• 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:
    The invention relates to a mixing apparatus with a in the upper part of the mixing apparatus, preferably standing on a frame arranged, open-topped mixing container and arranged in the lower part of the mixing apparatus, single-shaft agitator, which has a vertically arranged agitator shaft, at the one in the mixing container just above the one-shaft agitator is designed as a statorless agitator, wherein the attached to the agitator shaft rotor body is surrounded by an outer space which is arranged between the rotor body and the container wall of the mixing container and wherein the container wall a has a different shape from the cylinder wall, so that the outer free space along its circumference at least partially has a variable cross-section.
    公开号:AT513079A1
    申请号:T701/2012
    申请日:2012-06-21
    公开日:2014-01-15
    发明作者:Jozsef Budai;Johannes Haas;Josef Haas;Stefan Jiraschek
    申请人:Haas Food Equipment Gmbh;
    IPC主号:
    专利说明:

    Blender
    The invention relates to a mixing apparatus having an in-top of the mixing apparatus, preferably arranged on a frame, upwardly open or closable with a cover mixing container and carries a arranged in the lower part of the mixing apparatus single-shaft agitator having a vertically arranged agitator shaft in which a mixing tool arranged just above the container bottom, designed as a rotor body stirring tool is attached.
    In such mixing apparatus, large quantities of informal masses are produced, consisting mainly of water and flour, usually having a liquid to pulpy consistency, and from which edible, baked products or non-consumable baked products are produced later in a baking process. Such informal masses are z. B. the liquid baking preparations used in the baking process of wafer baking technology.
    The liquid baking formulations consist mainly of water and a main powdered component, mostly wheat flour or cornstarch, or other cereal flour or a mixture of different cereal or starch flours. The liquid baking preparations also contain other ingredients
    .................... 51 250 Pe / GA powdery or liquid ingredients, which make up only a small proportion of the total amount of the respective baking preparation and usually their respective consistency together with the liquid portions of the baking preparation or together with the powdered portions of the baking preparation are introduced into the mixing container of the mixing apparatus.
    The baked products made from the liquid baking formulations can be edible baked products, such as those described in US Pat. B. from the soft softwaffels, the crispy crunchy wafer ice cream cones or the crunchy-brittle waffle leaves of cream-filled wafer wedges are known.
    However, the baked products prepared from the liquid baking preparations may also be other products which are not intended for consumption, such as e.g. As packaging items, such as prepared from a starchy baking preparation packaging cups, or made from such a baking preparation parts of a once-only eating utensils such as knives, forks, Löffelrr or plates and cups.
    In known mixing apparatus for the preparation of liquid baking preparations, a standing in the upper part of the mixing apparatus, upwardly open, cylindrical mixing container is provided which receives the total amount of the baking preparation to be prepared and in the liquid and powdery portions of the baking preparation are entered from above. In the mixing vessel just above the bottom of the stator and the rotor of a single-shaft agitator is arranged, which has a central axis concentric to the container axis and the rotor is driven by a arranged under the mixing vessel in the lower part of the mixing apparatus drive motor. The agitator provides an outer, annular stator which is provided with vertically arranged mixing blades and has flow channels arranged between the mixing blades for the mixed material. The annular stator is located just above the bottom of the mixing vessel and rigidly connected to the bottom of the mixing vessel. The agitator furthermore provides a rotor arranged in the interior of the stator, which has a circular base plate rigidly connected to the rotor drive shaft and an annular outer ring, in which mixing blades arranged vertically and arranged between them
    5 .. * * ··· # ·· ♦ «· ♦♦ · 51250 Pe / GA
    Flow channels are arranged for the mix.
    In the known mixing apparatuses, the cylindrical mixing container is matched with its volume to the batch of baking preparation to be mixed in it. For different sized batches, there are therefore different sized mixing devices.
    If one fills the mixing container of the known mixing apparatus only partially with the baking preparation to be prepared, then although the majority of the total mass is well mixed, but it can also remain insufficiently mixed mass residues in the middle of the mixing container or on the container wall left, then separated from the well-mixed bulk of the baking preparation must be removed from the mixing container.
