• 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:
    Agitator shaft (1) for a mill comprising: - an axis (2) intended to be driven in rotation, - a succession of stirring elements (3), planes, and spacers (4), tubular, mounted alternately on the axis, following a stack along said axis (2), - end stops (5,6), integral with the axis, now in compression the stack of stirring elements and spacers , characterized in that the tubular spacers (4) have orifices allowing the free circulation of the material and fluids from the outside towards the inside of the stirring shaft, and vice versa.
    公开号:FR3022804A1
    申请号:FR1455925
    申请日:2014-06-25
    公开日:2016-01-01
    发明作者:David Segard;Samuel Patinier
    申请人:Roquette Freres SA;
    IPC主号:
    专利说明:

    [0001] The invention relates to a stirring shaft, and a mill equipped with such a stirring shaft. Such a stirring shaft and mill will find a particular application for the lysis of biomasses of microorganisms produced on an industrial scale, in particular by fermentation, such as microalgae, more particularly microalgae of the genus Chlorella. The field of the invention is that of ball mills which conventionally comprise a treatment chamber defined by the internal volume of a tank, typically cylindrical, inside which may be ground materials, such as cellular microorganisms by dry, or in liquid medium. The lysis of unicellular microorganisms is obtained by the effect of the shearing forces resulting from the grinding and the collision between them of the small balls, inside the chamber, which are set in motion by a stirring shaft of the mill, driven by rotation on its axis, under the action of a geared motor.
    [0002] US 3,844,490, US. 5.785.262, US2005 / 0011976 or WO 2014/005570 teach such ball mills, horizontal axis or vertical axis. The stirring shaft of a ball mill conventionally comprises, and as illustrated in the sectional view of FIG. 1 of document WO2014 / 005570, a central axis along which stirring elements are distributed, globally. planes, and substantially perpendicular to the axis, which we will later call "stirring discs", for the sake of simplification. It is known to space these stirring discs relative to each other through tubular spacers, mounted around the axis, and each bearing at their ends on two successive stirring discs of the shaft.
    [0003] The assembly of such a stirring shaft consists essentially of successively threading, and alternately, the spacers and the stirring discs on the central axis until they come into contact. The stack of spacers and stirring discs is held between two end stops integral with the central axis and whose spacing is maintained by a clamping system. Usually, rods (or rods made of steel) pass through the grooves of the stirring discs, on the internal diameter, and in order to secure in rotation the axis and the stirring discs.
    [0004] For example, and in document US 2005/0011976 A1, in FIG. 12, the stirring disks are marked 22, the central axis marked 24 and the spacers, denoted "spacer", marked 20.
    [0005] As seen in the sectional view of FIG. 1 of the document WO 2014/005570, the stirring shaft comprises a free interstitial volume, defined between the outer surface of the central axis and the inner walls of the tubular spacers, the disks. stirring, and an end flange (right in Figure 1). As visible in this same figure, the balls are disposed in the treatment chamber, with the materials to be ground, in the treatment volume defined between the inner wall of the tank and the outer surface of the stirring shaft. On the other hand, the stirring shaft is sealed, in order to prevent any insertion of material and balls into the hollow of the stirring shaft. In particular, the assembly between the various elements (spacers, stirring disks, central axis, flange) is a sealed assembly: the spacers are tubular, with solid walls, the fluid tightness being completed by joints between the surfaces support spacers / stirring discs, seals that are compressed during tightening. Sealing washers (copper) are associated with the screws used for clamping the end plate to prevent leakage along them, through the flange. The present Applicant has conducted tests for the use of such a ball mill. In particular, the aim was to lyse unicellular microorganisms (chlorella type microalgae), grown in a bioreactor, having a concentration of 300 grams to 400 grams (dry matter) per liter. The micro-algae, in a liquid medium, are conveyed at a constant flow rate to the feed opening of the ball mill at one end of the chamber. In the treatment chamber, these micro-algae are lysed, by the work of the balls which are stirred by the stirring shaft, driven on its axis at a speed close to 1000 rpm, the crushed cells coming out continuously at the other end of the enclosure.
