mounting flange(24) are provided with holes. Collector module (1) for separating particles froman flow according to any one of the above claims,wherein the collector module (1) is arranged withat least four outer walls (10), (11), (12), (13)forming a substantially square-shaped channel (20)containing at least one baffle (2). Collector module (1) for separating particles froma flow according to any one of the above claims,wherein the baffle (2) forms a surface (A), inwhich the surface (A) wholly or partially slopestowards a point (6), in which the point (6) isarranged close to or against one or more outerwalls (10), (11), (12), (13), to which said outerwalls (10), (11), (12), (13) the baffle (2) isaffixed and whereby the arrangement of the bafflein the collector module (1) provides an opening(14) in the square channel (20) formed by the outerwalls (10), (11), (12), (13). Collector module (1) for separating particles froma flow according to any one of the above claims,wherein the collector module (1) is made from steelor other metals. Collector module (1) for separating particles froma flow according to any one of the above claims,wherein the collector module (1) is arranged withan outlet arranged through at least one outer wall(10), (11), (12), (13). l0. Particle trap (l00) for separating particles from aflow, wherein the particle trap comprises at leastone inlet module (30), at least one collectormodule (l), and at least one outlet module (40). Particle trap (l00) for separating particles from aflow according to claim 7, wherein two or morecollector modules (l) are placed such that the flowpath through the particle trap (l00) is extended byalternately arranging a baffle against the firstouter wall (l0) and the second outer wall (ll), andthe next baffle against the third outer wall (l2)and the fourth outer wall (l3). Particle trap (l00) for separating particles from aflow according to any of claim 7 - 8, wherein theinlet module (30) is arranged with a flange (32)arranged to fit the lower mounting flange (23) ofthe first collector module (l) of the particle trap(l00). Particle trap (l00) for separating particles from aflow according to any of claim 7 - 9, wherein theoutlet module (40) is arranged with a flange (42)arranged to fit the upper mounting flange (24) ofthe last collector module (l) of the particle trap(l00).
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    同族专利:
    公开号 | 公开日
    CN108430598A|2018-08-21|
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    EP3397367B1|2022-02-16|
    BR112018013287A2|2018-12-11|
    US10828589B2|2020-11-10|
    SE539533C2|2017-10-10|
    CA3009743A1|2017-07-06|
    BR112018013287B1|2022-01-25|
    EP3397367A4|2019-08-28|
    US20190015765A1|2019-01-17|
    EP3397367A1|2018-11-07|
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1530201A|SE539533C2|2015-12-28|2015-12-28|Collector module and a particle trap arranged with at least one collector module|SE1530201A| SE539533C2|2015-12-28|2015-12-28|Collector module and a particle trap arranged with at least one collector module|
    US16/066,250| US10828589B2|2015-12-28|2016-11-24|Collector module and a particle trap arranged with at lease one collector module|
    CA3009743A| CA3009743A1|2015-12-28|2016-11-24|Collector module and a particle trap arranged with at least one collector module|
    PCT/SE2016/051167| WO2017116295A1|2015-12-28|2016-11-24|Collector module and a particle trap arranged with at least one collector module|
    EP16882194.0A| EP3397367B1|2015-12-28|2016-11-24|Collector module and a particle trap arranged with at least one collector module|
    AU2016382678A| AU2016382678A1|2015-12-28|2016-11-24|Collector module and a particle trap arranged with at least one collector module|
    CN201680076767.XA| CN108430598A|2015-12-28|2016-11-24|Collector module and particle trapper equipped at least one collector module|
    BR112018013287-0A| BR112018013287B1|2015-12-28|2016-11-24|Collector module and particle trap arranged with at least one collector module|
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