    It is an object of the present invention to provide a mixer for commercial and industrial use in the field of baking preparations, which overcomes the disadvantages of the prior art, achieves a good mixing of the constituents of the baking preparations and the resulting shapeless mass for the following Processing and baking process consistency required. Furthermore, the mixer should be inexpensive to manufacture and easy to maintain and clean. The mixer should also achieve good results with different filling quantities.
    The mixing apparatus according to the invention is characterized in that the single-shaft agitator is designed as a statorless agitator that the rotor body fixed to the agitator shaft is surrounded by an outer space which is arranged between the rotor body and the container wall of the mixing container and that the outer space along its circumference at least partially has a variable cross-section.
    In a first embodiment, the container wall has a first cylindrical wall section of radius R1 concentric with the agitator shaft and a second curved wall section, the apex of which has a radial distance from the stirrer shaft which is smaller than RI. Furthermore, at least in the area of the vertex, the second wall section may have a radius R2, of which the radius is R2, of which * * * ·· »t« • • Μ · * ** «·« · · ··· • · 4 * t *
    51 250 Pe / GA
    Curvature center is shifted by about 4% to 30% of the radius R1 relative to the agitator shaft.
    The mixing container may be formed from an upwardly open cylindrical container wall, in which the second curved wall portion is arranged and sealed against the cylindrical container wall and the container bottom. In one embodiment, the second wall portion has a lower height than the cylindrical container wall.
    In another embodiment, in the mixing apparatus, the tank wall is cylindrical and the agitator shaft is parallel to and spaced from the cylinder axis.
    The diameter of the rotor body may be, for example 45 to 75% of the inner diameter of the mixing vessel. The distance between the cylinder axis and agitator shaft is preferably in the range 2% to 15%, "preferably 2.5% to 10% of the inner diameter of the mixing vessel. Preferably, the mixing container is topped off by a cover and it has supply means such as filling openings for dough components to be mixed and nozzles for injecting liquid dough components or cleaning liquids. Preferably, the position of the feeders is adjustable. Furthermore, an outlet pipe can be arranged in the container bottom, which can be closed or opened by a closing device. Furthermore, the container bottom is inclined towards the outlet pipe.
    The rotor body can have different configurations. Preferably, a bottom plate formed with openings and webs, wherein on the webs substantially radial mixing vanes are arranged and wherein parallel to the bottom plate, a concentric end ring is provided which limits an inner space of the rotor body.
    The mixing vanes may be formed starting at a radial distance from the agitator shaft starting from a small initial height radially outward to the end ring rising. «« · · · »* ·· ♦ · · δ * ·
    51 250 Pe / GA
    Preferably, the mixing vanes are bent in the direction of rotation of the rotor body and the holes of the bottom plate each extend from its central region to near its outer edge. In one embodiment, the webs each carry two mixing blades. Further features of the invention can be found in the claims, the description and the figures.
    The invention will be described in more detail below by way of example with reference to several exemplary embodiments.
    Fig. 1 shows schematically a partial section through an embodiment of the mixing apparatus according to the invention according to line l-l in Fig. 3rd
    FIG. 2 shows a section along the line II-II in FIG. 3.
    Fig. 3 shows a plan view of the mixing apparatus.
    Fig. 4 is an oblique view of the mixing apparatus with the cover removed.
    Fig. 5 shows the plan view of a first embodiment of the rotor body and Fig. 6 is a side view of this rotor body.
    Fig. 7 to 9,10 to 12,13 to 15,16 to 18 and 19, 20 show another six embodiments of the rotor body, which can also be advantageously used in the mixing apparatus.
    Figs. 21 and 22 show a preferred alternative embodiment of the mixing apparatus in vertical section and top view.
    Fig. 23 shows a schematic plan view.
    Figs. 1 to 4 show a mixing apparatus according to the invention in various cracks and views. The mixing apparatus has a standing on the bottom frame 1. The frame 1 carries a standing in the upper part of the mixing apparatus, upwardly open, cylindrical container 15 with a cylindrical container wall 2. As shown in Fig. 1, the container is closed at the bottom of an inclined container bottom 3, in the direction of an outlet pipe 4 is inclined, which can be closed and opened by a closing device 5. In the middle of the container bottom 3 sits a bearing plate 6, on which the stirring motor 7 is flanged downwards. The stirring motor 7 drives a vertically arranged drive shaft which protrudes upward as Rühiwerkswelle 8 into the mixing container 15. At the upper end of the agitator shaft 8, a stirring tool in the form of a rotor body 9 is arranged.