    [0006] Chlorella-type microalgae are extremely sensitive organisms to contaminations of bacterial origin; it is imperative to maintain satisfactory operating conditions in order to avoid any contamination during grinding operations. The appearance of a contamination is unacceptable and involves putting the contents in a scrap, then sterilizing the installation, before the implementation of a new production. Contamination causes consequent production shutdowns. On this point, and according to the findings of the inventor, the design of the stirring shaft as known from the state of the art is at risk, in that a leakage of the tree would allow an insertion of material into the hollow of the tree, stagnant, thus favoring the appearance of a contamination, internal to the tree, which due to this same defect would propagate, in return, to the materials in the treatment enclosure.
    [0007] During the tests, the present Applicant therefore carefully examined the tightness of the stirring shaft. In particular, and under the conditions mentioned above, it appeared that the stirring shaft was not perfectly sealed.
    [0008] The object of the present invention is to provide a stirring shaft for ball mill which overcomes the aforementioned drawbacks, in particular which eliminates the risk of contaminations such as they can be encountered in the stirring shafts of the state of the art. the technique.
    [0009] Another object of the present invention is to provide such a stirring shaft requiring, in use, simplified maintenance. Other objects and advantages of the present invention will become apparent from the following description which is given for information only and which is not intended to limit it. The invention firstly relates to a milling agitator shaft comprising: - an axis intended to be driven in rotation, - a succession of stirring elements, planes, and spacers, tubular, alternately mounted on the axis, along a stack along said axis, - extreme stops, integral with the axis, now in compression the stack of stirring elements and spacers. According to the invention, the tubular spacers have orifices allowing the free circulation of the fluids and the material, from the outside towards the inside of the stirring shaft, and vice versa.
    [0010] According to optional features of the invention, taken alone or in combination: the tubular spacers are monobloc elements; the orifices have diameters of between 4 mm and 50 mm, preferably between 15 mm and 30 mm; the orifices are polished, or even chamfered beforehand; the stirring elements are connected in rotation to the axis by means of flats between the axis and the stirring elements, or alternatively by steel rods; - the axis is in stainless steel 1.4418 or X4CrNiMo16.5.1 according to the Euronorm standard; The stirring elements each comprise a plate provided with a central orifice for the passage of the axis, substantially perpendicular to the axis, and preferably through recesses distributed around said axis; the spacers bear on the faces of the stirring elements at their ends, by means of joints between the bearing faces of the spacers, on the one hand, and the bearing faces of the stirring elements, 'somewhere else. The invention also relates to a ball mill comprising a tank receiving a stirring shaft according to the invention. Preferably, the orifices of the spacers are dimensioned greater than the size of the balls so as to allow free circulation of the balls from the outside towards the inside of the stirring shaft, and vice versa.
    [0011] The invention will be better understood on reading the following description accompanied by the appended drawings in which: FIG. 1 is a diagrammatic view, along a plane of section passing through the axis, of a ball mill conforming to FIG. invention, equipped with a stirring shaft according to the invention. FIG. 1a is a detail view, in perspective, of a perforated spacer according to the invention fitted to the agitator shaft of the mill of FIG. 1. FIG. 1b is a detail view, from the front of a stirring element fitted to the stirring shaft of the mill of FIG. 1. - FIG. 2 is a detailed view of the frame II as illustrated in FIG. 1. FIG. 3 is a view schematic illustrating the securing in rotation between the axis and one of the stirring elements by means of flats, - Figure 4 is a view in transparency of a length section of the stirring shaft, - FIG. 5 is a view according to section IV-IV as illustrated in FIG. 4; FIG. 6 is a detailed view of the spacer of FIG. 4. The invention relates first of all to a shaft of FIG. agitator 1 for a mill comprising: - an axis 2 intended to be rotated, typically by a geared motor 12, - a succession of stirring elements 3, planes, and spacers 4, tubular, alternately mounted on the axis, along a stack along said axis 2, - end stops 5,6, integral with the axis, now in compression the stack of elements stirrer 3 and spacers 7.
    [0012] Such an assembly is illustrated by way of non-limiting example in FIG. 1. The assembly of such an agitating shaft consists essentially in successively threading, alternately, the spacers 4 and the stirring elements 3 on the shaft. axis 2, central, until they come into contact. The stack of the spacers 4 and the stirring elements 3 is held between the two extreme stops, left, marked 5 and right marked 6, integral with the central axis and whose spacing is maintained by a clamping system.