    Within the cylindrical container 15 with the cylindrical container wall 2, a second curved wall portion 10 is arranged, which is sealed both with respect to the cylindrical container wall 2 and with respect to the container bottom 3. Thus, the mixing chamber 12 is only partially formed by the cylindrical container wall 2, as is narrowed asymmetrically by the second curved wall portion 10 of the mixing chamber 12, as can be clearly seen in Fig. 3.
    The construction just described for the mixing container is advantageous for cost and static reasons, since the cylindrical container 15 with the cylindrical container wall 2 gives the mixing apparatus a high strength. With regard to the mixer function, however, only the first cylindrical wall section 11 and the second curved wall section 10 connected thereto are important, which include the mixing chamber 12 therein.
    As can be seen in FIG. 3, the rotor body 9_ sits asymmetrically in the mixing chamber 12 with its agitator shaft 8. If the first cylindrical container wall has a first cylindrical wall section 11 with a radius R1 concentric with the agitator shaft 8, then the second curved wall section 10 has at its apex 13 is a radial distance R2 from the agitator shaft 8 which is smaller than R1.
    In Figs. 1 and 2, the outer free space 14 is schematically and dashed lines, which has the height of the rotor body 9 and extends along the first cylindrical wall portion 11 and along the second curved wall portion 10 around the rotor body 9. As can be seen clearly in FIG. 1, the cross-sectional area of the free space 14 is substantially larger than the cross-sectional area relative to the second curved wall section 10 relative to the first cylindrical wall section. In this respect, the outer free space is variable along its circumference since it extends from the lateral attachment points 34 of the second curved wall portion 10 continuously reduced to the apex 13 and then increased again. This asymmetrical arrangement of the rotor body 9 to the wall sections surrounding it results in a surprisingly better mixing
    ·· **, t «· · · · I · * * ·) · · · ♦ · ·····················································
    51 250 Ρθ / GA of the liquid or doughy baking mixture, as is the case with the known arrangement of a central agitator arrangement.
    In Fig. 2 the mixing container is closed by a cover 16, wherein the cover can be tightened by means of locking screws 17. Feeding means are provided for supplying the necessary components to be mixed of the mass to be stirred, namely filling openings 18 for pulverulent or doughy components and nozzles 19 for supplying liquid constituents and, for example, also a washing solution. The filling openings 18 may for example be slidably provided in the cover, so that the filling takes place more in the center or more at the periphery of the mixing container.
    As can be seen in particular from FIG. 3, the first cylindrical wall section 11 is concentric with the agitator shaft 8, whereas the second curved wall section 10 is offset in comparison. As a result of the narrowing of the outer free space along the circumference of the rotor body, there is good mixing and the mixed mass is moved through the rotor body with pressure, so that it is ensured the entire mixer volume is thoroughly mixed.
    The ratio of the cross-sectional constriction of the outer free space along its circumference depends on the arrangement of the second curved wall portion 10. This wall section can be arranged by suitable means at greater or lesser distance from the periphery of the rotor body. In any case, at the apex 13 of the second curved wall portion, the distance to the rotor body 9 is the lowest. The second wall section has approximately a radius R3 whose center of curvature is shifted by approximately 4% to 30% of the radius R1 with respect to the agitator shaft 8.
    Figures 21 and 22 show a preferred alternative embodiment of the asymmetrical arrangement of the rotor body 9. In this mixing apparatus, the mixing vessel 15 and also the mixing chamber 12 is cylindrical. Unlike the known prior art, however, the rotor body 9 driven by the agitator shaft 8 sits at a distance from the cylinder axis 20 and approximately parallel thereto. Preferably, the distance between the cylinder axis and agitator shaft is in the range of 2% to 5%, more preferably 2.5% to 10% of the inner diameter of the mixing container. For example, with an inner diameter of the mixing container of about 700 mm and a rotor diameter of about 450 mm, the distance between Zyiinderachse 20 and agitator shaft 8 may be about 20 mm. A preferred range is between 20 mm and 70 mm in the dimensions mentioned.
    In this type of construction according to FIGS. 21, 22, the second bent wall section within the cylindrical mixing container is omitted. Incidentally, the structure of the mixer is the same as described above. In particular, this mixing container is closed by a cover.
    The operation of all these mixing apparatus can be continuous or discontinuous.
    Also in Fig. 21 is schematically drawn with dashed lines of the outer space 14 along the circumference of the rotor body 9 and this space is also equipped with a variable cross-section.
    Some examples of the rotor bodies used are described below.
    Figures 5 and 6 show in plan view and side view of the rotor body, which is incorporated in the Mischapparatdarsteliungen Fig. 1 to 4 and Figures 21,22. The rotor body has a bottom plate 21 which is provided with holes or apertures 22. Between the openings 22, the webs 23 are provided. On the webs 23, the substantially radial mixing blades 24 are arranged and on top of the mixing blades, a concentric end ring 25 is provided parallel to the bottom plate 21. At a radial distance from the mounting hole 26 for the agitator shaft, the mixing vanes 24 run from a small initial height radially outwards to the height of the closing ring ascending. In the present embodiment, the mixing blades are bent against the direction of rotation of the rotor body. Each of the bars carries two mixing blades. The apertures 22 extend. ································································. ft ft ftftftft ft ftftftft ft * ft ftftftft
    51250 pe / GA from the central area near hole 26 to near the outer perimeter of the floorboard.
    Inside the rotor body of the inner space 27 is formed through which the mix easily penetrate into the rotor body and can be distributed by this again in the mixing chamber. The mixed mass is also pressed through the openings 22 down so that unmixed or poorly mixed components are avoided under the bottom plate.
    As has already been described above, the outer clearance arranged around the outside of the rotor body causes, due to its cross-sectional changes, an additional mixing component, as a result of which the mixed material as a whole is thoroughly mixed.
    In the figures 7 to 9, the rotor body 9 also has a fastened to the agitator shaft 8 bottom plate 21. Above the bottom plate 21, an inner free space 27 of the roof body 9, which is arranged above the agitator shaft 8, is provided. Around the inner free space 27, mixing vanes 24 arranged on the bottom plate 21 are provided. Between the mixing flights 24, outwardly extending flow channels 28 are provided from the inner clearance 27, bounded upwardly by the end ring 25 connected to the upper wheels of the mixing vanes 24. The end ring 25 includes a centrally located recess 29 which is disposed above the inner space 27 of the rotor body 9.
    In the embodiment of the rotor body 9 shown in FIGS. 7 to 9, the latter has, beyond the outer edge of the closing ring 25, outwardly projecting additional mixing vanes 30, which are arranged in the outer, annular free space 14 arranged between the rotor body 9 and the cylindrical container wall of the mixing vessel 15 protrude. The additional mixing vanes 30 have a lower portion 31 extending parallel to the rotor axis of rotation and an upper portion 32 extending obliquely to the rotor axis of rotation. The lower portions 31 of the additional mixing vanes 30 running parallel to the rotor axis of rotation protrude downward beyond the bottom plate 21 of the rotor body 9. »·· * · • ♦ · t - ♦ ·« · · · »» • · «: ::; . *. ·:: ♦, / · .. · * ............ 10
    51250 Pe / GA
    10 to 12 show a rotor body 9, in which between the bottom plate 21 and provided with a central recess 29 end ring 25 standing arranged mixing vanes 24 are provided, which protrude with their inner end portions in the inner space 27 of the rotor body 9 inside. The mixing vanes 24 rest on the radially extending webs 23 formed in the bottom plate 21. These webs are separated from one another by holes or openings 22 arranged in the bottom plate 21. In the bottom plate 21 six star-shaped webs are formed, on which six star-shaped mixing blades 24 are. The mixing vanes 24 are curved.
    FIGS. 13 to 15 show a further embodiment of the rotor body 9. FIG. 14 shows the rotor body 9 with the surrounding free space 14, which is formed narrowed towards the apex 13 by the second curved wall section 10 and then to the cylindrical wall section 11 expanded again. The star-shaped slightly curved mixing blades 24 terminate outside on the peripheral line of the end ring 25 and protrude internally into the inner space 27, wherein the end ring 25 is relatively large area and the inner space is kept small.