    [0013] The stirring elements 3 may each comprise a plate, provided with a central orifice for the passage of the axis 2, or even preferably through recesses 31 distributed around the axis. Each of the stirring elements may be of non-circular contour, as illustrated in FIG. 1b, the stirring elements 3 being preferably then angularly offset, alternately, along the length of the axis 2. Such a design stirring shaft is known from the state of the art, in particular from WO 2014/005570. In such a state of the art known to the present Applicant, the stirring shaft is a sealed shaft so as to prohibit insertion of material from the treatment chamber into the hollow of the stirring shaft. The tests carried out by the present Applicant, under the conditions mentioned in the introduction, however, demonstrated that this seal was not perfect, this lack of sealing constituting a risk of occurrence of contamination. According to the present understanding of the inventor, such a sealing defect would be explained, during the tests carried out, by the high load which would be exerted on the stirring shaft, in dynamics, causing stresses (flexion and / or torsion) causing leakage. According to the reflections of the inventor, and of course, it would be possible to strengthen the tightness of the shaft by an improved design of the stirring shaft, for example by increasing the number of joints and their quality. However, and according to the experience of the inventor, the sealing of such a stirring shaft should always be periodically checked, and necessarily involve periodic maintenance operations, heavy and expensive, such as changes in joints. The invention arose from the finding by the inventor that the implementation of a sealed stirring shaft is problematic.
    [0014] The solution proposed by the inventor is contrary to what the skilled person would do: since it appears difficult to ensure perfect sealing of the stirring shaft, the solution proposed by the inventor is contrary to provide spacers, largely permeable, so as to ensure the evacuation, emptying and cleaning the free internal volume to the spacer. The objective pursued here is therefore to eliminate in the stirring shaft the cavities internal to the spacers in which the material and the fluids can be inserted and then stagnate, by contaminating the grinding chamber in return. According to the invention, the tubular spacers 3 advantageously have orifices 7 allowing the free flow of fluids and material from the outside towards the inside of the stirring shaft 1, and vice versa. The orifices 7 have diameters between 4 mm and 50 mm, preferably between 20 mm and 30 mm. Preferably, these orifices 7 are dimensioned greater than the size of the balls 11 used in the mill 10. The free passage of the balls through the spacer 4, allows, during operation, to ensure better cleanability of the internal cavities ( It gap) during operation. Preferably, the geometry of the orifices 7 is designed so as to promote a circulation of the fluids and the material to be ground, during the rotation of the stirring shaft, from the outside towards the inside of the spacer, and vice versa. The tubular spacers 4 may be monoblock elements, for example cylindrical. The orifices may be made by machining the wall of the tubular spacer. Preferably, these orifices 7 are polished or chamfered, in order to minimize the deposits, and thus the appearance and development of contamination. According to the findings of the inventor, this new design of agitating shaft, permeable to fluids and materials to be ground and, preferably to the grinding balls, however has the defect of exposing the central axis 2 at higher stresses than those encountered by a central axis of a sealed stirring shaft, as known from the state of the art. The axis of a stirring shaft according to the state of the art is indeed protected from the materials to be milled and grinding balls, and thus subject to lower risks of corrosion. In order to overcome this annoyance, the choice of the material of the axis 2 is important in that it determines not only its mechanical strength in dynamics, in particular the torsion and bending, but also its resistance to corrosion. In order to increase the life of the equipment, according to the invention, it is advantageous to choose a stainless steel whose mechanical performance and corrosion performance meet these new constraints, more demanding. For this purpose, the axis 2 can be in stainless steel 1.4418 or X4CrNiMo16.5.1 (or a martensitic steel) according to the Euronorm standard.