    Figures 16 to 18 show a further embodiment of the rotor body, wherein only three radially arranged mixing blades 24 and between these three openings 22 are arranged. These mixing vanes 24 also project with their inner ends over a short distance into the inner free space 27 of the rotor body 9.
    In Fig. 17 it is shown how this rotor body is arranged in the cylindrical mixing container 15 and how by the inserted second curved wall portion 10 of the outer free space 14 around the rotor body 9 has the tapered and then widening cross section.
    Figures 19 and 20 show side and top views of another rotor body, the construction of which is self-evident in view of the previous design descriptions. It is a relatively small-sized rotor body, wherein the mixing vanes 24 slightly curved in the radial direction from the outer circumferential line of the bottom plate 21 to the inner circumferential line of the end ring 25 extend.
    FIG. 23 shows a purely schematic plan view of the mixing apparatus similar to FIG. 22, wherein the agitator shaft is variable in its distance from the cylinder axis 20 of the cylindrical container. By this variability of the distance and the distance between the outer edge of the rotor body 9 and the container wall 2 and thus the extent of the constriction of the free space 14 is adjustable.
    It is thus possible to adjust the stirring behavior to the other stirring parameters, such as to adapt to the speed of the rotor body, the dough composition and the amount of dough. For this purpose, a circular cut-out 35 is provided in the container bottom, in the rotatable, but sealed, the bearing plate 6 is inserted. In the bearing plate 6, the agitator shaft 8 is guided leading from below to the rotor body 9, wherein the bearing position is outside the axis of rotation 35 of the bearing plate. The stirrer motor can be flanged to the bottom of the bearing plate.
    The position of the agitator shaft and the associated rotor body 9 shown in FIG. 23 with the continuous line is the position with the greatest approximation to the container wall 2. The positions 8 'to 8 "" for the agitator shaft 8 are shown by dashed lines and turn by appropriate rotation of the Bearing plate set according to arrow 37.
    The rotor body 9 is shown for clarity only as a circle in a position and without the associated mixing blades.
    The storage of the bearing plate 6 in the cutout 35 can be selected arbitrarily by the expert. In addition to the necessary skill, the tightness of the container bottom and easy cleaning should be maintained. This can be achieved for example by gradual formation of the cutout 34 in the container bottom and sealing with circumferential sealing ring.
    The adjustment of the agitator shaft is shown in Fig. 23 slightly elevated. In practice, an adjustment is on the order of ········ · 12
    51 250 Pe / GA should be sufficient for about 10% of the rotor body diameter, but this should not be construed as limiting the adjustability.
    13 51 250 Pe / GA
    Reference numeral: 34. Lateral attachment point 35. Section 36. Rotation axis 37. Arrow R1 Radius first cylindrical wall section R2 Radial distance R3 Radius of the 2nd curved wall section 1. Frame 2. Cylindrical container wall 3. Container bottom 4. Outlet tube 5. Closing device 6. Bearing plate 7 Stirring motor 8. Stirrer shaft 9. Rotor body 10. Second curved wall section 11. First cylindrical wall section 12. Mixing chamber 13. Vertex 14. Outer free space 15. Cylindrical container 16. Cover 17. Screw plugs 18. Filling openings 19. Nozzle 20. Cylinder axis 21. Base plate 22. Openings 23. Slats 24. Mixing vanes 25. Ending ring 26. Mounting hole 27. Inner clearance 28. Flow channels 29. Central recess 30. Additional mixing blades 31. Lower section 32. Upper section 33. Center of curvature
    权利要求:
    Claims (29)
    [1]
    99 ♦ · • · • * ♦ 99 9 ♦ t ♦ · ♦. 9 9 ·················································································································································································································································· upper part of the mixing apparatus, preferably arranged on a frame (1) standing upwardly open mixing vessel and arranged in the lower part of the mixing apparatus, a one-way agitator having a vertically arranged agitator shaft (8) at the one in the mixing vessel just above the container bottom (3) arranged, designed as a rotor body (9) agitating tool is fixed, characterized in that the single-shaft agitator is designed as a statorless agitator that the rotor shaft (8) fixed rotor body (9) is surrounded by an outer space between the the rotor body (9) and the container wall (2) of the mixing container is arranged and that the container wall has a different shape from the cylinder wall, so that the outer free space (14) along its Circumference at least partially has a variable cross-section.
    [2]
    2. Mixing apparatus according to claim 1, characterized in that the container wall (2) has a first cylindrical Wandabschnit]; (11) having the radius R1 concentric with the agitator shaft (8) and a second arcuate wall portion (11) whose apex (13) has a radial distance R2 from the agitator shaft which is smaller than R1.
    [3]
    3. mixing apparatus according to claim 2, characterized in that the second wall portion (10) has a radius R3, whose center of curvature (33) is displaced by about 4% to 30% of the radius R1 relative to the agitator shaft.
    [4]
    4. mixing apparatus according to claim 1 to 3, characterized in that the mixing container is formed from an upwardly open cylindrical container wall (2), in which the second curved wall portion (10) and arranged opposite the cylindrical container wall (2) and the container bottom ( 3) is sealed.
    [5]
    5. 15 '► ** * * • • • • • • ♦ ·· Λ * «* * · *»' > ♦ · * ♦ «· · ·» · > 51 250 PelGA mixing apparatus according to claim 1, characterized in that the container wall is cylindrical and that the agitator shaft (8) is parallel to and at a distance from the axis of the cylinder (3). 20) is arranged.
    [6]
    6. Mixing apparatus according to one of claims 1 to 5, characterized in that the diameter of the rotor body is 45 to 75% of the inner diameter of the mixing container.
    [7]
    7. mixing apparatus according to claim 5 or 6, characterized in that the distance between the cylinder axis (20) and agitator shaft (8) in the range 2% to 15%, preferably 2.5% to 10% of the inner diameter of the mixing container.
    [8]
    A mixing apparatus according to any one of claims 1 to 7, characterized in that the mixing container is lockable upwardly from a cover (16) and __________through the cover supply means such as filling holes (18) for dough components to be mixed and nozzles (19) for injecting liquid dough components or Cleaning liquids are provided.
    [9]
    9. mixing apparatus according to claim 8, characterized in that the position of the supply means (18) is adjustable.
    [10]
    10. Mixing apparatus according to one of claims 1 to 8, characterized in that in the container bottom (3) an outlet pipe (4) is arranged, which by a closing device (5) can be closed or opened.
    [11]
    11. Mixing apparatus according to claim 10, characterized in that the container bottom (3) is inclined towards the outlet pipe (4).
    [12]
    12. Mixing apparatus according to one of claims 1 to 11, characterized in that the rotor body (9) with a perforations (22) and webs (23) formed bottom plate (21) that on the webs (23) substantially radial mixing blades (24) are arranged and that a concentric end ring (25) is provided parallel to the bottom plate (21). 250 Pe / GA »· · · · · · · * * ·· *. · · · · · · - 16 »· · ·
    [13]
    13. A mixing apparatus according to claim 12, characterized in that the mixing vanes (24) at a radial distance from the agitator shaft (8) starting from a small initial height radially outwardly to the end ring (25) are formed increasing.
    [14]
    14. Mixing apparatus according to claim 12 or 13, characterized in that the mixing vanes (24) are bent against the direction of rotation of the rotor body.
    [15]
    15. Mixing apparatus according to one of claims 1 to 14, characterized in that the openings (22) of the bottom plate (21) each extend from its central region to near its outer edge.
    [16]
    16. Mixing apparatus according to one of claims 1 to 15, characterized in that the webs (23) each carry two mixing blades (24).
    [17]
    17. Mixing apparatus according to one of claims 1 to 16, characterized in that the second curved wall portion (10) has a smaller height than the cylindrical mixing container (15).
    [18]
    18. Mixing apparatus according to one of claims 1 to 17, characterized in that the rotor body (9) is provided with radially arranged mixing blades (24).
    [19]
    19. Mixing apparatus according to one of claims 1 to 18, characterized in that the mixing vanes (24) are designed as curved mixing vanes.
    [20]
    20. Mixing apparatus according to one of claims 1 to 19, characterized in that the mixing vanes are designed as radially extending mixing vanes (24).