    [0015] According to one embodiment, not limited to FIG. 3, the stirring elements 3 can be connected in rotation to the axis by means of flats 20, 30 between the axis 2 and the stirring elements 3. in this case, the central orifice of the stirring elements allows the insertion of the axis 2 to the operating clearance. These flats 20 and 30 between the axis 2 and the stirring element 3 cooperate to prohibit a relative rotational movement between these two elements. Alternatively, steel rods can be used. According to a non-illustrated embodiment, the spacers 7 can directly support (i.e. without joints) on the faces of the stirring elements 3 by their ends. According to an alternative embodiment, illustrated nonlimitingly in FIG. 2, the spacers 7 press on the faces of the stirring elements 3 at their ends, by means of seals 8 between, the bearing faces of the spacers 4, d on the one hand, and the bearing faces of the stirring elements 3, on the other hand. In such a case, the objective of these seals 8 is obviously not to provide fluid tightness, since the spacers are permeable to liquids. These seals 8 in particular to facilitate assembly, being more tolerant on the manufacturing dimensions of the various, namely the stirring elements and spacers. These seals 8 can make it possible to limit the risks of marking the faces of the stirring elements, at the level of the bearing surface of the spacers 4. In order to avoid crushing of the seals 8 during tightening, these can be partially received. in grooves 40 in depth of the bearing surfaces of the spacers 7. The seals 8 are circular seals, preferably annular.
    [0016] The invention also relates to a ball mill 10 comprising a tank 15 receiving a stirring shaft 1 according to the invention. Preferably, the orifices 7 of the spacers 4 are sized larger than the size of the balls 11 so as to allow free movement of the balls from the outside to the inside of the stirring shaft 1, and vice versa during operation. The mill is preferably horizontal. It is preferably a grinder providing a treatment of materials, marked M, continuously. The mill has an inlet 13 for the material to be milled and an outlet 14 for the ground material. Such a mill is preferably fed continuously, according to a determined flow rate. The invention finds particular application as an industrial mill. The feed rate to the mill may be between 0.5 m 3 / h and 10 m 3 / h and for concentrations of solids (dry matter) of 300 g / l to 400 g / l, conditions for which the stirring shaft 1 is subjected to high mechanical stresses. The mill maintenance can provide, especially between two production phases, the cleaning of the internal walls of the tank 15, the inner and outer walls of the stirring shaft 1, and the axis 2, by feeding the mill a cleaning solution.
    [0017] During this step, the stirring shaft 1 is preferably rotated in order to promote the circulation of the cleaning solution through the stirring shaft 1, via the orifices 7. Naturally other embodiments could have been envisaged by those skilled in the art without departing from the scope of the invention as defined below.
    [0018] NOMENCLATURE 1. Stirring shaft, 2. Shaft, 3. Stirring element, 4. Tubular spacers, 5.6. Extreme end stops, 7. Orifices, 8. Gasket, 10 10. Ball mill, 11. Balls, 12. Gearmotor, 13. Material inlet (Crusher), 15 14. Material outlet (Crusher), 15. Tank, 20. Flats (Spindle), 30. Flats (Stirring Elements), 31. Recesses (Stirring Elements), 40. Throats (for Joint) M. Matter, It. Interstice (between axis and spacer).
    权利要求:
    Claims (12)
    [0001]
    REVENDICATIONS1. Agitator shaft (1) for a mill comprising: - an axis (2) intended to be driven in rotation, - a succession of stirring elements (3), planes, and spacers (4), tubular, mounted alternately on the axis, following a stack along said axis (2), - end stops (5,6), integral with the axis, now in compression the stack of stirring elements and spacers , characterized in that the tubular spacers (4) have orifices (7) allowing the free circulation of the material and fluids from the outside to the inside of the stirring shaft, and vice versa.
    [0002]
    2. agitating shaft according to claim 1, wherein the tubular spacers (4) are monobloc elements.
    [0003]
    3. agitating shaft according to claim 1 or 2, wherein the orifices (7) have diameters between 4 mm and 50 mm, preferably between 20 mm and 30 mm.
    [0004]
    4. stirring shaft according to one of claims 1 to 3, wherein the orifices (7) are polished or chamfered.
    [0005]
    5. stirring shaft according to one of claims 1 to 4 wherein the stirring elements (3) are rotatably connected to the axis by means of flats (20, 30) between the axis (2) and the stirring elements (3).
    [0006]
    6. stirring shaft according to one of claims 1 to 5 wherein the axis (2) is in a stainless steel 1.4418 or X4CrNiMo16.5.1 according to Euronorm standard.
    [0007]
    7. stirring shaft according to one of claims 1 to 6 wherein the stirring elements (2) each comprise a plate, provided with a central hole for the passage of the axis, substantially perpendicular to the axis.
    [0008]
    8. stirring shaft according to one of claims 1 to 7 wherein the spacers (7) bear on the faces of the stirring elements (3) at their ends, through seals (8) between, the bearing faces of the spacers (4), on the one hand, and the bearing faces of the stirring elements (3), on the other hand.