    [21]
    21. Mixing apparatus according to one of claims 1 to 20, characterized in that the rotor body (9) the radially arranged Mischflügein (24) protrude with their inner end portions in the inner space (27) of the rotor body (9) inside. ············································································································································································································································ / GA
    [22]
    22. Mixing apparatus according to one of claims 1 to 21, characterized in that the rotor body (9) the star-shaped mixing blades (24) protrude with their outer end portions on the outer edge of the Abschissringes outwardly and in between the rotor body and the cylindrical container wall projecting the mixing container outer annular clearance (14) projecting into it.
    [23]
    23. Mixing apparatus according to one of claims 1 to 22, characterized in that the rotor body (9) is provided with over the outer edge of the closing ring outwardly projecting, additional mixing blades, which are arranged in the between the rotor body and the cylindrical container wall of the mixing container outer , project ring-shaped clearance into it.
    [24]
    24. Mixing apparatus according to claim 23, characterized in that the additional mixing blades (30) are formed integrally with the between the bottom plate (21) and the end ring of the rotor body arranged mixing vanes (24).
    [25]
    25. Mixing apparatus according to claim 23 or 24, characterized in that the additional mixing vanes (30) have a parallel to the rotor axis of rotation, lower portion and an oblique to the rotor axis of rotation, upper portion (32).
    [26]
    26. Mixing apparatus according to one of claims 23 to 25, characterized in that the additional mixing blades protrude over the bottom plate of the rotor body downwards.
    [27]
    27. Mixing apparatus according to one of claims 1 to 26, characterized in that in the attached to the agitator shaft bottom plate of the rotor body in the adjoining the agitator shaft to the outside area two or more of holes or openings limited webs are provided.
    [28]
    28. Mixing apparatus according to one of claims 1 to 27, characterized in that the agitator shaft (8) in their distance from the cylinder axis (20) 18 · »·» · · · · · · ······ • · 1 • · ··. «, ♦ · ···· ν · * · ·· I« · · ·. + 250 * 250 is adjustable.
    [29]
    29. A mixing apparatus according to claim 28, characterized in that the / agitator shaft (8) ^ n a circular trained and in a circular cutout (35) of the container bottom (3) rotatably mounted bearing plate (6) is mounted, wherein the storage radially offset from Turning axle (36) of the bearing plate takes place Vienna, on June 21, 2012 Applicant

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    DE2821846A1|1979-11-29|Dough mixing and kneading machine
    DE10349048A1|2005-05-19|Ready meal is a dehydrated foodstuff, within a film bag, to be reconstituted by added liquid and mixed by squeezing the bag which can be boiled or cooked in a conventional or microwave oven
    DE202014105694U1|2014-12-02|Preparation device for flour pastry dough
    同族专利:
    公开号 | 公开日
    JP2015525133A|2015-09-03|
    EP2863752B1|2017-08-16|
    AR091517A1|2015-02-11|
    WO2013189983A1|2013-12-27|
    TW201412390A|2014-04-01|
    US20150320053A1|2015-11-12|
    RU2015101241A|2016-08-10|
    BR112014029169A2|2017-06-27|
    US9814245B2|2017-11-14|
    CN104394695A|2015-03-04|
    PH12014502799A1|2015-02-09|
    EP2863752A1|2015-04-29|
    KR20150033658A|2015-04-01|
    CN104394695B|2018-02-06|
    AT513079B1|2015-05-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2086858A|1935-10-04|1937-07-13|Milton S Dunkelberger|Liquid mixer|
    GB455891A|1936-03-24|1936-10-29|Hans Georg Seegers|Improvements in rotary mixing and emulsifying machines|
    DE1017145B|1954-10-15|1957-10-10|Paul Vollrath Maschinenfabrik|Device for mixing and / or kneading|
    US20050207270A1|2004-03-19|2005-09-22|Back To Basics Products, Inc.|Off-axis goblet for food mixer|
    EP1707052A2|2005-03-29|2006-10-04|SANCASSIANO S.p.A.|Kneading machine for food dough|
    EP2153760A1|2007-04-10|2010-02-17|Japan Kneader Co., Ltd.|Kneading member of kneader, kneader, and bread machine|
    WO2011082776A2|2009-12-14|2011-07-14|Franz Haas Waffel- Und Keksanlagen-Industrie Gmbh|Mixing device|
    DD93948A|
    US859943A|1906-10-03|1907-07-16|Elbridge G Holden|Mixer for liquids or semiliquids.|
    US1279515A|1916-11-21|1918-09-24|George D Coleman|Paint-mixer.|
    US2404380A|1944-02-19|1946-07-23|American Mach & Foundry|Vertical mixer|
    GB1410383A|1972-10-04|1975-10-15|Tech Bureau Non Nv Kooij R|Device for and method of brining meat|
    DE2738778A1|1977-08-27|1979-03-01|Jun Wilhelm Lippelt|Dough kneading machine - with eccentric kneading bell in segmented kneading trough for diameter and inclination adjustment|
    US4577975A|1984-05-09|1986-03-25|Carl Mccrory Enterprises, Inc.|Mixing and blending apparatus|
    DE9403106U1|1994-02-24|1994-04-14|G L Eberhardt Gmbh Baeckereite|Emptying aid arrangement for the dough bowl of a dough kneading and mixing machine|
    CA2450764C|2001-06-26|2013-12-10|Vita-Mix Corporation|Container for a blender|
    ES2294971B1|2007-09-03|2008-12-01|Tecnobrot, S.L.|Kneading machine|
    FR2929824B1|2008-04-15|2013-01-04|Seb Sa|PROCESS FOR FOAMING MILK.|
    DE102010042542B4|2009-10-16|2020-03-19|Wp Kemper Gmbh|Processing device for kneading dough|
    KR101650222B1|2010-03-17|2016-08-22|덴카 주식회사|Method for dissolving hyaluronic acid and/or a salt thereof|
    JP5058300B2|2010-06-07|2012-10-24|関東混合機工業株式会社|Food dough mixer|
    EP2465352A1|2010-12-17|2012-06-20|Barilla G. e R. Fratelli S.p.A.|Apparatus and method for the preparation of a bakery product|WO2017212935A1|2016-06-09|2017-12-14|プライミクス株式会社|Stirring blade and stirring device|
    CN106234488A|2016-08-30|2016-12-21|成都市翻鑫家科技有限公司|The flour mixer of waterborne in a kind of movable type|
    CN106417424A|2016-08-30|2017-02-22|成都市翻鑫家科技有限公司|Dough kneading device with dough kneading and water delivery structure|
    CN106342965A|2016-08-30|2017-01-25|成都市翻鑫家科技有限公司|Simple kneading dough blender|
    CN106212581A|2016-08-30|2016-12-14|成都市翻鑫家科技有限公司|A kind of detachable dough mixing machine|
    CN106212582A|2016-08-30|2016-12-14|成都市翻鑫家科技有限公司|A kind of flour processing device|
    DE202020102822U1|2020-05-18|2020-06-08|Dr. Herfeld Gmbh & Co. Kg|Blender|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA701/2012A|AT513079B1|2012-06-21|2012-06-21|Blender|ATA701/2012A| AT513079B1|2012-06-21|2012-06-21|Blender|
    PCT/EP2013/062741| WO2013189983A1|2012-06-21|2013-06-19|Mixing device|
    KR20157001416A| KR20150033658A|2012-06-21|2013-06-19|Mixing device|
    BR112014029169A| BR112014029169A2|2012-06-21|2013-06-19|mixer device|
    JP2015517744A| JP2015525133A|2012-06-21|2013-06-19|Kneading equipment|
    CN201380032510.0A| CN104394695B|2012-06-21|2013-06-19|Mixing arrangement|
    EP13730550.4A| EP2863752B1|2012-06-21|2013-06-19|Mixing device|
    ARP130102185| AR091517A1|2012-06-21|2013-06-19|MIXING DEVICE|
    RU2015101241A| RU2015101241A|2012-06-21|2013-06-19|MIXING DEVICE|
    US14/410,175| US9814245B2|2012-06-21|2013-06-19|Mixing apparatus|
    TW102122147A| TW201412390A|2012-06-21|2013-06-21|Mixing apparatus|
    PH12014502799A| PH12014502799A1|2012-06-21|2014-12-15|Mixing device|
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