    [0009]
    9. Mill (10) ball comprising a vessel receiving a stirring shaft (1) according to one of claims 1 to 8.
    [0010]
    10. Mill according to claim 9, wherein the orifices (7) of the spacers (4) are dimensioned greater than the size of balls (11) so as to allow the free movement of the balls from the outside to the inside of the stirring shaft (1), and vice versa.
    [0011]
    11. A method of cleaning a mill according to claim 9 or 10, wherein the internal walls of the vessel (15), the inner and outer walls of the agitating shaft (1), are cleaned by feeding the mill of a cleaning solution, and preferably by rotating the stirring shaft (1) and so that the cleaning solution flows through the stirring shaft (1).
    [0012]
    12. Use of a stirring shaft (1) according to one of claims 1 to 8, or a mill according to claim 9 or 10 for grinding unicellular microorganisms, for example microalgae chlorelles type.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP3160650B1|2018-08-01|Agitator shaft for a grinding mill
    EP2265362A1|2010-12-29|Blender assembly and method for producing a preparation using said assembly
    US9283565B2|2016-03-15|Soil classifier
    FR2571988A1|1986-04-25|ULTRASOUND HEAD
    JP5143737B2|2013-02-13|Magnetic seal assembly
    EP2926892A1|2015-10-07|Stirring helix
    KR20150052782A|2015-05-14|Grinder
    CA2756414A1|2010-09-30|Disposable bioreactor and use-once stirring system
    JP2007186155A|2007-07-26|Contra-rotating propeller
    CN108612743A|2018-10-02|A kind of passive magnetic liquid dual suspension hydrodynamic bearing
    CN105727776A|2016-07-06|Dissolving device for sewage treating agent
    EP2970845B1|2019-09-25|Bioreactor
    KR101647553B1|2016-08-10|Mud pump
    FR2589090A1|1987-04-30|DEVICE FOR CLEANING THE INTERNAL WALL OF TUBES, TUBE CLEANERS AND METHOD OF IMPLEMENTING THE SAME
    EP1974007B1|2009-11-11|Fermentation vessels
    US3643877A|1972-02-22|Pump with macerator
    US20170325465A1|2017-11-16|Agitator shaft seal assembly for industrial mixers
    KR101412110B1|2014-06-26|Pumps for seawater
    CN107542673A|2018-01-05|A kind of high-low pressure separates closed type immersible pump
    WO2016125263A1|2016-08-11|Method for manufacturing hydraulic device, and hydraulic device manufactured using this manufacturing method
    CN210510286U|2020-05-12|Crusher shaft sealing device
    CN212717353U|2021-03-16|Horizontal sewage pump shaft seal structure
    JP6169993B2|2017-07-26|Rotary joint for clean fluid
    CN105854671A|2016-08-17|Stirring device
    WO2003062655A1|2003-07-31|Rigid ball bearing
    同族专利:
    公开号 | 公开日
    ES2688709T3|2018-11-06|
    MX2016017121A|2017-05-03|
    EP3160650B1|2018-08-01|
    FR3022804B1|2016-07-15|
    EP3160650A1|2017-05-03|
    CN106457258B|2018-12-11|
    CN106457258A|2017-02-22|
    BR112016029527B1|2021-06-22|
    JP2017518878A|2017-07-13|
    KR20170022987A|2017-03-02|
    BR112016029527A2|2017-08-22|
    US20170136470A1|2017-05-18|
    US10376895B2|2019-08-13|
    WO2015197972A1|2015-12-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB2268426A|1992-07-07|1994-01-12|Joseph Miller Forrest|Bead mill|
    US5882246A|1995-06-06|1999-03-16|Kotobuki Eng. & Mfg. Co., Ltd.|Wet agitating ball mill and method|
    WO2014005570A2|2012-07-05|2014-01-09|Netzsch-Condux Mahltechnik Gmbh|Method for operating a stirred ball mill and stirred ball mill for said method|
    US3844490A|1972-12-06|1974-10-29|G Schold|Apparatus for dispersing finely divided solid particles in a liquid vehicle|
    US4813617A|1988-06-17|1989-03-21|Knox Jr Arthur C|Wet grinding machine|
    GB9220561D0|1992-09-29|1992-11-11|Ecc Int Ltd|Immobilisation of material|
    US5333804A|1993-08-20|1994-08-02|Premier Mill Corp.|Agitator mill|
    US5785262A|1997-03-13|1998-07-28|Tippett; Jerome P.|Apparatus FPR dispersing finely divided solid particles in a liquid vehicle|
    US6010085A|1999-03-17|2000-01-04|Kerr Corporation|Agitator mill and method of use for low contamination grinding|
    AU2932401A|2000-01-10|2001-07-24|Premier Mill Corp|Fine media mill with improved disc|
    JP3261125B1|2001-07-06|2002-02-25|有限会社大東土木|Attritor|
    DE202004013056U1|2004-08-19|2004-11-11|Vma-Getzmann Gmbh|disperser|
    US7559493B1|2007-08-27|2009-07-14|Hockmeyer Equipment Corp.|Deterring wear at a bearing construct in a basket media mill|
    AU2010275687A1|2009-07-24|2012-01-12|F. Hoffmann-La Roche Ag|Stirrer system|
    CN102069027B|2010-11-29|2013-03-20|陶裕兴|Multifunctional shearing grinder|
    EP2540394B1|2011-06-27|2016-05-04|Miltenyi Biotec GmbH|Device for fragmenting tissue|
    US8677894B2|2011-08-01|2014-03-25|Olive X-Press Ltd.|Device for preparing olive paste for oil extraction|
    US8376252B1|2012-09-13|2013-02-19|Hockmeyer Equipment Corp.|Producing nanometer-range particle dispersions|
    US9283565B2|2013-02-12|2016-03-15|Shawn Patrick Greenwood|Soil classifier|DK3311921T3|2016-10-18|2019-01-14|Bachofen Willy A Ag|Stirring Ball Mill|
    CN110496675B|2019-07-23|2021-04-30|安徽药知源中药饮片有限公司|Crushing and grinding equipment for traditional Chinese medicine powder|
    KR102205909B1|2019-10-11|2021-01-20|박만선|Apparatus for filtering chopped seaweeds|
    KR102231445B1|2020-09-22|2021-04-12|주식회사 가람이엔지|Underwater green algae micro grinder|
    法律状态:
    2015-06-30| PLFP| Fee payment|Year of fee payment: 2 |
    2016-01-01| PLSC| Search report ready|Effective date: 20160101 |
    2016-07-08| PLFP| Fee payment|Year of fee payment: 3 |
    2017-06-30| PLFP| Fee payment|Year of fee payment: 4 |
    2018-06-18| PLFP| Fee payment|Year of fee payment: 5 |
    2018-10-26| TP| Transmission of property|Owner name: CORBION BIOTECH, INC., US Effective date: 20180920 |
    2019-07-01| PLFP| Fee payment|Year of fee payment: 7 |
    2021-06-18| PLFP| Fee payment|Year of fee payment: 8 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1455925A|FR3022804B1|2014-06-25|2014-06-25|AGITATOR TREE FOR SHREDDER|FR1455925A| FR3022804B1|2014-06-25|2014-06-25|AGITATOR TREE FOR SHREDDER|
    BR112016029527-7A| BR112016029527B1|2014-06-25|2015-06-23|AGITATOR SHAFT FOR A CRUSHING MILL|
    JP2016575217A| JP2017518878A|2014-06-25|2015-06-23|Agitator shaft for grinding mill|
    US15/319,087| US10376895B2|2014-06-25|2015-06-23|Agitator shaft for a grinding mill|
    EP15753079.1A| EP3160650B1|2014-06-25|2015-06-23|Agitator shaft for a grinding mill|
    KR1020167034117A| KR20170022987A|2014-06-25|2015-06-23|Agitator shaft for a grinding mill|
    PCT/FR2015/051684| WO2015197972A1|2014-06-25|2015-06-23|Agitator shaft for a grinding mill|
    MX2016017121A| MX2016017121A|2014-06-25|2015-06-23|Agitator shaft for a grinding mill.|
    CN201580033894.7A| CN106457258B|2014-06-25|2015-06-23|The blender axis of grater|
    ES15753079.1T| ES2688709T3|2014-06-25|2015-06-23|Agitation mill tree|
    [返回顶部]